Abiraterone: Complete Drug Monograph

Pharmacokinetic Profile

Half-Life

~12 ± 5 h (abiraterone)

Metabolism

Prodrug → abiraterone (esterases); then CYP3A4 + SULT2A1 to inactive metabolites

Protein Binding

>99% (albumin, α1-acid glycoprotein)

Bioavailability

MUST take on empty stomach; food increases exposure 5–10×

Volume of Distribution

~19,669 L (apparent V_ss)

Clinical Information

Drug Class

CYP17 Inhibitor (Androgen Biosynthesis Inhibitor)

Available Doses

Tablets: 250 mg (uncoated), 500 mg (film-coated)

Route

Oral

Renal Adjustment

Not required (including ESRD on dialysis)

Hepatic Adjustment

Moderate (Child-Pugh B): 250 mg QD; Severe (Child-Pugh C): DO NOT USE

Pregnancy

Can cause fetal harm; not indicated in women; males use contraception + 3 weeks after

Lactation

Not indicated in women

Schedule / Legal Status

Prescription only (not scheduled)

Generic Available

Yes

Abiraterone — Approved Indications

Indication	Approved Population	Therapy Type	Status
Metastatic castration-resistant prostate cancer (mCRPC)	Adult males	Combination with prednisone 5 mg BID + GnRH analog/orchiectomy	FDA Approved
Metastatic high-risk castration-sensitive prostate cancer (mCSPC)	Adult males	Combination with prednisone 5 mg QD + GnRH analog/orchiectomy	FDA Approved

Abiraterone acetate is an oral, first-in-class CYP17 inhibitor that blocks androgen biosynthesis in the testes, adrenal glands, and prostate tumour tissue. It was first approved in 2011 for post-docetaxel mCRPC (COU-AA-301) and subsequently gained approval for chemo-naïve mCRPC (COU-AA-302) and metastatic high-risk CSPC (LATITUDE). The STAMPEDE trial provided additional evidence in newly diagnosed metastatic and locally advanced prostate cancer. Abiraterone must always be co-prescribed with prednisone (or prednisolone) to mitigate mineralocorticoid excess caused by CYP17 inhibition, and patients must maintain concurrent androgen deprivation with a GnRH analog or prior bilateral orchiectomy (FDA PI).

Off-Label Uses

Non-metastatic CRPC (high-risk biochemical recurrence): Explored in SPARTAN-related studies; enzalutamide and related agents are preferred in this setting. Evidence quality: Low.

Dose

Abiraterone Dosing by Clinical Scenario

Clinical Scenario	Starting Dose	Maintenance Dose	Maximum Dose	Notes
mCRPC — post-docetaxel or chemo-naïve	1000 mg PO QD	1000 mg PO QD	1000 mg/day	+ Prednisone 5 mg PO BID Must take on empty stomach; continue until progression
mCSPC — high-risk, newly diagnosed	1000 mg PO QD	1000 mg PO QD	1000 mg/day	+ Prednisone 5 mg PO QD (not BID) Lower prednisone dose than mCRPC; LATITUDE-based
Moderate hepatic impairment (Child-Pugh B)	250 mg PO QD	250 mg PO QD	250 mg/day	Monitor LFTs weekly × 1 month, then q2 weeks × 2 months, then monthly
With strong CYP3A4 inducer (unavoidable)	1000 mg PO BID	1000 mg PO BID	2000 mg/day	Only during co-administration period; return to QD when inducer stopped
Hepatotoxicity dose reduction (1st event)	750 mg PO QD	750 mg PO QD	750 mg/day	Resume after LFTs return to baseline or ALT/AST ≤2.5× ULN + bilirubin ≤1.5× ULN
Hepatotoxicity dose reduction (2nd event)	500 mg PO QD	500 mg PO QD	500 mg/day	Discontinue if hepatotoxicity recurs at 500 mg

Clinical Pearl — Empty Stomach Is Critical

Abiraterone must be taken on an empty stomach. Do not eat food for 2 hours before and 1 hour after taking the dose. Food increases abiraterone C_max up to 17-fold and AUC up to 10-fold (high-fat meal). The safety of these dramatically increased exposures has not been assessed with repeated dosing, and highly variable absorption with food could lead to unpredictable toxicity. Tablets must be swallowed whole — do not crush or chew. All patients must also receive concurrent ADT (GnRH analog or bilateral orchiectomy) and prednisone (FDA PI).

Abiraterone Pharmacology

Mechanism of Action

Abiraterone acetate is a prodrug that is rapidly converted by esterases to abiraterone, a selective, irreversible inhibitor of CYP17A1 (17α-hydroxylase/C17,20-lyase). CYP17A1 is a key enzyme in the androgen biosynthesis pathway, catalysing two sequential reactions: the conversion of pregnenolone and progesterone to their 17α-hydroxy derivatives, and the subsequent formation of DHEA and androstenedione. By inhibiting CYP17A1, abiraterone blocks androgen production at all three sources: the testes, the adrenal glands, and the tumour itself. This is critical because standard androgen deprivation therapy (GnRH analogs or orchiectomy) only suppresses testicular androgen production. Upstream CYP17 blockade also diverts steroidogenesis toward mineralocorticoid precursors, causing hypertension, hypokalemia, and fluid retention — hence the requirement for concurrent prednisone to suppress ACTH-driven mineralocorticoid excess.

ADME Profile

Parameter	Value	Clinical Implication
Absorption	T_max ~2 h; food increases C_max 7–17× and AUC 5–10×; 2-fold accumulation at steady state	Must take fasting (no food 2 h before and 1 h after). Food effect is the most extreme of any oral oncology drug — counsel all patients.
Distribution	V_ss ~19,669 L (apparent); protein binding >99% (albumin, α1-AGP)	Very large apparent volume reflects extensive tissue distribution. Dialysis not effective.
Metabolism	Prodrug → abiraterone (esterases, not CYP); abiraterone → abiraterone sulphate (SULT2A1, inactive, ~43% of exposure) + N-oxide abiraterone sulphate (CYP3A4 + SULT2A1, inactive, ~43%)	CYP3A4 involved in metabolite formation; strong CYP3A4 inducers reduce exposure 55%. Abiraterone itself inhibits CYP2D6 and CYP2C8.
Elimination	t_½ ~12 h; feces 88% (55% unchanged prodrug + 22% abiraterone), urine 5%	No renal dose adjustment needed (including ESRD on dialysis). Hepatic impairment significantly increases exposure (3.6-fold moderate, 7-fold severe).

Abiraterone Side Effects

Safety data are based on pooled analysis from 5 randomised placebo-controlled trials (n=2,230 abiraterone-treated patients). Adverse reaction rates differ between the mCRPC trials (prednisone 5 mg BID) and the LATITUDE mCSPC trial (prednisone 5 mg QD), particularly for mineralocorticoid-related events.

≥10%Very Common

Adverse Effect	Incidence	Clinical Note
Fatigue	39% (COU-AA-302)	Includes asthenia; Grade 3-4 in ~2%
Arthralgia / joint swelling	30%	Includes joint stiffness; Grade 3-4 in 2–4%
Hypertension	8.5–37%	LATITUDE 37% (Grade 3-4 20%!); mCRPC trials 8.5–22%. Mineralocorticoid excess; correct before starting
Edema	25–27%	Peripheral; Grade 3-4 in <2%
Hypokalemia	17–30%	LATITUDE 30% (Grade 3-4 10%); mCRPC 17–28% (Grade 3-4 4–5%). Mineralocorticoid effect; monitor monthly
Hot flush	15–22%	ADT class effect; rarely severe
Diarrhea	18–22%	Usually mild; Grade 3-4 <1%
Muscle discomfort	26%	Includes muscle spasms, myalgia; Grade 3-4 in 3%
Nausea	14–22%	Across trials; rarely Grade 3+
Cough	11–17%	Non-productive
Upper respiratory tract infection	5–13%	Higher in COU-AA-302 (13%); rarely severe
Constipation	23%	COU-AA-302; manage with standard measures
Contusion / bruising	13%	COU-AA-302
Insomnia	14%	COU-AA-302
Dyspnea	12%	COU-AA-302; Grade 3-4 in 2.4%
ALT / AST increase	11–46%	LATITUDE ALT 46%; typically in first 3 months. Grade 3-4 ALT in 1.4–6.4%. Monitor LFTs closely
Urinary tract infection	7–12%	COU-AA-301: 12%
Headache	≥10% (pooled)	LATITUDE 7.5%; appears in pooled highlights as ≥10% with >2% difference from placebo
Vomiting	≥10% (pooled)	Listed in pooled highlights as ≥10% with >2% difference from placebo
Hematuria	10%	COU-AA-302; Grade 3-4 in 1.3%

1–10%Common

Adverse Effect	Incidence	Clinical Note
Arrhythmia	7.2%	Includes AF, tachycardia, bradycardia; mostly Grade 1-2; QT prolongation and Torsades de Pointes reported postmarketing (with hypokalemia)
Fractures (non-pathological)	5.9%	COU-AA-301; Grade 3-4 in 1.4%
Cardiac failure	2.6%	Pooled: Grade 3-4 1.3%; led to 5 discontinuations and 4 deaths (vs 0.2% Grade 3-4 placebo)
Rash	8.1%	COU-AA-302
Dyspepsia	6–11%	COU-AA-301 6.1%, COU-AA-302 11%
Urinary frequency / nocturia	6–7%	COU-AA-301

SeriousSerious (Regardless of Frequency)

Adverse Effect	Estimated Frequency	Typical Onset	Required Action
Hepatotoxicity (ALT/AST ≥5× ULN)	6% of 2230 patients	Typically first 3 months	Hold abiraterone; resume at 750 mg then 500 mg per stepdown. Discontinue if ALT >3× ULN + bilirubin >2× ULN. Fulminant hepatitis and deaths reported postmarketing
Cardiac failure	2.6% (Grade 3-4: 1.3%)	Variable	Exclude patients with LVEF <50% or NYHA III-IV; monitor for signs of heart failure; treatment discontinuation in 0.2%
Severe hypokalemia (Grade 3-4)	4% (mCRPC); 10% (mCSPC)	Early; ongoing	Correct before starting treatment; monitor monthly; QT prolongation and Torsades de Pointes may occur; potassium supplementation as needed
Adrenocortical insufficiency	0.3%	Risk with prednisone interruption/stress	Increase corticosteroid dose before, during, and after stressful situations. Do not abruptly stop prednisone
Severe hypoglycemia	Rare (with TZDs/repaglinide)	Variable	Monitor blood glucose in diabetic patients on thiazolidinediones or repaglinide; adjust antidiabetic doses

DiscontinuationDiscontinuation Rates

Pooled (5 RCTs, n=2,230)

14%

Top reasons: Hepatotoxicity (1.1%), cardiac disorders

Mineralocorticoid Excess — LATITUDE vs mCRPC Trials

The LATITUDE trial (mCSPC) used prednisone 5 mg once daily instead of the 5 mg twice daily used in the mCRPC trials. This lower prednisone dose provides less mineralocorticoid suppression, resulting in significantly higher rates of Grade 3-4 hypokalemia (10% vs 4%) and Grade 3-4 hypertension (20% vs 2%). Clinicians using abiraterone in the CSPC setting should anticipate more intensive blood pressure and potassium monitoring, especially in patients with pre-existing cardiovascular conditions (FDA PI).

Int

Abiraterone Drug Interactions

Abiraterone is metabolised primarily by CYP3A4/SULT2A1 and is itself an inhibitor of CYP2D6 and CYP2C8. Notably, strong CYP3A4 inhibitors do not meaningfully increase abiraterone exposure (ketoconazole had no clinically meaningful effect), but strong CYP3A4 inducers reduce it by 55%. Abiraterone’s CYP2C8 inhibition has a clinically important consequence: severe hypoglycemia when co-prescribed with CYP2C8-dependent antidiabetic agents.

MajorStrong CYP3A4 Inducers (e.g., rifampin, carbamazepine, phenytoin)

MechanismCYP3A4 induction increases abiraterone metabolism

EffectRifampin decreases abiraterone AUC by 55%

ManagementAvoid; if unavoidable, increase abiraterone to 1000 mg BID during co-administration only

FDA PI §2.5, §7.1

MajorNarrow TI CYP2D6 Substrates (e.g., thioridazine, codeine, tamoxifen)

MechanismAbiraterone inhibits CYP2D6 (~2.9-fold AUC increase of CYP2D6 substrates)

EffectIncreased exposure and toxicity of CYP2D6 substrates

ManagementAvoid narrow TI CYP2D6 substrates; if unavoidable, consider dose reduction of the CYP2D6 substrate

FDA PI §7.2

MajorCYP2C8 Substrates: Thiazolidinediones (pioglitazone) & Repaglinide

MechanismAbiraterone inhibits CYP2C8 (pioglitazone AUC increased 46%)

EffectSevere hypoglycemia reported; increased pioglitazone/repaglinide levels

ManagementMonitor blood glucose closely; adjust antidiabetic dose; consider alternative diabetes medications

FDA PI §5.6, §7.2

MajorRadium Ra-223 Dichloride

EffectERA-223 trial: increased fractures (28.6% vs 11.4%) and increased deaths when combined

ManagementDo NOT combine abiraterone with radium Ra-223 outside clinical trials

FDA PI §5.4

MinorStrong CYP3A4 Inhibitors (e.g., ketoconazole)

EffectNo clinically meaningful effect on abiraterone pharmacokinetics (DDI study)

ManagementNo dose adjustment needed

FDA PI §7.1

Mon

Abiraterone Monitoring Parameters

Blood pressureAt least monthly
RoutineHypertension from mineralocorticoid excess: Grade 3-4 in 2% (mCRPC) to 20% (LATITUDE mCSPC). Control BP before starting and at every visit. Closely monitor patients with underlying cardiovascular disease.
Serum potassiumAt least monthly
RoutineHypokalemia from mineralocorticoid excess: Grade 3-4 in 4–10%. Correct before starting treatment. Risk of QT prolongation and Torsades de Pointes if hypokalemia develops.
Hepatic function (ALT, AST, bilirubin)Every 2 weeks × 3 months, then monthly
RoutineGrade 3-4 transaminase elevations in 6%; typically first 3 months. Hold for ALT/AST >5× ULN or bilirubin >3× ULN. Permanently discontinue for concurrent ALT >3× ULN + bilirubin >2× ULN (Hy’s Law). Fulminant hepatitis and deaths reported.
Fluid retentionAt least monthly
RoutineEdema in 25–27%; Grade 3-4 in <2%. Weigh patients regularly; assess for signs of heart failure.
Blood glucoseAs indicated in diabetic patients
Trigger-basedSevere hypoglycemia reported with thiazolidinediones and repaglinide (CYP2C8 inhibition). Monitor closely and adjust antidiabetic medications.
Signs of adrenal insufficiencyOngoing; heightened during stress
Trigger-basedRisk 0.3%; symptoms may be masked by mineralocorticoid excess. Increase corticosteroid dose during surgery, illness, or stress. Do not abruptly stop prednisone.

Abiraterone Contraindications & Cautions

Absolute Contraindications

None listed formally in the FDA PI (Section 4). However, do NOT use in patients with baseline severe hepatic impairment (Child-Pugh C) — abiraterone exposure increases ~7-fold and the fraction of unbound drug doubles (FDA PI §8.6).

Relative Contraindications (Specialist Input Recommended)

Females who are or may become pregnant: CYP17 inhibition can cause fetal harm. Abiraterone caused developmental toxicity in rats at ≥0.03× human exposure. Tablets should not be handled by pregnant women.
Concurrent radium Ra-223: ERA-223 trial showed increased fractures (28.6% vs 11.4%) and deaths. Not recommended outside clinical trials.
LVEF <50% or NYHA Class III-IV heart failure: These patients were excluded from pivotal trials; cardiac failure occurred in 2.6% (Grade 3-4 1.3%).

Use with Caution

Pre-existing cardiovascular disease, hypertension, or hypokalemia: Mineralocorticoid excess can worsen all three. Correct hypokalemia and control BP before starting.
Moderate hepatic impairment (Child-Pugh B): Reduce dose to 250 mg QD with intensified LFT monitoring.
Diabetes treated with thiazolidinediones or repaglinide: Severe hypoglycemia risk from CYP2C8 inhibition.
Patients at risk of fractures: Non-pathological fractures in 5.9%; consider bone-protective agents.

FDA Safety Advisory Increased Fractures and Mortality with Radium Ra-223

In the ERA-223 trial, concurrent use of abiraterone plus prednisone with radium Ra-223 dichloride resulted in increased fractures (28.6% vs 11.4%) and increased mortality (38.5% vs 35.5%) compared to abiraterone plus prednisone with placebo. This combination is not recommended outside of controlled clinical trials (FDA PI §5.4).

Abiraterone Patient Counselling

Purpose of Therapy

Abiraterone blocks a protein called CYP17 that the body needs to make testosterone. Prostate cancer cells use testosterone to grow. By stopping testosterone production from all sources, abiraterone helps slow or stop cancer growth. It is always taken together with a low dose of prednisone (a steroid) and ongoing hormone therapy (an injection or prior surgery).

How to Take

Take abiraterone on an empty stomach — do not eat for 2 hours before and 1 hour after taking the tablets. Swallow tablets whole with water. Take prednisone exactly as prescribed — do not skip or stop prednisone without talking to your doctor, as this can cause serious problems with your adrenal glands.

Empty Stomach Requirement

Tell patientTaking abiraterone with food causes a very large and unpredictable increase in the amount of drug absorbed. Always take on a completely empty stomach. Set an alarm if needed to maintain consistent timing.

Call prescriberIf you accidentally take abiraterone with food, contact your care team — do not take an extra dose.

Prednisone Adherence

Tell patientPrednisone is an essential part of your treatment, not optional. It prevents dangerous side effects from abiraterone. Never stop or reduce prednisone without medical guidance, especially before surgery or during illness.

Call prescriberSevere fatigue, dizziness, confusion, nausea, or low blood pressure — may indicate adrenal insufficiency.

Blood Pressure, Swelling & Potassium

Tell patientAbiraterone can raise blood pressure, cause swelling, and lower potassium levels. Report new or worsening swelling in your legs, rapid weight gain, or headaches.

Call prescriberChest pain, rapid or irregular heartbeat, severe muscle weakness, or shortness of breath.

Liver Safety

Tell patientRegular blood tests are required to monitor your liver, especially in the first 3 months. Report any yellowing of the skin or eyes, dark urine, or severe nausea.

Call prescriberJaundice, severe abdominal pain, persistent nausea or vomiting, dark urine — seek urgent attention.

Contraception

Tell patientAbiraterone can harm an unborn baby. Men with female partners who could become pregnant must use effective contraception during treatment and for 3 weeks after the last dose. The tablets should not be handled by women who are or could become pregnant.

Call prescriberIf your partner becomes pregnant during treatment.

Ref

Sources

Regulatory (PI / SmPC)

Zytiga (abiraterone acetate) Prescribing Information. Janssen Biotech Inc. Revised November 2024. Janssen LabelPrimary source for all dosing, indications, warnings, adverse reactions, pharmacokinetics, and drug interaction data.

Key Clinical Trials

de Bono JS, Logothetis CJ, Molina A, et al. Abiraterone and increased survival in metastatic prostate cancer. N Engl J Med. 2011;364(21):1995-2005. doi:10.1056/NEJMoa1014618Phase III COU-AA-301 trial establishing abiraterone efficacy in post-docetaxel mCRPC; first approval-enabling trial.
Ryan CJ, Smith MR, de Bono JS, et al. Abiraterone in metastatic prostate cancer without previous chemotherapy. N Engl J Med. 2013;368(2):138-148. doi:10.1056/NEJMoa1209096Phase III COU-AA-302 trial extending abiraterone indication to chemo-naïve mCRPC.
Fizazi K, Tran N, Fein L, et al. Abiraterone plus prednisone in metastatic, castration-sensitive prostate cancer. N Engl J Med. 2017;377(4):352-360. doi:10.1056/NEJMoa1704174Phase III LATITUDE trial establishing abiraterone in high-risk mCSPC with OS benefit.
James ND, de Bono JS, Spears MR, et al. Abiraterone for prostate cancer not previously treated with hormone therapy. N Engl J Med. 2017;377(4):338-351. doi:10.1056/NEJMoa1702900STAMPEDE trial: abiraterone in newly diagnosed locally advanced or metastatic prostate cancer; OS benefit in metastatic subgroup.
Fizazi K, Tran N, Fein L, et al. Abiraterone acetate plus prednisone in patients with newly diagnosed high-risk metastatic castration-sensitive prostate cancer (LATITUDE): final overall survival analysis. Lancet Oncol. 2019;20(5):686-700. doi:10.1016/S1470-2045(19)30082-8Final LATITUDE OS analysis confirming durable survival benefit of abiraterone in mCSPC.

Guidelines

NCCN Clinical Practice Guidelines in Oncology: Prostate Cancer. Version 1.2026. NCCN.orgCurrent US consensus guideline positioning abiraterone in mCRPC and mCSPC treatment algorithms.
Parker C, Castro E, Fizazi K, et al. Prostate cancer: ESMO clinical practice guidelines for diagnosis, treatment and follow-up. Ann Oncol. 2020;31(9):1119-1134. doi:10.1016/j.annonc.2020.06.011European guideline incorporating abiraterone across prostate cancer treatment settings.

Mechanistic / Basic Science

Attard G, Reid AH, A’Hern R, et al. Selective inhibition of CYP17 with abiraterone acetate is highly active in the treatment of castration-resistant prostate cancer. J Clin Oncol. 2009;27(23):3742-3748. doi:10.1200/JCO.2008.20.0642Phase I/II study establishing proof-of-concept for CYP17 inhibition in CRPC.

Pharmacokinetics / Special Populations

Chi KN, Spratlin J, Kollmannsberger C, et al. Food effects on abiraterone pharmacokinetics in healthy subjects and patients with metastatic castration-resistant prostate cancer. J Clin Pharmacol. 2015;55(12):1406-1414. doi:10.1002/jcph.564Characterisation of the extreme food effect on abiraterone pharmacokinetics supporting fasting administration.
Goldwater R, Kankam M, Geffner M, et al. A phase 1 study of the effect of hepatic impairment on abiraterone pharmacokinetics. Cancer Chemother Pharmacol. 2019;83(3):581-590. doi:10.1007/s00280-018-03764-yHepatic impairment PK study: 3.6-fold and 7-fold AUC increase in moderate and severe impairment respectively.
Smith MR, Saad F, Rathkopf DE, et al. Clinical outcomes from androgen signaling-directed therapy after treatment with abiraterone acetate and prednisone in patients with metastatic castration-resistant prostate cancer: post hoc analysis of COU-AA-302. Eur Urol. 2017;72(1):10-13. doi:10.1016/j.eururo.2017.03.007Post hoc COU-AA-302 analysis informing treatment sequencing after abiraterone in mCRPC.

Zytiga (Abiraterone Acetate)