Bupropion 150mg modified-release tablets
Prescription only
Requires a prescription from a doctor or prescriber
Tablet
150mg
Oral
Drugs used in substance dependence
Active ingredients:
Bupropion
1 safety notice
Genetic variations that may affect drug response
1 known genetic variation may influence how your body responds to Bupropion 150mg modified-release tablets.Gene involved: DRD2
These are known genetic variations. They don't mean the medicine won't work for you — speak to your doctor or a pharmacogenomics specialist for personalised advice. Source: DrugBank (CC BY-NC 4.0).
rs1800497
DRD2
The presence of this genotype in DRD2 is associated with improved therapeutic response to bupropion.
Official documents, adverse reaction reporting, and safety monitoring
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Official medicine documents
Source: MHRA Products DatabaseOGL 3.0
Updated 3 months ago(16 Jan 2026)Safety monitoring data
Yellow Card reports
MHRA
The MHRA Yellow Card scheme collects reports of suspected side effects from healthcare professionals and patients. View the Drug Analysis Profile (iDAP) for real-world adverse reaction data.
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Suspected adverse reactions reported for Bupropion
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Data from the MHRA Yellow Card scheme. A reported reaction does not necessarily mean the medicine caused it. Contains public sector information licensed under the Open Government Licence v3.0.
EudraVigilance
EMA
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Suspected adverse reactions reported for Bupropion
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EudraVigilance data is published by the European Medicines Agency (EMA). A suspected adverse reaction is not necessarily caused by the medicine.
9 branded products available
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9 products
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Zyban 150mg modified-release tablets
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£41.76indicative price
This is the NHS Drug Tariff indicative price used for reimbursement purposes. It may not reflect the price paid by patients or pharmacies.
View full Drug TariffSource: NHS Drug Tariff via NHSBSA. Derived from dm+d VMPP (Virtual Medicinal Product Pack) pricing data. Contains public sector information licensed under the Open Government Licence v3.0.
WHO defined daily dose (DDD)
300 mg
Not a recommended dose. The DDD is the assumed average maintenance dose per day for a drug used for its main indication in adults. It is a statistical measure used for research and comparison purposes only.
Source: WHO Collaborating Centre for Drug Statistics Methodology, distributed via NHS dm+d BNF mapping files. Contains public sector information licensed under the Open Government Licence v3.0.
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Similarity based on WHO Anatomical Therapeutic Chemical (ATC) classification and NHS BNF section grouping. Source data: NHS dm+d via TRUD (OGL v3.0), WHO ATC/DDD Index.
NHS prescribing volume and spending trends
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Clinical guidelines and formulary information
British National Formulary
Bupropion
BNF
Drug monograph — bnf.nice.org.ukSource: British National Formulary, NICE. Joint Formulary Committee. Contains public sector information licensed under the Open Government Licence v3.0.
NICE clinical guidance(9)
Naltrexone–bupropion for managing overweight and obesity (TA494)
TA494
Technology appraisal
Updated Dec 2017Tobacco: preventing uptake, promoting quitting and treating dependence (NG209)
NG209
NICE guideline
Updated Feb 2025Tobacco: treating dependence (QS207)
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Quality standard
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Updated Dec 2019Source: National Institute for Health and Care Excellence (NICE). Contains public sector information licensed under the Open Government Licence v3.0.
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Codes for healthcare professionals and prescribing systems
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These codes are used by healthcare IT systems and prescribers to identify this medicine.
NHS UK identifiers
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SNOMED CT and dm+d codes from NHS TRUD (Technology Reference data Update Distribution), licensed under the Open Government Licence v3.0. BNF codes from NHS Business Services Authority (NHSBSA). ATC codes from the WHO Collaborating Centre for Drug Statistics Methodology (whocc.no).
Active and completed clinical studies from ClinicalTrials.gov
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Source: ClinicalTrials.gov, a database of the U.S. National Library of Medicine (NLM), National Institutes of Health (NIH). Data accessed via ClinicalTrials.gov API v2. Trial information is provided for research purposes and does not constitute medical advice.
Pharmacology and chemical data from DrugBank
Key facts
Drug status
Approved
Major interactions
1 found
Half-life
24 hours
Mechanism
Bupropion is a norepinephrine/dopamine-reuptake inhibitor (NDRI) that exerts its…
Food interactions
2 warnings
Human targets
5 targets
Data: DrugBank · CC BY-NC 4.0
Pharmacokinetics at a glance
Absorption
2 hours
Bupropion is currently available in 3 distinct, but bioequivalent formulations: immediate release (IR), sustained-release (SR), and extended-release (XL).…
Half-life
24 hours
24 hours
Protein binding
84%
In vitro tests show that bupropion is 84% bound to human plasma proteins at concentrations up to 200 mcg per mL.…
Metabolism
50%
Bupropion is extensively metabolized in humans. Three metabolites are active: hydroxybupropion, which is formed via hydroxylation of the tert-butyl…
Elimination
200 mg
Bupropion is extensively metabolized in humans. Oxidation of the bupropion side chain results in the formation of a glycine conjugate of metachlorobenzoic…
Pharmacokinetic data: DrugBank · CC BY-NC 4.0
Status:
Approved
Investigational
Small molecule
About this compound
Bupropion (also known as the brand name product Wellbutrin®) is a norepinephrine/dopamine-reuptake inhibitor (NDRI) used most commonly for the management of Major Depressive Disorder (MDD), Seasonal Affective Disorder (SAD), and as an aid for smoking cessation. Bupropion exerts its pharmacological effects by weakly inhibiting the enzymes involved in the uptake of the neurotransmitters norepinephrine and dopamine from the synaptic cleft, therefore prolonging their duration of action within the neuronal synapse and the downstream effects of these neurotransmitters. More specifically, bupropion binds to the norepinephrine transporter (NET) and the dopamine transporter (DAT).[A6399][A178810]
Bupropion was originally classified as an "atypical" antidepressant because it does not exert the same effects as the classical antidepressants such as Monoamine Oxidase Inhibitors (MAOIs), Tricyclic Antidepressants (TCAs), or Selective Serotonin Reuptake Inhibitors (SSRIs). While it has comparable effectiveness to typical first-line options for the treatment of depression such as SSRIs,[A178798][A178804] bupropion is a unique option for the treatment of MDD as it lacks any clinically relevant serotonergic effects, typical of other mood medications, or any effects on histamine or adrenaline receptors.[A6399][A178840] Lack of activity at these receptors results in a more tolerable side effect profile; bupropion is less likely to cause sexual side effects, sedation, or weight gain as compared to SSRIs or TCAs, for example.[A178804][A178807]
When used as an aid to smoking cessation, bupropion is thought to confer its anti-craving and anti-withdrawal effects by inhibiting dopamine reuptake, which is thought to be involved in the reward pathways associated with nicotine, and through the antagonism of the nicotinic acetylcholinergic receptor.[A178825][A1966][A16508] A Cochrane Review of meta-analyses of available treatment modalities for smoking cessation found that abstinence rates approximately doubled when bupropion was used as compared to placebo, and was found to have similar rates of smoking cessation as [nicotine] replacement therapy (NRT).[A178816]
Bupropion is sometimes used as an add-on agent to first-line treatments of depression such as selective serotonin reuptake inhibitor (SSRI) medications when there is a treatment-failure or only partial response.[A178789] Bupropion is also used off-label for the management of Attention/Deficit-Hyperactivity Disorder (ADHD) in adults with comorbid bipolar depression to avoid mood destabilization caused by typical stimulant medications used for the treatment of ADHD.F4624
When used in combination with [naltrexone] in the marketed product ContraveⓇ for chronic weight management, the two components are thought to have effects on areas of the brain involved in the regulation of food intake. This includes the hypothalamus, which is involved in appetite regulation, and the mesolimbic dopamine circuit, which is involved in reward pathways.[L6562] Studies have shown that the combined activity of bupropion and [naltrexone] increase the firing rate of hypothalamic pro-opiomelanocortin (POMC) neurons and blockade of opioid receptor-mediated POMC auto-inhibition, which are associated with a reduction in food intake and increased energy expenditure.[L6562][A179038][A179050] The combination of naltrexone and bupropion was shown to result in a statistically significant weight loss, with a mean change in body weight of -6.3% compared to -1.3% for placebo.[A179047]
Bupropion was originally classified as an "atypical" antidepressant because it does not exert the same effects as the classical antidepressants such as Monoamine Oxidase Inhibitors (MAOIs), Tricyclic Antidepressants (TCAs), or Selective Serotonin Reuptake Inhibitors (SSRIs). While it has comparable effectiveness to typical first-line options for the treatment of depression such as SSRIs,[A178798][A178804] bupropion is a unique option for the treatment of MDD as it lacks any clinically relevant serotonergic effects, typical of other mood medications, or any effects on histamine or adrenaline receptors.[A6399][A178840] Lack of activity at these receptors results in a more tolerable side effect profile; bupropion is less likely to cause sexual side effects, sedation, or weight gain as compared to SSRIs or TCAs, for example.[A178804][A178807]
When used as an aid to smoking cessation, bupropion is thought to confer its anti-craving and anti-withdrawal effects by inhibiting dopamine reuptake, which is thought to be involved in the reward pathways associated with nicotine, and through the antagonism of the nicotinic acetylcholinergic receptor.[A178825][A1966][A16508] A Cochrane Review of meta-analyses of available treatment modalities for smoking cessation found that abstinence rates approximately doubled when bupropion was used as compared to placebo, and was found to have similar rates of smoking cessation as [nicotine] replacement therapy (NRT).[A178816]
Bupropion is sometimes used as an add-on agent to first-line treatments of depression such as selective serotonin reuptake inhibitor (SSRI) medications when there is a treatment-failure or only partial response.[A178789] Bupropion is also used off-label for the management of Attention/Deficit-Hyperactivity Disorder (ADHD) in adults with comorbid bipolar depression to avoid mood destabilization caused by typical stimulant medications used for the treatment of ADHD.F4624
When used in combination with [naltrexone] in the marketed product ContraveⓇ for chronic weight management, the two components are thought to have effects on areas of the brain involved in the regulation of food intake. This includes the hypothalamus, which is involved in appetite regulation, and the mesolimbic dopamine circuit, which is involved in reward pathways.[L6562] Studies have shown that the combined activity of bupropion and [naltrexone] increase the firing rate of hypothalamic pro-opiomelanocortin (POMC) neurons and blockade of opioid receptor-mediated POMC auto-inhibition, which are associated with a reduction in food intake and increased energy expenditure.[L6562][A179038][A179050] The combination of naltrexone and bupropion was shown to result in a statistically significant weight loss, with a mean change in body weight of -6.3% compared to -1.3% for placebo.[A179047]
Properties:
View FDA drug labelsolid
Avg. mass: 239.74 Da
DrugBank indication
Bupropion is indicated for the treatment of major depressive disorder (MDD), seasonal affective disorder (SAD), and as an aid to smoking cessation.
When used in combination with [naltrexone] as the marketed product ContraveⓇ, bupropion is indicated as an adjunct to a reduced-calorie diet and increased physical activity for chronic weight management in adults with an initial body mass index (BMI) of: 30 kg/m^2 or greater (obese) or 27 kg/m^2 or greater (overweight) in the presence of at least one weight-related comorbid condition (e.g., hypertension, type 2 diabetes mellitus, or dyslipidemia).
Bupropion is also used off-label as a first-line treatment in patients with ADHD and comorbid bipolar disorder when used as an adjunct to mood stabilizers.F4624
When used in combination with [naltrexone] as the marketed product ContraveⓇ, bupropion is indicated as an adjunct to a reduced-calorie diet and increased physical activity for chronic weight management in adults with an initial body mass index (BMI) of: 30 kg/m^2 or greater (obese) or 27 kg/m^2 or greater (overweight) in the presence of at least one weight-related comorbid condition (e.g., hypertension, type 2 diabetes mellitus, or dyslipidemia).
Bupropion is also used off-label as a first-line treatment in patients with ADHD and comorbid bipolar disorder when used as an adjunct to mood stabilizers.F4624
Also known as(61)
Amfebutamone
Bupropion
DA transporter
DAT
DAT1
Solute carrier family 6 member 3
NAT1
NET
Dosage forms(41)
Tablet, extended release (Oral) — 174 mg/1
Tablet, extended release (Oral) — 522 mg/1
Tablet, extended release (Oral) — 348 mg/1
Kit (Oral)
Tablet, multilayer, extended release (Oral)
Tablet, film coated, extended release (Oral) — 150 mg/1
Tablet, extended release (Oral) — 450 mg
Tablet, delayed release (Oral) — 150 MG
Molecular properties(19)
Drug interactions(1647)
Known interactions with other medications. Always consult a healthcare professional.
Fluvoxamine
Unknown severity
The risk or severity of adverse effects can be increased when Bupropion is combined with Fluvoxamine.
Buprenorphine
Moderate
Bupropion may increase the central nervous system depressant (CNS depressant) activities of Buprenorphine.
Doxylamine
Moderate
Doxylamine may increase the central nervous system depressant (CNS depressant) activities of Bupropion.
Dronabinol
Unknown severity
The serum concentration of Bupropion can be increased when it is combined with Dronabinol.
Droperidol
Moderate
Droperidol may increase the central nervous system depressant (CNS depressant) activities of Bupropion.
Hydrocodone
Moderate
Bupropion may increase the central nervous system depressant (CNS depressant) activities of Hydrocodone.
Hydroxyzine
Moderate
Hydroxyzine may increase the central nervous system depressant (CNS depressant) activities of Bupropion.
Magnesium sulfate
Moderate
The therapeutic efficacy of Bupropion can be increased when used in combination with Magnesium sulfate.
Methotrimeprazine
Moderate
Bupropion may increase the central nervous system depressant (CNS depressant) activities of Methotrimeprazine.
Metyrosine
Moderate
Bupropion may increase the sedative activities of Metyrosine.
Minocycline
Moderate
Minocycline may increase the central nervous system depressant (CNS depressant) activities of Bupropion.
Mirtazapine
Moderate
Bupropion may increase the central nervous system depressant (CNS depressant) activities of Mirtazapine.
Nabilone may increase the central nervous system depressant (CNS depressant) activities of Bupropion.
Paraldehyde
Moderate
Bupropion may increase the central nervous system depressant (CNS depressant) activities of Paraldehyde.
Perampanel
Moderate
Perampanel may increase the central nervous system depressant (CNS depressant) activities of Bupropion.
Rufinamide
Unknown severity
The risk or severity of adverse effects can be increased when Rufinamide is combined with Bupropion.
Sodium oxybate
Moderate
Bupropion may increase the central nervous system depressant (CNS depressant) activities of Sodium oxybate.
Suvorexant
Moderate
Bupropion may increase the central nervous system depressant (CNS depressant) activities of Suvorexant.
Tapentadol
Moderate
Tapentadol may increase the central nervous system depressant (CNS depressant) activities of Bupropion.
Thalidomide
Moderate
Bupropion may increase the central nervous system depressant (CNS depressant) activities of Thalidomide.
Bupropion may increase the central nervous system depressant (CNS depressant) activities of Zolpidem.
Citalopram
Unknown severity
The risk or severity of adverse effects can be increased when Bupropion is combined with Citalopram.
The excretion of Choline can be decreased when combined with Bupropion.
Dofetilide
Unknown severity
The excretion of Dofetilide can be decreased when combined with Bupropion.
The excretion of Reserpine can be decreased when combined with Bupropion.
The excretion of Metformin can be decreased when combined with Bupropion.
Norepinephrine
Unknown severity
The excretion of Norepinephrine can be decreased when combined with Bupropion.
Pramipexole
Unknown severity
The excretion of Pramipexole can be decreased when combined with Bupropion.
The excretion of Prazosin can be decreased when combined with Bupropion.
Cimetidine
Moderate
The metabolism of Bupropion can be decreased when combined with Cimetidine.
The excretion of Cisplatin can be decreased when combined with Bupropion.
Oxaliplatin
Unknown severity
The excretion of Oxaliplatin can be decreased when combined with Bupropion.
Epinephrine
Unknown severity
The excretion of Epinephrine can be decreased when combined with Bupropion.
Lamivudine
Unknown severity
The excretion of Lamivudine can be decreased when combined with Bupropion.
Ranitidine
Unknown severity
The excretion of Ranitidine can be decreased when combined with Bupropion.
Amantadine
Unknown severity
The excretion of Amantadine can be decreased when combined with Bupropion.
The excretion of Dopamine can be decreased when combined with Bupropion.
The excretion of Memantine can be decreased when combined with Bupropion.
Varenicline
Unknown severity
The excretion of Varenicline can be decreased when combined with Bupropion.
The excretion of Histamine can be decreased when combined with Bupropion.
Dalfampridine
Unknown severity
The excretion of Dalfampridine can be decreased when combined with Bupropion.
The excretion of Agmatine can be decreased when combined with Bupropion.
Linagliptin
Unknown severity
The excretion of Linagliptin can be decreased when combined with Bupropion.
Nafamostat
Unknown severity
The excretion of Nafamostat can be decreased when combined with Bupropion.
Choline salicylate
Unknown severity
The excretion of Choline salicylate can be decreased when combined with Bupropion.
Gentamicin
Unknown severity
The excretion of Gentamicin can be decreased when combined with Bupropion.
The risk or severity of adverse effects can be increased when Methadone is combined with Bupropion.
Atomoxetine
Moderate
The metabolism of Atomoxetine can be decreased when combined with Bupropion.
Brexpiprazole
Moderate
The metabolism of Brexpiprazole can be decreased when combined with Bupropion.
The metabolism of Bupropion can be increased when combined with Ritonavir.
Showing 50 of 1647 interactions
Food & lifestyle interactions
Avoid Alcohol
Avoid alcohol. Co-administration with alcohol may result in neuropsychiatric adverse effects and potentiation of CNS depressant effects.
Advice
Take with or without food. Co-administration with food does not significantly affect pharmacokinetics.
Toxicity & overdose
Symptoms of overdose include seizures, hallucinations, loss of consciousness, tachycardia, and cardiac arrest.
How it works
Mechanism of action
Bupropion is a norepinephrine/dopamine-reuptake inhibitor (NDRI) that exerts its pharmacological effects by weakly inhibiting the enzymes involved in the uptake of the neurotransmitters norepinephrine and dopamine from the synaptic cleft, therefore prolonging their duration of action within the neuronal synapse and the downstream effects of these neurotransmitters. More specifically, bupropion binds to the norepinephrine transporter (NET) and the dopamine transporter (DAT).[A6399][A178810]
Bupropion was originally classified as an "atypical" antidepressant because it does not exert the same effects as the classical antidepressants such as Monoamine Oxidase Inhibitors (MAOIs), Tricyclic Antidepressants (TCAs), or Selective Serotonin Reuptake Inhibitors (SSRIs). While it has comparable effectiveness to typical first-line options for the treatment of depression such as SSRIs,[A178798][A178804] bupropion is a unique option for the treatment of MDD as it lacks any clinically relevant serotonergic effects, typical of other mood medications, or any effects on histamine or adrenaline receptors.[A6399][A178840] Lack of activity at these receptors results in a more tolerable side effect profile; bupropion is less likely to cause sexual side effects, sedation, or weight gain as compared to SSRIs or TCAs, for example.[A178804][A178807]
When used as an aid to smoking cessation, bupropion is thought to confer its anti-craving and anti-withdrawal effects by inhibiting dopamine reuptake, which is thought to be involved in the reward pathways associated with nicotine, and through the antagonism of the nicotinic acetylcholinergic receptor (AChR), thereby blunting the effects of nicotine.[A178825][A1966][A16508] Furthermore, the stimulatory effects produced by bupropion in the central nervous system are similar to nicotine's effects, making low doses of bupropion a suitable option as a nicotine substitute.[A179062]
When used in combination with [naltrexone] in the marketed product ContraveⓇ for chronic weight management, the two components are thought to have effects on areas of the brain involved in the regulation of food intake. This includes the hypothalamus, which is involved in appetite regulation, and the mesolimbic dopamine circuit, which is involved in reward pathways.[L6562] Studies have shown that the combined activity of bupropion and [naltrexone] increase the firing rate of hypothalamic pro-opiomelanocortin (POMC) neurons and blockade of opioid receptor-mediated POMC auto-inhibition, which are associated with a reduction in food intake and increased energy expenditure.[L6562][A179038][A179050] This combination was also found to reduce food intake when injected directly into the ventral tegmental area of the mesolimbic circuit in mice, which is an area associated with the regulation of reward pathways.[L6562]
Bupropion was originally classified as an "atypical" antidepressant because it does not exert the same effects as the classical antidepressants such as Monoamine Oxidase Inhibitors (MAOIs), Tricyclic Antidepressants (TCAs), or Selective Serotonin Reuptake Inhibitors (SSRIs). While it has comparable effectiveness to typical first-line options for the treatment of depression such as SSRIs,[A178798][A178804] bupropion is a unique option for the treatment of MDD as it lacks any clinically relevant serotonergic effects, typical of other mood medications, or any effects on histamine or adrenaline receptors.[A6399][A178840] Lack of activity at these receptors results in a more tolerable side effect profile; bupropion is less likely to cause sexual side effects, sedation, or weight gain as compared to SSRIs or TCAs, for example.[A178804][A178807]
When used as an aid to smoking cessation, bupropion is thought to confer its anti-craving and anti-withdrawal effects by inhibiting dopamine reuptake, which is thought to be involved in the reward pathways associated with nicotine, and through the antagonism of the nicotinic acetylcholinergic receptor (AChR), thereby blunting the effects of nicotine.[A178825][A1966][A16508] Furthermore, the stimulatory effects produced by bupropion in the central nervous system are similar to nicotine's effects, making low doses of bupropion a suitable option as a nicotine substitute.[A179062]
When used in combination with [naltrexone] in the marketed product ContraveⓇ for chronic weight management, the two components are thought to have effects on areas of the brain involved in the regulation of food intake. This includes the hypothalamus, which is involved in appetite regulation, and the mesolimbic dopamine circuit, which is involved in reward pathways.[L6562] Studies have shown that the combined activity of bupropion and [naltrexone] increase the firing rate of hypothalamic pro-opiomelanocortin (POMC) neurons and blockade of opioid receptor-mediated POMC auto-inhibition, which are associated with a reduction in food intake and increased energy expenditure.[L6562][A179038][A179050] This combination was also found to reduce food intake when injected directly into the ventral tegmental area of the mesolimbic circuit in mice, which is an area associated with the regulation of reward pathways.[L6562]
Pharmacodynamics
Bupropion is chemically unrelated to tricyclic, tetracyclic, selective serotonin re-uptake inhibitors, or other known antidepressant agents. Compared to classical tricyclic antidepressants, Bupropion is a relatively weak inhibitor of the neuronal uptake of norepinephrine and dopamine. In addition, Bupropion does not inhibit monoamine oxidase. Bupropion has been found to be essentially inactive at the serotonin transporter (SERT)(IC50 >10 000 nM),[A178810] however both bupropion and its primary metabolite hydroxybupropion have been found to block the function of cation-selective serotonin type 3A receptors (5-HT3ARs).
Bupropion produces dose-related central nervous system (CNS) stimulant effects in animals, as evidenced by increased locomotor activity, increased rates of responding in various schedule-controlled operant behaviour tasks, and, at high doses, induction of mild stereotyped behaviour [FDA Label]. Due to these stimulant effects and selective activity at dopamine and norepinephrine receptors, bupropion has been identified as having an abuse potential.[FDA Label,A178846] Bupropion has a similar structure to the controlled substance DB01560, and has been identified as having mild amphetamine-like activity, particularly when inhaled or injected.[A178846]
Bupropion is also known to lower the seizure threshold, making any pre-existing seizure conditions a contraindication to its use. This risk is exacerbated when bupropion is combined with other drugs or substances that lower the seizure threshold, such as [cocaine], or in clinical situations that would increase the risk of a seizure such as abrupt alcohol or benzodiazepine withdrawal.[FDA Label] As norepinephrine has been shown to have anticonvulsant properties, bupropion's inhibitory effects on NET are thought to contribute to its pro-convulsant activity.[A178846]
Bupropion has been shown to increase blood pressure and pose a risk for exacerbation of unmanaged or pre-existing hypertension,[A178852,FDA Label] however, clinical trials of bupropion in smokers with CVD have not identified an increased incidence of CV events including stroke or heart attack.[A178855] In clinical trials, the mean increase in systolic blood pressure associated with the use of bupropion was found to be 1.3 mmHg.[FDA Label]
Bupropion produces dose-related central nervous system (CNS) stimulant effects in animals, as evidenced by increased locomotor activity, increased rates of responding in various schedule-controlled operant behaviour tasks, and, at high doses, induction of mild stereotyped behaviour [FDA Label]. Due to these stimulant effects and selective activity at dopamine and norepinephrine receptors, bupropion has been identified as having an abuse potential.[FDA Label,A178846] Bupropion has a similar structure to the controlled substance DB01560, and has been identified as having mild amphetamine-like activity, particularly when inhaled or injected.[A178846]
Bupropion is also known to lower the seizure threshold, making any pre-existing seizure conditions a contraindication to its use. This risk is exacerbated when bupropion is combined with other drugs or substances that lower the seizure threshold, such as [cocaine], or in clinical situations that would increase the risk of a seizure such as abrupt alcohol or benzodiazepine withdrawal.[FDA Label] As norepinephrine has been shown to have anticonvulsant properties, bupropion's inhibitory effects on NET are thought to contribute to its pro-convulsant activity.[A178846]
Bupropion has been shown to increase blood pressure and pose a risk for exacerbation of unmanaged or pre-existing hypertension,[A178852,FDA Label] however, clinical trials of bupropion in smokers with CVD have not identified an increased incidence of CV events including stroke or heart attack.[A178855] In clinical trials, the mean increase in systolic blood pressure associated with the use of bupropion was found to be 1.3 mmHg.[FDA Label]
Pharmacokinetics
How the body processes this drug — absorption, distribution, metabolism, and elimination
Absorption
Bupropion is currently available in 3 distinct, but bioequivalent formulations: immediate release (IR), sustained-release (SR), and extended-release (XL).
Immediate Release Formulation
In humans, following oral administration of bupropion hydrochloride tablets, peak plasma bupropion concentrations are usually achieved within 2 hours. IR formulations provide a short duration of action and are therefore generally dosed three times per day.
Sustained Release Formulation
In humans, following oral administration of bupropion hydrochloride sustained-release tablets (SR), peak plasma concentration (Cmax) of bupropion is usually achieved within 3 hours. SR formulations provide a 12-hour extended release of medication and are therefore generally dosed twice per day.
Extended Release Formulation
Following single oral administration of bupropion hydrochloride extended-release tablets (XL) to healthy volunteers, the median time to peak plasma concentrations for bupropion was approximately 5 hours.
The presence of food did not affect the peak concentration or area under the curve of bupropion. XL formulations provide a 24-hour extended release of medication and are therefore generally dosed once per day/
In a trial comparing chronic dosing with bupropion hydrochloride extended-release tablets (SR) 150 mg twice daily to bupropion immediate-release formulation 100 mg 3 times daily, the steady state Cmax for bupropion after bupropion hydrochloride sustained-release tablets (SR) administration was approximately 85% of those achieved after bupropion immediate-release formulation administration. Exposure (AUC) to bupropion was equivalent for both formulations.
Bioequivalence was also demonstrated for all three major active metabolites (i.e., hydroxybupropion, threohydrobupropion and erythrohydrobupropion) for both Cmax and AUC. Thus, at steady state, bupropion hydrochloride sustained-release tablets (SR) given twice daily, and the immediate-release formulation of bupropion given 3 times daily, are essentially bioequivalent for both bupropion and the 3 quantitatively important metabolites.[FDA Label]
Furthermore, in a study comparing 14-day dosing with bupropion hydrochloride extended-release tablets (XL), 300 mg once-daily to the immediate-release formulation of bupropion at 100 mg 3 times daily, equivalence was demonstrated for peak plasma concentration and area under the curve for bupropion and the three metabolites (hydroxybupropion, threohydrobupropion, and erythrohydrobupropion). Additionally, in a study comparing 14-day dosing with bupropion hydrochloride extended-release tablets (XL) 300 mg once daily to the sustained-release formulation of bupropion at 150 mg 2 times daily, equivalence was demonstrated for peak plasma concentration and area under the curve for bupropion and the three metabolites.[FDA Label]
Bupropion hydrochloride extended-release tablets (SR) can be taken with or without food.
Bupropion Cmax and AUC were increased by 11% to 35% and 16% to 19%, respectively, when bupropion hydrochloride extended-release tablets (SR) was administered with food to healthy volunteers in three trials. The food effect is not considered clinically significant.[FDA Label]
Following a single-dose administration of bupropion hydrochloride extended-release tablets (SR) in humans, Cmax of bupropion's metabolite hydroxybupropion occurs approximately 6 hours post-dose and is approximately 10 times the peak level of the parent drug at steady state. The elimination half-life of hydroxybupropion is approximately 20 (±5) hours and its AUC at steady state is about 17 times that of bupropion.
The times to peak concentrations for the erythrohydrobupropion and threohydrobupropion metabolites are similar to that of the hydroxybupropion metabolite. However, their elimination half-lives are longer, 33(±10) and 37 (±13) hours, respectively, and steady-state AUCs are 1.5 and 7 times that of bupropion, respectively.[FDA Label]
Immediate Release Formulation
In humans, following oral administration of bupropion hydrochloride tablets, peak plasma bupropion concentrations are usually achieved within 2 hours. IR formulations provide a short duration of action and are therefore generally dosed three times per day.
Sustained Release Formulation
In humans, following oral administration of bupropion hydrochloride sustained-release tablets (SR), peak plasma concentration (Cmax) of bupropion is usually achieved within 3 hours. SR formulations provide a 12-hour extended release of medication and are therefore generally dosed twice per day.
Extended Release Formulation
Following single oral administration of bupropion hydrochloride extended-release tablets (XL) to healthy volunteers, the median time to peak plasma concentrations for bupropion was approximately 5 hours.
The presence of food did not affect the peak concentration or area under the curve of bupropion. XL formulations provide a 24-hour extended release of medication and are therefore generally dosed once per day/
In a trial comparing chronic dosing with bupropion hydrochloride extended-release tablets (SR) 150 mg twice daily to bupropion immediate-release formulation 100 mg 3 times daily, the steady state Cmax for bupropion after bupropion hydrochloride sustained-release tablets (SR) administration was approximately 85% of those achieved after bupropion immediate-release formulation administration. Exposure (AUC) to bupropion was equivalent for both formulations.
Bioequivalence was also demonstrated for all three major active metabolites (i.e., hydroxybupropion, threohydrobupropion and erythrohydrobupropion) for both Cmax and AUC. Thus, at steady state, bupropion hydrochloride sustained-release tablets (SR) given twice daily, and the immediate-release formulation of bupropion given 3 times daily, are essentially bioequivalent for both bupropion and the 3 quantitatively important metabolites.[FDA Label]
Furthermore, in a study comparing 14-day dosing with bupropion hydrochloride extended-release tablets (XL), 300 mg once-daily to the immediate-release formulation of bupropion at 100 mg 3 times daily, equivalence was demonstrated for peak plasma concentration and area under the curve for bupropion and the three metabolites (hydroxybupropion, threohydrobupropion, and erythrohydrobupropion). Additionally, in a study comparing 14-day dosing with bupropion hydrochloride extended-release tablets (XL) 300 mg once daily to the sustained-release formulation of bupropion at 150 mg 2 times daily, equivalence was demonstrated for peak plasma concentration and area under the curve for bupropion and the three metabolites.[FDA Label]
Bupropion hydrochloride extended-release tablets (SR) can be taken with or without food.
Bupropion Cmax and AUC were increased by 11% to 35% and 16% to 19%, respectively, when bupropion hydrochloride extended-release tablets (SR) was administered with food to healthy volunteers in three trials. The food effect is not considered clinically significant.[FDA Label]
Following a single-dose administration of bupropion hydrochloride extended-release tablets (SR) in humans, Cmax of bupropion's metabolite hydroxybupropion occurs approximately 6 hours post-dose and is approximately 10 times the peak level of the parent drug at steady state. The elimination half-life of hydroxybupropion is approximately 20 (±5) hours and its AUC at steady state is about 17 times that of bupropion.
The times to peak concentrations for the erythrohydrobupropion and threohydrobupropion metabolites are similar to that of the hydroxybupropion metabolite. However, their elimination half-lives are longer, 33(±10) and 37 (±13) hours, respectively, and steady-state AUCs are 1.5 and 7 times that of bupropion, respectively.[FDA Label]
Half-life
24 hours
Protein binding
In vitro tests show that bupropion is 84% bound to human plasma proteins at concentrations up to 200 mcg per mL. The extent of protein binding of the hydroxybupropion metabolite is similar to that for bupropion, whereas the extent of protein binding of the threohydrobupropion metabolite is about half that seen with bupropion.[FDA Label]
Metabolism
Bupropion is extensively metabolized in humans. Three metabolites are active: hydroxybupropion, which is formed via hydroxylation of the tert-butyl group of bupropion, and the amino-alcohol isomers, threohydrobupropion and erythrohydrobupropion, which are formed via reduction of the carbonyl group. In vitro findings suggest that CYP2B6 is the principal isoenzyme involved in the formation of hydroxybupropion, while cytochrome P450 enzymes are not involved in the formation of threohydrobupropion.
Hydroxybupropion has been shown to have the same affinity as bupropion for the norepinephrine transporter (NET) but approximately 50% of its antidepressant activity despite reaching concentrations of ~10-fold higher than that of the parent drug.
[A179062]
Oxidation of the bupropion side chain results in the formation of a glycine conjugate of meta-chlorobenzoic acid, which is then excreted as the major urinary metabolite. The potency and toxicity of the metabolites relative to bupropion have not been fully characterized. However, it has been demonstrated in an antidepressant screening test in mice that hydroxybupropion is one-half as potent as bupropion, while threohydrobupropion and erythrohydrobupropion are 5-fold less potent than bupropion.
This may be of clinical importance because the plasma concentrations of the metabolites are as high as or higher than those of bupropion.[FDA Label]
Bupropion and its metabolites exhibit linear kinetics following chronic administration of 300 to 450 mg per day.
Hydroxybupropion has been shown to have the same affinity as bupropion for the norepinephrine transporter (NET) but approximately 50% of its antidepressant activity despite reaching concentrations of ~10-fold higher than that of the parent drug.
[A179062]
Oxidation of the bupropion side chain results in the formation of a glycine conjugate of meta-chlorobenzoic acid, which is then excreted as the major urinary metabolite. The potency and toxicity of the metabolites relative to bupropion have not been fully characterized. However, it has been demonstrated in an antidepressant screening test in mice that hydroxybupropion is one-half as potent as bupropion, while threohydrobupropion and erythrohydrobupropion are 5-fold less potent than bupropion.
This may be of clinical importance because the plasma concentrations of the metabolites are as high as or higher than those of bupropion.[FDA Label]
Bupropion and its metabolites exhibit linear kinetics following chronic administration of 300 to 450 mg per day.
Route of elimination
Bupropion is extensively metabolized in humans. Oxidation of the bupropion side chain results in the formation of a glycine conjugate of metachlorobenzoic acid, which is then excreted as the major urinary metabolite. Following oral administration of 200 mg of 14C-bupropion in humans, 87% and 10% of the radioactive dose were recovered in the urine and feces, respectively.
However, the fraction of the oral dose of bupropion excreted unchanged was only 0.5%, a finding consistent with the extensive metabolism of bupropion.
However, the fraction of the oral dose of bupropion excreted unchanged was only 0.5%, a finding consistent with the extensive metabolism of bupropion.
Drug targets(5)
Proteins and enzymes this drug interacts with in the body
Sodium-dependent dopamine transporter
SLC6A3
inhibitor
Specific functionamine binding
Cellular location
Cell membrane
General function & pharmacology
Mediates sodium- and chloride-dependent transport of dopamine .
PMID:10375632 PMID:11093780 PMID:1406597 PMID:15505207 PMID:19478460 PMID:39112701 PMID:39112703 PMID:39112705 PMID:8302271
Also mediates sodium- and chloride-dependent transport of norepinephrine (also known as noradrenaline) (By similarity). Regulator of light-dependent retinal hyaloid vessel regression, downstream of OPN5 signaling (By similarity)
PMID:10375632 PMID:11093780 PMID:1406597 PMID:15505207 PMID:19478460 PMID:39112701 PMID:39112703 PMID:39112705 PMID:8302271
Also mediates sodium- and chloride-dependent transport of norepinephrine (also known as noradrenaline) (By similarity). Regulator of light-dependent retinal hyaloid vessel regression, downstream of OPN5 signaling (By similarity)
Sodium-dependent noradrenaline transporter
SLC6A2
inhibitor
Specific functionactin binding
Cellular location
Cell membrane
General function & pharmacology
Mediates sodium- and chloride-dependent transport of norepinephrine (also known as noradrenaline), the primary signaling neurotransmitter in the autonomic sympathetic nervous system .
PMID:2008212 PMID:8125921 PMID:38750358
Is responsible for norepinephrine re-uptake and clearance from the synaptic cleft, thus playing a crucial role in norepinephrine inactivation and homeostasis (By similarity). Can also mediate sodium- and chloride-dependent transport of dopamine PMID:11093780 PMID:8125921 PMID:39395208 PMID:39048818
PMID:2008212 PMID:8125921 PMID:38750358
Is responsible for norepinephrine re-uptake and clearance from the synaptic cleft, thus playing a crucial role in norepinephrine inactivation and homeostasis (By similarity). Can also mediate sodium- and chloride-dependent transport of dopamine PMID:11093780 PMID:8125921 PMID:39395208 PMID:39048818
Sodium-dependent serotonin transporter
SLC6A4
inhibitor
Specific functionactin filament binding
Cellular location
Cell membrane
General function & pharmacology
Serotonin transporter that cotransports serotonin with one Na(+) ion in exchange for one K(+) ion and possibly one proton in an overall electroneutral transport cycle. Transports serotonin across the plasma membrane from the extracellular compartment to the cytosol thus limiting serotonin intercellular signaling .
PMID:10407194 PMID:12869649 PMID:21730057 PMID:27049939 PMID:27756841 PMID:34851672
Essential for serotonin homeostasis in the central nervous system. In the developing somatosensory cortex, acts in glutamatergic neurons to control serotonin uptake and its trophic functions accounting for proper spatial organization of cortical neurons and elaboration of sensory circuits.
In the mature cortex, acts primarily in brainstem raphe neurons to mediate serotonin uptake from the synaptic cleft back into the pre-synaptic terminal thus terminating serotonin signaling at the synapse (By similarity). Modulates mucosal serotonin levels in the gastrointestinal tract through uptake and clearance of serotonin in enterocytes. Required for enteric neurogenesis and gastrointestinal reflexes (By similarity).
Regulates blood serotonin levels by ensuring rapid high affinity uptake of serotonin from plasma to platelets, where it is further stored in dense granules via vesicular monoamine transporters and then released upon stimulation .
PMID:17506858 PMID:18317590
Mechanistically, the transport cycle starts with an outward-open conformation having Na1(+) and Cl(-) sites occupied. The binding of a second extracellular Na2(+) ion and serotonin substrate leads to structural changes to outward-occluded to inward-occluded to inward-open, where the Na2(+) ion and serotonin are released into the cytosol. Binding of intracellular K(+) ion induces conformational transitions to inward-occluded to outward-open and completes the cycle by releasing K(+) possibly together with a proton bound to Asp-98 into the extracellular compartment.
Na1(+) and Cl(-) ions remain bound throughout the transport cycle .
PMID:10407194 PMID:12869649 PMID:21730057 PMID:27049939 PMID:27756841 PMID:34851672
Additionally, displays serotonin-induced channel-like conductance for monovalent cations, mainly Na(+) ions. The channel activity is uncoupled from the transport cycle and may contribute to the membrane resting potential or excitability (By similarity)
PMID:10407194 PMID:12869649 PMID:21730057 PMID:27049939 PMID:27756841 PMID:34851672
Essential for serotonin homeostasis in the central nervous system. In the developing somatosensory cortex, acts in glutamatergic neurons to control serotonin uptake and its trophic functions accounting for proper spatial organization of cortical neurons and elaboration of sensory circuits.
In the mature cortex, acts primarily in brainstem raphe neurons to mediate serotonin uptake from the synaptic cleft back into the pre-synaptic terminal thus terminating serotonin signaling at the synapse (By similarity). Modulates mucosal serotonin levels in the gastrointestinal tract through uptake and clearance of serotonin in enterocytes. Required for enteric neurogenesis and gastrointestinal reflexes (By similarity).
Regulates blood serotonin levels by ensuring rapid high affinity uptake of serotonin from plasma to platelets, where it is further stored in dense granules via vesicular monoamine transporters and then released upon stimulation .
PMID:17506858 PMID:18317590
Mechanistically, the transport cycle starts with an outward-open conformation having Na1(+) and Cl(-) sites occupied. The binding of a second extracellular Na2(+) ion and serotonin substrate leads to structural changes to outward-occluded to inward-occluded to inward-open, where the Na2(+) ion and serotonin are released into the cytosol. Binding of intracellular K(+) ion induces conformational transitions to inward-occluded to outward-open and completes the cycle by releasing K(+) possibly together with a proton bound to Asp-98 into the extracellular compartment.
Na1(+) and Cl(-) ions remain bound throughout the transport cycle .
PMID:10407194 PMID:12869649 PMID:21730057 PMID:27049939 PMID:27756841 PMID:34851672
Additionally, displays serotonin-induced channel-like conductance for monovalent cations, mainly Na(+) ions. The channel activity is uncoupled from the transport cycle and may contribute to the membrane resting potential or excitability (By similarity)
Neuronal acetylcholine receptor subunit alpha-3
CHRNA3
antagonist
Specific functionacetylcholine binding
Cellular location
Synaptic cell membrane
General function & pharmacology
Component of neuronal acetylcholine receptors (nAChRs) that function as pentameric, ligand-gated cation channels with high calcium permeability among other activities. nAChRs are excitatory neurotrasnmitter receptors formed by a collection of nAChR subunits known to mediate synaptic transmission in the nervous system and the neuromuscular junction. Each nAchR subunit confers differential attributes to channel properties, including activation, deactivation and desensitization kinetics, pH sensitivity, cation permeability, and binding to allosteric modulators .
PMID:31488329 PMID:31708116
CHRNA3 forms heteropentameric neuronal acetylcholine receptors with CHRNB2 and CHRNB4, with CHRNA5, and CHRNB3 as accesory subunits .
PMID:20881005 PMID:8663494
CHRNA3:CHRNB4 being predominant in neurons of the autonomic ganglia, it is known as ganglionic nicotinic receptor .
PMID:31488329
CHRNA3:CHRNB4 or CHRNA3:CHRNA5:CHRNB4 play also an important role in the habenulo-interpeduncular tract, modulating the mesolimbic dopamine system and affecting reward circuits and addiction (By similarity). Hypothalamic CHRNA3:CHRNB4 nAChR activation by nicotine leads to activation of POMC neurons and a decrease in food intake (By similarity).
Also expressed in the urothelium where it modulates reflex bladder activity by increasing intracellular calcium through extracellular influx and basal ATP release (By similarity)
PMID:31488329 PMID:31708116
CHRNA3 forms heteropentameric neuronal acetylcholine receptors with CHRNB2 and CHRNB4, with CHRNA5, and CHRNB3 as accesory subunits .
PMID:20881005 PMID:8663494
CHRNA3:CHRNB4 being predominant in neurons of the autonomic ganglia, it is known as ganglionic nicotinic receptor .
PMID:31488329
CHRNA3:CHRNB4 or CHRNA3:CHRNA5:CHRNB4 play also an important role in the habenulo-interpeduncular tract, modulating the mesolimbic dopamine system and affecting reward circuits and addiction (By similarity). Hypothalamic CHRNA3:CHRNB4 nAChR activation by nicotine leads to activation of POMC neurons and a decrease in food intake (By similarity).
Also expressed in the urothelium where it modulates reflex bladder activity by increasing intracellular calcium through extracellular influx and basal ATP release (By similarity)
5-hydroxytryptamine receptor 3A
HTR3A
negative modulator
Specific functionexcitatory extracellular ligand-gated monoatomic ion channel activity
Cellular location
Postsynaptic cell membrane
General function & pharmacology
Forms serotonin (5-hydroxytryptamine/5-HT3)-activated cation-selective channel complexes, which when activated cause fast, depolarizing responses in neurons
Metabolizing enzymes(4)
Enzymes involved in drug metabolism — important for understanding drug interactions
Enzyme activity key
substrate
inhibitor
inducer
CYP2C9Cytochrome P450 2C9
substrate
CYP2E1Cytochrome P450 2E1
substrate
CYP2B6Cytochrome P450 2B6
substrate
CYP2D6Cytochrome P450 2D6
inhibitor
Transporters(1)
Proteins that transport this drug across cell membranes
Solute carrier family 22 member 2
SLC22A2
inhibitor
Specific functionacetylcholine transmembrane transporter activity
Cellular location
Basolateral cell membrane
General function & pharmacology
Electrogenic voltage-dependent transporter that mediates the transport of a variety of organic cations such as endogenous bioactive amines, cationic drugs and xenobiotics .
PMID:9260930 PMID:9687576
Functions as a Na(+)-independent, bidirectional uniporter .
PMID:21128598 PMID:9687576
Cation cellular uptake or release is driven by the electrochemical potential, i.e. membrane potential and concentration gradient .
PMID:15212162 PMID:9260930 PMID:9687576
However, may also engage electroneutral cation exchange when saturating concentrations of cation substrates are reached (By similarity). Predominantly expressed at the basolateral membrane of hepatocytes and proximal tubules and involved in the uptake and disposition of cationic compounds by hepatic and renal clearance from the blood flow .
PMID:15783073
Implicated in monoamine neurotransmitters uptake such as histamine, dopamine, adrenaline/epinephrine, noradrenaline/norepinephrine, serotonin and tyramine, thereby supporting a physiological role in the central nervous system by regulating interstitial concentrations of neurotransmitters .
PMID:16581093 PMID:17460754 PMID:9687576
Also capable of transporting dopaminergic neuromodulators cyclo(his-pro), salsolinol and N-methyl-salsolinol, thereby involved in the maintenance of dopaminergic cell integrity in the central nervous system .
PMID:17460754
Mediates the bidirectional transport of acetylcholine (ACh) at the apical membrane of ciliated cell in airway epithelium, thereby playing a role in luminal release of ACh from bronchial epithelium .
PMID:15817714
Also transports guanidine and endogenous monoamines such as vitamin B1/thiamine, creatinine and N-1-methylnicotinamide (NMN) .
PMID:12089365 PMID:15212162 PMID:17072098 PMID:24961373 PMID:9260930
Mediates the uptake and efflux of quaternary ammonium compound choline .
PMID:9260930
Mediates the bidirectional transport of polyamine agmatine and the uptake of polyamines putrescine and spermidine .
PMID:12538837 PMID:21128598
Able to transport non-amine endogenous compounds such as prostaglandin E2 (PGE2) and prostaglandin F2-alpha (PGF2-alpha) .
PMID:11907186
Also involved in the uptake of xenobiotic 4-(4-(dimethylamino)styryl)-N-methylpyridinium (ASP) .
PMID:12395288 PMID:16394027
May contribute to regulate the transport of organic compounds in testis across the blood-testis-barrier (Probable)
PMID:9260930 PMID:9687576
Functions as a Na(+)-independent, bidirectional uniporter .
PMID:21128598 PMID:9687576
Cation cellular uptake or release is driven by the electrochemical potential, i.e. membrane potential and concentration gradient .
PMID:15212162 PMID:9260930 PMID:9687576
However, may also engage electroneutral cation exchange when saturating concentrations of cation substrates are reached (By similarity). Predominantly expressed at the basolateral membrane of hepatocytes and proximal tubules and involved in the uptake and disposition of cationic compounds by hepatic and renal clearance from the blood flow .
PMID:15783073
Implicated in monoamine neurotransmitters uptake such as histamine, dopamine, adrenaline/epinephrine, noradrenaline/norepinephrine, serotonin and tyramine, thereby supporting a physiological role in the central nervous system by regulating interstitial concentrations of neurotransmitters .
PMID:16581093 PMID:17460754 PMID:9687576
Also capable of transporting dopaminergic neuromodulators cyclo(his-pro), salsolinol and N-methyl-salsolinol, thereby involved in the maintenance of dopaminergic cell integrity in the central nervous system .
PMID:17460754
Mediates the bidirectional transport of acetylcholine (ACh) at the apical membrane of ciliated cell in airway epithelium, thereby playing a role in luminal release of ACh from bronchial epithelium .
PMID:15817714
Also transports guanidine and endogenous monoamines such as vitamin B1/thiamine, creatinine and N-1-methylnicotinamide (NMN) .
PMID:12089365 PMID:15212162 PMID:17072098 PMID:24961373 PMID:9260930
Mediates the uptake and efflux of quaternary ammonium compound choline .
PMID:9260930
Mediates the bidirectional transport of polyamine agmatine and the uptake of polyamines putrescine and spermidine .
PMID:12538837 PMID:21128598
Able to transport non-amine endogenous compounds such as prostaglandin E2 (PGE2) and prostaglandin F2-alpha (PGF2-alpha) .
PMID:11907186
Also involved in the uptake of xenobiotic 4-(4-(dimethylamino)styryl)-N-methylpyridinium (ASP) .
PMID:12395288 PMID:16394027
May contribute to regulate the transport of organic compounds in testis across the blood-testis-barrier (Probable)
Carriers(1)
Proteins that carry this drug through the body
Alpha-1-acid glycoprotein 1
ORM1
antagonist
Cellular location
Secreted
General function & pharmacology
Functions as a transport protein in the blood stream. Binds various ligands in the interior of its beta-barrel domain. Also binds synthetic drugs and influences their distribution and availability in the body.
Appears to function in modulating the activity of the immune system during the acute-phase reaction
Appears to function in modulating the activity of the immune system during the acute-phase reaction
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ATC classification(3 codes)
ATC N06AX62
ATC A08AA62
ATC N06AX12
Affected organisms(1)
Humans and other mammals
International brands(4)
Salt forms(2)
Bupropion hydrobromide(DBSALT001210)
Bupropion hydrochloride(DBSALT000199)
Experimental properties(3)
Commercial products(930)
Chemical identifiers
CAS, UNII, InChI Key and database cross-references
Show
Chemical identifiers
CAS, UNII, InChI Key and database cross-references
Linked compound data from DrugBank Open Data (CC BY-NC 4.0)
Bupropion
Additional database identifiers
Drugs Product Database (DPD)
11772
ChemSpider
431
BindingDB
50048392
HUGO Gene Nomenclature Committee (HGNC)
HGNC:11049
GenAtlas
SLC6A3
GeneCards
SLC6A3
GenBank Gene Database
M96670
GenBank Protein Database
553260
Guide to Pharmacology
927
UniProt Accession
SC6A3_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:11048
GenAtlas
SLC6A2
GeneCards
SLC6A2
GenBank Gene Database
M65105
GenBank Protein Database
189258
Guide to Pharmacology
926
UniProt Accession
SC6A2_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:11050
GenAtlas
SLC6A4
GeneCards
SLC6A4
GenBank Gene Database
X70697
GenBank Protein Database
36433
Guide to Pharmacology
928
UniProt Accession
SC6A4_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:1957
GeneCards
CHRNA3
GenBank Gene Database
M86383
GenBank Protein Database
177898
Guide to Pharmacology
464
UniProt Accession
ACHA3_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:5297
GenAtlas
HTR3A
GeneCards
HTR3A
GenBank Gene Database
D49394
GenBank Protein Database
681914
Guide to Pharmacology
373
UniProt Accession
5HT3A_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:2623
GenAtlas
CYP2C9
GeneCards
CYP2C9
GenBank Gene Database
AY341248
Guide to Pharmacology
1326
UniProt Accession
CP2C9_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:2631
GeneCards
CYP2E1
GenBank Gene Database
J02625
GenBank Protein Database
181360
Guide to Pharmacology
1330
UniProt Accession
CP2E1_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:2615
GeneCards
CYP2B6
GenBank Gene Database
M29874
GenBank Protein Database
181296
Guide to Pharmacology
1324
UniProt Accession
CP2B6_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:2625
GenAtlas
CYP2D6
GeneCards
CYP2D6
GenBank Gene Database
M20403
GenBank Protein Database
181350
Guide to Pharmacology
1329
UniProt Accession
CP2D6_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:8498
GenAtlas
ORM1
GeneCards
ORM1
GenBank Gene Database
X02544
GenBank Protein Database
757907
UniProt Accession
A1AG1_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:10966
GeneCards
SLC22A2
GenBank Gene Database
X98333
GenBank Protein Database
2281942
Guide to Pharmacology
1020
UniProt Accession
S22A2_HUMAN
International reference pricing
32 formulations
Reference pricing from DrugBank. Prices are indicative and may not reflect current UK costs.
From $0.35/tablet
To $16.74/tablet
Ratio-Bupropion Sr 100 mg Sustained-Release Tablet
$0.35/tablet
Sandoz Bupropion Sr 100 mg Sustained-Release Tablet
$0.35/tablet
Pms-Bupropion Sr 150 mg Sustained-Release Tablet
$0.53/tablet
Ratio-Bupropion Sr 150 mg Sustained-Release Tablet
$0.53/tablet
Sandoz Bupropion Sr 150 mg Sustained-Release Tablet
$0.53/tablet
Source: DrugBank. Used under CC BY-NC 4.0 academic licence for non-commercial purposes.
Patent information
152 active patents, 8 expired
11844797
United States
Approved 19 Dec 2023 · Expires 20 Apr 2043
17 years
11839612
United States
Approved 12 Dec 2023 · Expires 2 Mar 2043
16y 11m
11752144
United States
Approved 12 Sept 2023 · Expires 23 Feb 2043
16y 11m
12042473
United States
Approved 23 Jul 2024 · Expires 23 Feb 2043
16y 11m
12146889
United States
Approved 19 Nov 2024 · Expires 23 Feb 2043
16y 11m
The earliest active patent expires June 2026. Generic versions may become available after this date.
Source: DrugBank · CC BY-NC 4.0. Patent data sourced from national patent offices. Expiry dates may not reflect extensions, regulatory exclusivity periods, or legal challenges.
DrugBank citations
If you use DrugBank data in your research, please cite the following publications:
Knox C., Wilson M., Klinger C.M., et al
DrugBank 6.
0: the DrugBank Knowledgebase for 2024
Nucleic Acids Res. 2024 Jan 552(D1):D1265-D1275
Wishart D.S., Feunang Y.D., Guo A.C., et al
DrugBank 5.
0: a major update to the DrugBank database for 2018
Nucleic Acids Res. 2017 Nov 846(D1):D1074-D1082
Show earlier publications
Law V., Knox C., Djoumbou Y., et al
DrugBank 4.
0: shedding new light on drug metabolism
Nucleic Acids Res. 2014 Jan 142(1):D1091-7
Knox C., Law V., Jewison T., et al
DrugBank 3.
0: a comprehensive resource for 'omics' research on drugs
Nucleic Acids Res. 2011 Jan39(Database issue):D1035-41
Wishart D.S., Knox C., Guo A.C., et al
DrugBank: a knowledgebase for drugs, drug actions and drug targets.
Nucleic Acids Research
2008 Jan36(Database issue):D901-6
Wishart D.S., Knox C., Guo A.C., et al
DrugBank: a comprehensive resource for in silico drug discovery and exploration.
Nucleic Acids Research
2006 Jan 134(Database issue):D668-72
Source: go.drugbank.comCC BY-NC 4.0
Updated 27 days ago(8 Mar 2026)