Medroxyprogesterone acetate

Systematic (IUPAC) name
17α-hydroxy-6α-methylpregn-4-ene-3,20-dione acetate
Clinical data
Trade names	Depo-Provera (injection), Provera (oral)
AHFS/Drugs.com	FDA Professional Drug Information
MedlinePlus	a604039
Pregnancy cat.	X (US)
Legal status	℞ Prescription only
Routes	Oral, IM
Pharmacokinetic data
Bioavailability	99%[1]
Protein binding	88% (to albumin)[1]
Half-life	40-60 hours
Identifiers
CAS number	71-58-9
ATC code	G03AC06 G03DA02, L02AB02
PubChem	CID 6279
IUPHAR ligand	2879
DrugBank	DB00603
ChemSpider	6043
UNII	C2QI4IOI2G
KEGG	C08150 Y
ChEBI	CHEBI:6716
ChEMBL	CHEMBL717 Y
Chemical data
Formula	C24H34O4
Mol. mass	386.52 g/mol
Y (what is this?)  (verify)

Medroxyprogesterone acetate (INN, USAN, BAN), also known as 17α-hydroxy-6α-methylprogesterone acetate, and commonly abbreviated as MPA, is a steroidal progestin, a synthetic variant of the steroid hormone progesterone.^[2][3] It is used as a contraceptive, in hormone replacement therapy and for the treatment of endometriosis as well as several other indications.

MPA is a more potent derivative of its parent compound medroxyprogesterone (MP). While medroxyprogesterone is sometimes used as a synonym for medroxyprogesterone acetate,^[3] what is almost always being referred to is MPA and not MP.^[4] It is on the World Health Organization's List of Essential Medicines, a list of the most important medication needed in a basic health system.^[5]

Medical uses

In females, the most common use of MPA is as an oral or depot-injected contraceptive and also as the progestin component of menopausal hormone replacement therapy to prevent endometrial hyperplasia and cancer. MPA is also used as a treatment for endometriosis, dysmenorrhea, and amenorrhea.^[6] MPA, along with other progestins were developed to allow the hormones to be taken orally, as progesterone (the hormone made by the human body) could not be taken orally before the process of micronization was developed.^[7]

In males, MPA has been used to control inappropriate sexual behavior to chemically castrate convicted sex offenders.^[8]

MPA is an extremely effective contraceptive when used with relatively high doses to prevent ovulation. It has also been used to treat benign prostatic hyperplasia, as a palliative appetite stimulant for cancer patients, and at high doses (800 mg per day) to treat hormone-dependent cancers of primarily the breast, but also other types.^[9]

Though not used as a treatment for epilepsy, MPA reduces the frequency of seizures and does not interact with anti-epileptic medications. MPA does not interfere with blood clotting and appears to improve blood parameters for women with sickle cell anemia. Similarly, MPA does not appear to affect liver metabolism, and may improve primary biliary cirrhosis and chronic active hepatitis. Women taking MPA may experience spotting shortly after starting the medication but is not usually serious enough to require medical intervention. With longer use amenorrhoea can occur as can irregular menstruation which is a major source of dissatisfaction, though both can result in improvements with iron deficiency and risk of pelvic inflammatory disease and often do not result in discontinuing the medication.^[9] MPA is also prescribed in combination with an estrogen to prevent endometrial hyperplasia in post-menopausal women who are undergoing hormone replacement therapy.^[10]

MPA has also been prescribed in hormone replacement therapy for male-to-female transgender individuals due to its antiandrogen and progestogen effects.

Pharmacodynamics

Activity profile

MPA acts as an agonist of the progesterone, androgen, and glucocorticoid receptors (PR, AR, and GR, respectively),^[1] activating these receptors with EC₅₀ values of approximately 0.01 nM, 1 nM, and 10 nM, respectively.^[11] It has very low and likely completely insignificant affinity for the estrogen and mineralocorticoid receptors (ER and MR, respectively).^[1] Although the EC₅₀ values of MPA at the PR and the AR and GR are separated by several orders of magnitude, because it is so potent, and because it is used at relatively high doses in humans, it is likely that the overall activation of each of the three receptors is fairly similar.^{[citation needed]} The intrinsic activities of MPA in activating the PR and the AR have been reported to be at least equivalent to those of progesterone and dihydrotestosterone (DHT), respectively, indicating that it is a full agonist of these receptors.^[12][13]

In addition to its direct effects on steroid receptors, MPA, at sufficient doses, inhibits the hypothalamic-pituitary-adrenal (HPA) and hypothalamic-pituitary-gonadal (HPG) axes, resulting in a marked suppression of gonadotropin, androgen, estrogen, adrenocorticotropic hormone (ACTH), and cortisol levels as well as concentrations of sex hormone-binding globulin (SHBG).^[14] There is evidence that the downregulatory effects of MPA on the HPG axis are mediated by activation of both PRs and ARs in the pituitary gland.^[15][16] Due to its effects on androgen levels, MPA has strong functional antiandrogen properties, and it is used in androgen-sensitive conditions such as precocious puberty in prepubescent boys and hypersexuality in men.^[17] In addition, since it affects estrogen levels similarly, unlike many other antiandrogens such as spironolactone and cyproterone acetate which have a high propensity for causing gynecomastia via indirect stimulation of estrogen, MPA is not thought to possess any estrogenic effects. Indeed, due to its inhibitory effects on estrogen levels, it has potent antiestrogenic effects, and has been used to treat precocious puberty in prepubescent girls. Accordingly, MPA should not be used in high doses without an estrogen in women due to the risk of osteoporosis and other symptoms associated with hypoestrogenism.^[18]

As mentioned above, MPA is a potent full agonist of the AR. Its activation of the AR has been shown to play an important and major role in its antigonadotropic effects and in its beneficial effects against breast cancer.^[15][19][20] However, although MPA does have the capacity to cause androgenic side effects such as acne and hirsutism in some patients (especially women),^[21][22] it seldom actually does so, and when it does, the effects tend to be only mild, regardless of the dosage used.^[15] In fact, likely due to its suppressive actions on androgen levels, it has been reported that MPA is generally highly effective in improving pre-existing symptoms of hirsutism in women with the condition.^[23][24] Moreover, MPA rarely causes any androgenic effects in children with precocious puberty, even at very high doses.^[25] The reason for the general lack of virilizing effects with MPA, despite it binding to and activating the AR with a high affinity and this action playing an important role in many of its physiological and therapeutic effects, is not entirely clear. However, MPA has been found to interact with the AR in a fundamentally different way than other agonists of the receptor such as dihydrotestosterone (DHT).^[12] The result of this difference appears to be that MPA binds to the AR with a similar affinity and intrinsic activity to that of DHT, but requires about 100-fold higher concentrations for a comparable induction of gene transcription, while at the same time not antagonizing the transcriptional activity of normal androgens like DHT at any concentration.^[12] Thus, this may explain the low propensity of MPA for producing androgenic side effects.

As an agonist of the GR, MPA has glucocorticoid properties, and as a result can cause symptoms of Cushing's syndrome,^[26] steroid diabetes, and adrenal insufficiency at sufficiently high doses.^[27]

MPA is a known inhibitor of 3α-hydroxysteroid dehydrogenase.^[28][29] This enzyme is necessary for the synthesis of the endogenous neurosteroids allopregnanolone, THDOC, and 3α-androstanediol. These neurosteroids have antidepressant and anxiolytic effects, and the blockade of their production could be the cause of the symptoms of depression, anxiety, and irritability that are sometimes seen during treatment with MPA.^[29][30] Indeed, other drugs that are known to block the synthesis of these neurosteroids, such as 5α-reductase inhibitors like finasteride, have also been associated with symptoms of depression and anxiety.^[31]

Although MPA and the related drug megestrol acetate (which is a close analogue) have been extensively used as appetite stimulants, the mechanism of action of their beneficial effects on appetite is not entirely clear. However, glucocorticoid, cytokine, and possibly anabolic-related mechanisms are all thought to possibly be involved, and a number of downstream changes have been implicated, including stimulation of the release of neuropeptide Y in the hypothalamus, modulation of calcium channels in the ventromedial hypothalamus, and inhibition of the secretion of proinflammatory cytokines including IL-1α, IL-1β, IL-6, and TNF-α, actions that have all been linked to an increased appetite.^[32]

Comparison to medroxyprogesterone

Medroxyprogesterone (MP), the parent drug of MPA, is a metabolite of MPA.^[33] While both MP and its acylated derivative MPA bind to the PR and both act as agonists, MPA has approximately 100 fold higher binding affinity and transactivation potency compared to MP.^[34] As such, MP is not used clinically, though it has seen some use in veterinary medicine.^[35]

Ligand	PR Ki (nM)	Coactivator recruitment EC50 (nM)	Reporter cell line EC50 (nM)
Progesterone	4.3 ± 1.0	0.9 ± 0.2	25 ± 11
Medroxyprogesterone acetate	1.2 ± 0.3	0.6 ± 0.08	0.15 ± 0.03
Medroxyprogesterone	241 ± 96	47 ± 14	32 ± 1

Pharmacokinetics

MPA is well-absorbed orally and through intramuscular injection, peaking at 2–4 hours for the former. The half life is 12 to 17 hours for an oral dose, and 40 to 50 days for an intramuscular injection. MPA binds to albumin in the blood, and is metabolized primarily through the liver via hydroxylation and conjugation.^[3] Intramuscular MPA is released slowly; a 150 mg dose is first detectable in the blood 30 minutes after injection, plateauing at 1.0 ng/mL for three months, followed by a gradual, tapering decline that lasts up to nine months in some women. The high levels of MPA in the blood inhibits luteinizing hormone and ovulation for several months, with an accompanying decrease in serum progesterone to below 0.4 ng/mL. Ovulation resumes when once blood levels of MPA fall below 0.1 ng/ml. Serum estradiol remains at approximately 50 pg/nl for approximately four months post-injection (with a range of 10-92 pg/nL after several years of use), rising once MPA levels fall below 0.5 ng/ml.^[36]

Hot flashes are rare while MPA is found at significant blood levels in the body, and the vaginal lining remains moist and creased. The endometrium undergoes atrophy, with small, straight glands and a stroma that is decidualized. Cervical mucus remains viscous. Because of its steady blood levels over the long term and multiple effects that prevent fertilisation, MPA is a very effective means of birth control.^[36]

Adverse effects

In females, the most common adverse effects are acne, changes in menstrual flow, drowsiness, and can cause birth defects if taken by pregnant women. Other common side effects include breast tenderness, increased facial hair, decreased scalp hair, difficulty falling or remaining asleep, stomach pain, and weight loss or gain.^[6]

The Women's Health Initiative investigated the use of MPA and conjugated equine estrogens compared to placebo. The study was prematurely terminated when previously unexpected risks were discovered, specifically the finding that though the all-cause mortality was not affected by the hormone therapy, the benefits of the hormone replacement therapy (reduced risk of hip fracture, colorectal and endometrial cancer and all other causes of death) were offset by increased risk of coronary heart disease, breast cancer, strokes and pulmonary embolism.^[37]

At high doses for the treatment of breast cancer, MPA can cause weight gain, worsen diabetes mellitus and edema (particularly of the face). Adverse effects peak at five weeks, and are reduced with lower doses. Less frequent effects may include thrombosis (though it is not clear if this is truly a risk, it can not be ruled out), painful urination, anxiety, headache, nausea and vomiting. When used to treat benign prostatic hyperplasia, more frequent complaints include reduced libido, impotence, reduced ejaculate volume, and within three days, chemical castration. MPA may cause reduced bone density though this appears to be reversible to a normal level even after years of use. At extremely high doses (used to treat cancer, not for contraception) MPA may cause adrenal suppression and interfere with carbohydrate metabolism but does not cause diabetes.^[9]

Fetuses exposed to progesterones have demonstrated higher rates of genital abnormalities, low birth weight, and increased ectopic pregnancy particularly when MPA is used as an injected form of long-term birth control. When used as a form of injected birth control, MPA can reduce fertility for as long as 10 months, taking longer for overweight or obese women. When combined with conjugated equine estrogens (Premarin), MPA has been associated with an increased risk of breast cancer, dementia and thrombus in the eye. In combination with estrogens in general, MPA may increase the risk of cardiovascular disease, with a stronger association when used by post-menopausal women also taking CEE. MPA is not recommended for use prior to menarche or before or during recovery from surgery.^[3] It was because of these unexpected interactions that the Women's Health Initiative study was ended early due the extra risks of hormone replacement therapy,^[38] producing a dramatic decrease in both new and renewal prescriptions for hormone therapy.^[39]

MPA is known to produce symptoms of depression, anxiety, and irritability in some patients.^[29]

Interactions

MPA increases the risk of breast cancer, dementia and thrombus when used in combination with conjugated equine estrogens to treat the symptoms of menopause.^[3] When used as a contraceptive, MPA does not generally interact with other drugs. When combined with aminoglutethimide to treat metastases from breast cancer, MPA is associated with an increase in depression.^[9] St John's wort may decrease its effectiveness as a contraceptive.^[3]

Comparison with progesterone

Proponents of bioidentical hormone replacement therapy believe progesterone offers fewer side effects and improved quality of life compared to MPA.^[40] The evidence for this view has been questioned; MPA is better absorbed when taken orally, with a much longer half life leading to more stable blood levels^[41] though it may lead to greater breast tenderness and more sporadic vaginal bleeding.^[40] The two compounds do not differentiate in their ability to suppress endometrial hyperplasia,^[40] nor does either increase the risk of pulmonary embolism.^[42] The two compounds have not been adequately compared in direct tests to clear conclusions about safety and superiority.^[7]

Chemical synthesis

MPA can be prepared in 12 reaction steps using the following sequence:^[43]

History

MPA was independently discovered in 1956^[44] by Syntex^[45] and the Upjohn Company.^[46]

See also

• 17-Hydroxyprogesterone
• Chlormadinone acetate
• Cyproterone acetate
• Depo-Provera
• Medroxyprogesterone
• Megestrol acetate
• Progestin

References

v t e Orexigenics (A15) Exogenous Amitriptyline Clonidine Cyproheptadine Dexamethasone Dronabinol/Tetrahydrocannabinol (Cannabis) Medroxyprogesterone acetate Megestrol acetate Mirtazapine Nabilone Nandrolone Olanzapine Omega-3 fatty acid Oxandrolone Pentoxifylline Prednisone Sugars Testosterone Thalidomide Endogenous ACTH/Corticotropin Adiponectin Agouti-related peptide Anandamide Cortisol/Hydrocortisone Cortisone Ghrelin Melanin-concentrating hormone Melatonin Neuropeptide Y Orexin/Hypocretin

v t e Estrogens and progestogens (G03C-D, L02) Progestogens Agonist 1st Norpregnene Norethisterone#/Norethisterone acetate Etynodiol diacetate Pregnene Ethisterone Norpregnane Norgestrienone 2nd Norpregnene Levonorgestrel#/Norgestrel/Norelgestromin 3rd 19-Nortestosterone Desogestrel/Etonogestrel Gestodene Norgestimate 4th Androstene Drospirenone 19-Norprogesterone Nomegestrol acetate Promegestone Trimegestone 19-Nortestosterone Dienogest 17-OH Chlormadinone acetate Cyproterone acetate Medroxyprogesterone acetate# Megestrol acetate Other/ ungrouped Pregnadiene Medrogestone Pregnenedione Gestonorone Dydrogesterone Lynestrenol Norethynodrel Progesterone Quingestanol Tibolone Trengestone Antiprogestogens/ SPRMs Antagonists Aglepristone Mifepristone Asoprisnil Gestrinone Telapristone Ulipristal acetate Estrogens Agonists Steroidal Diosgenin Estetrol Estradiol Estradiol acetate Estradiol benzoate Estradiol cypionate# Estradiol dipropionate Estradiol enanthate Estradiol hemihydrate Estradiol undecylate Estradiol valerate Polyestradiol phosphate Estriol Estriol succinate Estrone Estrone sulfate Estriol Ethinylestradiol# Mestranol Promestriene Equilenin Equilin Nonsteroidal Chlorotrianisene Dienestrol Fosfestrol Diethylstilbestrol Zeranol Antiestrogens/ SERMs Afimoxifene Arzoxifene Bazedoxifene Clomifene# Cyclofenil Epimestrol Lasofoxifene Mepitiostane Nafoxidine Ormeloxifene Raloxifene Tamoxifen Toremifene Pure antagonists: Fulvestrant Aromatase inhibitors Nonselective Aminoglutethimide Testolactone Selective Anastrozole Atamestane Exemestane Fadrozole Formestane Letrozole Minamestane Plomestane Vorozole #WHO-EM ‡Withdrawn from market Clinical trials: †Phase III §Never to phase III M: ♀ FRS anat/phys/devp noco/cong/npls, sysi/epon proc/asst, drug (G1/G2B/G3CD)

v t e Androgenics Receptor AR (A, B) Agonists: 1-Androstenediol 1-Testosterone 1,4-Androstenedione 4-Androstenediol 4-Chlordehydromethyltestosterone 4-Hydroxytestosterone 5-Androstenediol 5α-Androst-1-ene-3,17-dione 11-Ketotestosterone 17-((1-Oxoheptyl)oxy)androstan-3-one 17-((1-Oxopentyl)oxy)androstan-3-one 17-(1-Oxopropoxy)androstan-3-one 17β-Hydroxyandrost-2-ene-2-carbonitrile 19-Norandrostenediol 19-Norandrostenedione 19-Norandrosterone 19-Nordehydrotestosterone Adrenosterone Androisoxazole Androstanolone Bolandiol Bolasterone Bolazine Boldenone Boldione Bolenol Bolmantalate Calusterone Clostebol Cloxotestosterone Danazol Desogestrel Desoxymethyltestosterone DHT Drostanolone Enestebol Epitiostanol Ethisterone Ethyldienolone Ethylestrenol Fluoxymesterone Formebolone Furazabol Hexabolan Hydroxystenozole Levonorgestrel Mebolazine Medroxyprogesterone acetate Mepitiostane Mesabolone Mestanolone Mesterolone Metandienone/Methandrostenolone Metenolone Metenolone acetate Metenolone enanthate Methandriol Methandriol propionate Methasterone Methylestrenolone Methyltestosterone Metribolone Mibolerone Nandrolone Nandrolone caproate Nandrolone cypionate Nandrolone cyclohexane carboxylate Nandrolone cyclohexylpropionate Nandrolone cyclotate Nandrolone decanoate Nandrolone furylpropionate Nandrolone hexyloxyphenylpropionate Nandrolone hydrogen succinate Nandrolone laurate Nandrolone phenylpropionate Nandrolone propionate Nandrolone undecyclate Norboletone Norclostebol Norethandrolone Norethisterone Norgestrel Oxabolone Oxabolone cypionate Oxandrolone Oxendolone Oxymesterone Oxymetholone Penmesterol Propetandrol Quinbolone Quingestanol acetate Roxibolone Silandrone Stanozolol Stenbolone Stenbolone acetate Testolactone Testosterone Testosterone enanthate Testosterone ketolaurate Testosterone nicotinate Testosterone propionate Testosterone undecanoate THG Thiomesterone Tibolone Tiomesterone Trenbolone Trenbolone acetate Trestolone Note: Anabolic steroids, including those that are only weakly virilizing (or even anti-virilizing (e.g., oxandrolone)), are included here (since their anabolic effects are nonetheless mediated via activation of the androgen receptor). Mixed (SARMs): AC-262,356 Andarine BMS-564,929 Enobosarm LGD-2226 LGD-3303 S-23 S-40503 Antagonists: ARN-509 Benorterone Bicalutamide BMS-641,988 BOMT Canrenoic acid Canrenone Chlormadinone acetate Cimetidine Cioteronel Cyproterone Cyproterone acetate Delanterone Dienogest Enzalutamide Epitestosterone Flutamide Galeterone Hydroxyflutamide Hydroxyprogesterone caproate Inocoterone Ketoconazole Megestrol acetate Metogest Mifepristone Nilutamide Nomegestrol Nordinone Norgestimate Osaterone Oxendolone Potassium canrenoate Progesterone R2956 Rosterolone RU-58642 RU-58841 Spironolactone Topterone Zanoterone Enzyme (inhibitors) 20,22-Desmolase 22-ABC 3,3′-Dimethoxybenzidine 3-Methoxybenzidine Aminoglutethimide Cyanoketone Danazol Etomidate Mitotane Trilostane 17α-Hydroxylase, 17,20-Lyase 22-ABC 22-Oxime Abiraterone Bifonazole Clotrimazole Cyanoketone Cyproterone acetate Danazol Econazole Galeterone Gestrinone Isoconazole Ketoconazole L-39 Levonorgestrel Liarozole LY-207,320 MDL-27,302 Miconazole Mifepristone Orteronel Pioglitazone Rosiglitazone Spironolactone Stanozolol SU-10,603 TGF-β Tioconazole Troglitazone VN/87-1 YM116 3β-HSD (I, II) 4-MA Azastene Cyanoketone Danazol Epostane Genistein Gestrinone Levonorgestrel Metyrapone Oxymetholone Pioglitazone Rosiglitazone Trilostane Troglitazone 17β-HSD (I-XIV) Danazol Simvastatin 5α-Reductase (I, II) 22-Oxime Alfatradiol Azelaic acid β-Sitosterol Bexlosteride Dutasteride Epitestosterone Epristeride Finasteride gamma-Linolenic acid Ganoderic acid Izonsteride L-39 Lapisteride Polyunsaturated fatty acids (α-linolenic acid, linoleic acid, γ-linolenic acid, oleic acid) saw palmetto Turosteride Vitamin B6 Zinc Aromatase 1,4,6-Androstatriene-3,17-dione 4-Androstene-3,6,17-trione 4-Cyclohexylaniline 4-Hydroxytestosterone 5α-DHNET Abyssinone II Aminoglutethimide Anastrozole Ascorbic acid (Vitamin C) Atamestane Bifonazole CGP-45,688 CGS-47,645 Clotrimazole DHT Difeconazole Econazole Exemestane Fadrozole Fenarimol Finrozole Formestane Imazalil Isoconazole Ketoconazole Letrozole Liarozole MEN-11066 Miconazole Minamestane Nimorazole NKS01 ORG-33,201 Penconazole Plomestane Prochloraz Propioconazole Pyridoglutethimide Rogletimide Rotenone Talarozole Testolactone Tioconazole Triadimefon Triadimenol Troglitazone Vorozole YM511 Zinc Note: 21-Hydroxylase inhibitors may also affect androgen levels as they prevent metabolism of androgen steroid precursors. Other Endogenous Androgens: Dihydrotestosterone Testosterone Antiandrogens: Epitestosterone Precursors: Cholesterol 22R-Hydroxycholesterol 20α,22R-Dihydroxycholesterol Pregnenolone 17-Hydroxypregnenolone Progesterone 17-Hydroxyprogesterone Cortodoxone/Deoxycortisol DHEA DHEA sulfate Androstenediol Androstenedione Indirect Estrogens/Antiestrogens (see here) GnRH agonists/antagonists (see here) Gonadotropins/Antigonadotropins (see here) Plasma proteins (SHBG, ABP, Albumin) Progestogens/Antiprogestins (see here) Prolactin Procedures Adrenalectomy Hypophysectomy Oophorectomy Orchiectomy

v t e Estrogenics Receptor ER (α, β) Agonists: 5α-Androstane-3β,17β-diol 16α-Hydroxyestrone Alestramustine Almestrone Benzestrol Bifluranol Broparestrol Carbestrol Chlorotrianisene Cloxestradiol Daidzein DHEA Dienestrol Diethylstilbestrol Diethylstilbestrol diphosphate Diosgenin Doisynoestrol DPN Epiestriol Epimestrol Eptamestrol/Etamestrol ERB-041 Equilenin Equilin Estetrol Estradiol Estradiol benzoate Estradiol butyrylacetate Estradiol cypionate Estradiol dienanthate Estradiol dipropionate Estradiol diundecylate Estradiol diundecylenate Estradiol enanthate Estradiol furoate Estradiol hemihydrate Estradiol hemisuccinate Estradiol hexahydrobenzoate Estradiol monopropionate Estradiol palmitate Estradiol pivalate Estradiol propoxyphenylpropionate Estradiol stearate Estradiol succinate Estradiol undecylate Estradiol valerate Estramustine Estramustine phosphate Estrapronicate Estrazinol Estriol Estriol succinate Estriol tripropionate Estrofurate Estromustine Estrone Estrone acetate Estrone cyanate Estrone sulfate Estrone tetraacetylglucoside Estropipate Etamestrol Ethinylestradiol Ethinylestradiol 3-isopropylsulfonate Etynodiol diacetate FERb 033 Fenestrel Fosfestrol Furostilbestrol Hexestrol Hexestrol diacetate Hexestrol dicaprylate Hexestrol diphosphate Hexestrol dipropionate Hydroxyestrone diacetate Liquiritigenin Mestranol Methallenestril Methestrol Methestrol dipropionate Moxestrol Nilestriol Orestrate Polyestradiol phosphate PPT Promestriene Promethoestrol Quinestradol Quinestrol β-Sitosterol WAY-200,070 Note: Though not listed here, many anabolic steroids can also be estrogenic as they can be aromatized into estrogen-like metabolites that possess estrogenic activity. Mixed (SERMs): 2-Hydroxyestrone Acolbifene Afimoxifene Arzoxifene Bazedoxifene Clomifene Clomifenoxide Cyclofenil Droloxifene Enclomifene Endoxifen Epimestrol Femarelle Fispemifene GW5638 Idoxifene Lasofoxifene Levormeloxifene Menerba Mepitiostane Miproxifene Nafoxidine Nitromifene Ormeloxifene Ospemifene Panomifene Pipendoxifene Prinaberel Raloxifene SS1010 Sivifene Tamoxifen TAS-108 Tesmilifene Tibolone Toremifene Trioxifene Y-134 Zindoxifene Zuclomifene Antagonists: Fulvestrant ICI-164,384 MPP PHTPP RU-58,668 SS1020 ZK-164,015 ZK-191,703 Note: Xenoestrogens (e.g., phytoestrogens and mycoestrogens) are not included here. For a full list of xenoestrogens, see here. GPER Agonists: Estradiol Fulvestrant G-1 Genistein Quercetin Tamoxifen Antagonists: G-15 Enzyme (inhibitors) 20,22-Desmolase 22-ABC 3,3′-Dimethoxybenzidine 3-Methoxybenzidine Aminoglutethimide Cyanoketone Danazol Etomidate Mitotane Trilostane 17α-Hydroxylase, 17,20-Lyase 22-ABC 22-Oxime Abiraterone Bifonazole Clotrimazole Cyanoketone Cyproterone Danazol Econazole Galeterone Gestrinone Isoconazole Ketoconazole L-39 Liarozole LY-207,320 MDL-27,302 Miconazole Mifepristone Orteronel Pioglitazone Rosiglitazone Spironolactone Stanozolol SU-10,603 TGF-β Tioconazole Troglitazone VN/87-1 YM116 3β-HSD 4-MA Azastene Cyanoketone Danazol Epostane Genistein Gestrinone Metyrapone Oxymetholone Pioglitazone Rosiglitazone Trilostane Troglitazone 17β-HSD Danazol Simvastatin Aromatase 1,4,6-Androstatriene-3,17-dione 4-Androstene-3,6,17-trione 4-Cyclohexylaniline 4-Hydroxytestosterone 5α-DHNET Abyssinone II Aminoglutethimide Anastrozole Ascorbic acid (Vitamin C) Atamestane Bifonazole CGP-45,688 CGS-47,645 Clotrimazole DHT Difeconazole Econazole Exemestane Fadrozole Fenarimol Finrozole Formestane Imazalil Isoconazole Ketoconazole Letrozole Liarozole MEN-11066 Miconazole Minamestane Nimorazole NKS01 ORG-33,201 Penconazole Plomestane Prochloraz Propioconazole Pyridoglutethimide Rogletimide Rotenone Talarozole Testolactone Tioconazole Triadimefon Triadimenol Troglitazone Vorozole YM511 Zinc Note: 5α-reductase and 21-hydroxylase inhibitors may also affect estrogen levels as they prevent metabolism of estrogen steroid precursors. Other Endogenous Estrogens: 5α-Androstane-3β,17β-diol DHEA Estetrol Estradiol Estriol Estrone Antiestrogens: 2-Hydroxyestrone 16-Hydroxyestrone Precursors: Cholesterol 22R-Hydroxycholesterol 20α,22R-Dihydroxycholesterol Pregnenolone 17-Hydroxypregnenolone Progesterone 17-Hydroxyprogesterone Cortodoxone/Deoxycortisol DHEA DHEA sulfate 16-Hydroxy-DHEA 16-Hydroxy-DHEA sulfate Androstenediol Androstenedione 16-Hydroxyandrostenedione Testosterone Indirect Androgens/Antiandrogens (see here) Calcitriol (a form of Vitamin D) GnRH agonists/antagonists (see here) Gonadotropins//Antigonadotropins (see here) Plasma proteins (SHBG, ABP, Albumin) Progestogens/Antiprogestins (see here) Prolactin Procedures Adrenalectomy Hypophysectomy Oophorectomy Orchiectomy

v t e Glucocorticoids Receptor GR Agonists: Acrocinonide Alclometasone Amcinafal Amcinafide Amcinonide Amebucort Amelometasone Amicinonide Anecortave Beclometasone Beclometasone dipropionate Betamethasone Betamethasone acibutate Betamethasone dipropionate Budesonide Butixocort Chloroprednisone Ciclesonide Cicortonide Ciprocinonide Clobetasol Clobetasol propionate Clobetasone Clocortolone Cloprednol Cloticasone Cormetasone Corticosterone Cortisone Cortisuzol Cortivazol Cortodoxone Deflazacort Deoxycorticosterone Deprodone Descinolone Desonide Desoximetasone Desoxycortone Dexbudesonide Dexamethasone Dexamethasone acefurate Dexamethasone cipecilate Dexamethasone isonicotinate Dichlorisone Diflorasone Difluocortolone Difluocortolone valerate Difluprednate Domoprednate Doxibetasol Drocinonide Etiprednol dicloacetate Fluazacort Fluclorolone Fluclorolone/Flucloronide Fludrocortisone Fludroxycortide Flumoxonide Flumetasone Flunisolide Fluocinolone Fluocinolone acetonide Fluocinonide Fluocortin Fluocortolone Fluorometholone Fluperolone Fluperolone acetate Fluprednidene Fluprednidene acetate Fluprednisolone Fluticasone Fluticasone furoate Fluticasone propionate Formocortal Halcinonide Halocortolone Halometasone Halopredone Hydrocortamate Hydrocortisone/Cortisol Hydrocortisone aceponate Hydrocortisone buteprate Hydrocortisone-17-butyrate Hydrocortisone-21-butyrate Icometasone enbutate Isoflupredone Isoprednidene Itrocinonide Locicortolone dicibate Loteprednol Mazipredone Meclorisone Medrysone Meprednisone Methylprednisolone Methylprednisolone aceponate Methylprednisolone suleptanate Mometasone Mometasone furoate Naflocort Nicocortonide Nivacortol Oxisopred Paramethasone Prednazate Prednazoline Prednicarbate Prednimustine Prednisolamate Prednisolone Prednisolone steaglate Prednisone Prednylidene Procinonide Resocortol Rimexolone Rofleponide Timobesone Tipredane Tixocortol Tixocortol pivalate Tralonide Triamcinolone Triamcinolone acetonide Triamcinolone benetonide Triamcinolone furetonide Triamcinolone hexacetonide Triclonide Ulobetasol/Halobetasol Mixed (SEGRAs): Mapracorat Antagonists: Algepristone Asoprisnil Cyproterone 17-Hydroxyprogesterone Ketoconazole Lilopristone Mifepristone Onapristone Org 34850 PCN Pregnenolone Progesterone Telapristone Toripristone Ulipristal acetate Enzyme (inhibitors) 20,22-Desmolase 22-ABC 3,3′-Dimethoxybenzidine 3-Methoxybenzidine Aminoglutethimide Cyanoketone Danazol Etomidate Mitotane Trilostane 17α-Hydroxylase, 17,20-Lyase 22-ABC 22-Oxime Abiraterone Bifonazole Clotrimazole Cyanoketone Cyproterone Danazol Econazole Galeterone Gestrinone Isoconazole Ketoconazole L-39 Liarozole LY-207,320 MDL-27,302 Miconazole Mifepristone Orteronel Pioglitazone Rosiglitazone Spironolactone Stanozolol SU-10,603 TGF-β Tioconazole Troglitazone VN/87-1 YM116 3β-HSD 4-MA Azastene Cyanoketone Danazol Epostane Genistein Gestrinone Metyrapone Norethisterone Oxymetholone Pioglitazone Rosiglitazone Trilostane Troglitazone 21-Hydroxylase Aminoglutethimide Amphenone B Bifonazole Clotrimazole Diazepam Econazole Genistein Isoconazole Ketoconazole Metyrapone Miconazole Midazolam Tioconazole 11β-Hydroxylase Aminoglutethimide Canrenone Etomidate Fadrozole FETO Ketoconazole Metomidate Metyrapone Mitotane Potassium canrenoate Spironolactone Trilostane 18-Hydroxylase Aminoglutethimide Canrenone FAD286 Fadrozole Ketoconazole LCI699 Metyrapone Mespirenone Potassium canrenoate Spironolactone Other Endogenous Glucocorticoids: Corticosterone Cortisone Cortodoxone/Deoxycortisol Hydrocortisone/Cortisol Antiglucocorticoids: 17-Hydroxyprogesterone Deoxycorticosterone Pregnenolone Progesterone Precursors: Cholesterol 22R-Hydroxycholesterol 20α,22R-Dihydroxycholesterol Pregnenolone 17-Hydroxypregnenolone 17-Hydroxyprogesterone Progesterone Deoxycorticosterone Indirect ACTH/Corticotropin CRH DHEA DHEA sulfate Plasma proteins (Transcortin, Albumin) Vasopressin Procedures Adrenalectomy Hypophysectomy

v t e Progestogenics Receptor PR (A, B) Agonists: 11-Dehydroprogesterone 11-Deoxycorticosterone 17-Hydroxyprogesterone 19-Norprogesterone Algestone Algestone acetonide Algestone acetophenide Allylestrenol Altrenogest Amadinone Amadinone acetate Anagestone Anagestone acetate Chlormadinone Chlormadinone acetate Cingestol Cismadinone Cismadinone acetate Clogestone Clogestone acetate Clomegestone Cyproterone acetate Delmadinone Delmadinone acetate Demegestone Desogestrel Dienogest Dimethisterone Drospirenone Dydrogesterone Edogesterone Ethisterone Ethynerone Etonogestrel Etynodiol Etynodiol diacetate Flugestone Flugestone acetate Gestaclone Gestadienol Gestodene Gestonorone Gestonorone caproate Gestovister Gestronol Haloprogesterone Hydromadinone Hydroxyprogesterone acetate Hydroxyprogesterone caproate Hydroxyprogesterone heptanoate Hydroxyprogesterone hexanoate Levonorgestrel Lutenyl Lynestrenol Medrogestone Medroxyprogesterone Medroxyprogesterone acetate Megestrol Megestrol acetate Melengestrol Melengestrol acetate Methylestrenolone Methynodiol Methynodiol diacetate Metogest Nandrolone Nestorone Nomegestrol Nomegestrol acetate Norelgestromin Norethisterone/Norethindrone Norethisterone acetate Norethisterone acetate oxime Norethisterone enanthate Norethynodrel Norgesterone Norgestimate Norgestomet Norgestrel Norgestrienone Norvinisterone Org-2058 Oxogestone Oxogestone phenpropionate Pentagestrone Progesterone Proligestone Promegestone Quingestanol Quingestanol acetate Quingestrone Segesterone Spironenone Spironolactone Tanaproget Tibolone Tigestol Tosagestin Trengestone Trimegestone ZM-182,345 Mixed (SPRMs): Asoprisnil Asoprisnil ecamate Gestrinone J1042 LG-120,838 Telapristone; Antagonistic: Mifepristone Org-31710 Org-33628 Ulipristal acetate ZK-137,316 ZK-230,211 Antagonists: Aglepristone Lilopristone Lonaprisan Onapristone Toripristone ZM-150,271 ZM-172,406 Enzyme (inhibitors) 20,22-Desmolase 22-ABC 3,3′-Dimethoxybenzidine 3-Methoxybenzidine Aminoglutethimide Cyanoketone Danazol Etomidate Mitotane Trilostane 17α-Hydroxylase, 17,20-Lyase 22-ABC 22-Oxime Abiraterone Bifonazole Clotrimazole Cyanoketone Cyproterone acetate Danazol Econazole Galeterone Isoconazole Ketoconazole L-39 Levonorgestrel Liarozole LY-207,320 MDL-27,302 Miconazole Mifepristone Orteronel Pioglitazone Rosiglitazone Spironolactone Stanozolol SU-10,603 TGF-β Tioconazole Troglitazone VN/87-1 YM116 3β-HSD 4-MA Azastene Cyanoketone Danazol Epostane Genistein Gestrinone Metyrapone Norethisterone Oxymetholone Pioglitazone Rosiglitazone Trilostane Troglitazone 21-Hydroxylase Aminoglutethimide Amphenone B Bifonazole Clotrimazole Diazepam Econazole Genistein Isoconazole Ketoconazole Metyrapone Miconazole Midazolam Tioconazole Other Endogenous Progestogens: Deoxycorticosterone 17-Hydroxyprogesterone Progesterone Precursors: Cholesterol 22R-Hydroxycholesterol 20α,22R-Dihydroxycholesterol Pregnenolone 17-Hydroxypregnenolone Indirect Androgens/Antiandrogens (see here) Estrogens/Antiestrogens (see here) GnRH agonists/antagonists (see here) Gonadotropins/Antigonadotropins (see here) Plasma proteins (Transcortin, Albumin) Procedures Adrenalectomy Hypophysectomy Oophorectomy Orchiectomy