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EC508

April 12, 2024

EC508, also known as estradiol 17β-(1-(4-(aminosulfonyl)benzoyl)-L-proline), is an estrogen which is under development by Evestra for use in menopausal hormone therapy and as a hormonal contraceptive for the prevention of pregnancy in women.[1][2][3][4] It is an orally active estrogen ester – specifically, a C17β sulfonamideproline ester of the natural and bioidentical estrogen estradiol – and acts as a prodrug of estradiol in the body.[2][3] However, unlike oral estradiol and conventional oral estradiol esters such as estradiol valerate, EC508 undergoes little or no first-pass metabolism, has high oral bioavailability, and does not have disproportionate estrogenic effects in the liver.[2][3] As such, it has a variety of desirable advantages over oral estradiol, similarly to parenteral estradiol, but with the convenience of oral administration.[2][3] EC508 is a candidate with the potential to replace not only oral estradiol in clinical practice, but also ethinylestradiol in oral contraceptives.[2][3] Evestra intends to seek Investigational New Drug status for EC508 in the second quarter of 2018.[1]

EC508
Clinical data
Other namesEC-508; Estradiol 17β-(1-(4-(aminosulfonyl)benzoyl)-L-proline); Estra-1,3,5(10)-triene-3,17β-diol 17β-(1-[4-(aminosulfonyl)benzoyl]-L-proline); 3-Hydroxyestra-1,3,5(10)-trien-17β-yl 1-[4-(aminosulfonyl)benzoyl]-L-proline
Drug classEstrogen; Estrogen ester
Identifiers
  • (8R,9S,13S,14S,17S)-3-hydroxy-13-methyl-7,8,9,11,12,13,14,15,16,17-decahydro-6H-cyclopenta[a]phenanthren-17-yl (4-sulfamoylbenzoyl)-L-prolinate
CAS Number
  • 1644459-05-1
PubChem CID
  • 117799388
UNII
  • N7ZU267AZB
Chemical and physical data
FormulaC30H36N2O6S
Molar mass552.69 g·mol−1
3D model (JSmol)
  • Interactive image
  • O=C([C@H]1N(C(C2=CC=C(S(=O)(N)=O)C=C2)=O)CCC1)O[C@H]3CC[C@@]4([H])[C@]5([H])CCC6=CC(O)=CC=C6[C@@]5([H])CC[C@]34C
  • InChI=1S/C30H36N2O6S/c1-30-15-14-23-22-11-7-20(33)17-19(22)6-10-24(23)25(30)12-13-27(30)38-29(35)26-3-2-16-32(26)28(34)18-4-8-21(9-5-18)39(31,36)37/h4-5,7-9,11,17,23-27,33H,2-3,6,10,12-16H2,1H3,(H2,31,36,37)/t23-,24-,25+,26+,27+,30+/m1/s1
  • Key:DDUJSLXJKGYGCG-OQDYUIEKSA-N

Pharmacokinetics edit

Relative to parenteral routes of estradiol like vaginal, transdermal, and injection, oral estradiol is characterized by low bioavailability and disproportionate effects on liver protein synthesis.[2][3] Due to extensive metabolism during the first-pass into estrone and estrogen conjugates like estrone sulfate, the oral bioavailability of estradiol and conventional estradiol esters like estradiol valerate is only about 5%, and there is high interindividual variability in estradiol levels achieved.[5] Moreover, because of the first-pass, estradiol levels in the liver are 4 or 5 times higher with oral estradiol than those in the circulation.[6] As a result, oral estradiol has disproportionate estrogenic effects on the hepatic production of lipids, hemostatic factors, growth hormone/insulin-like growth factor 1 axis proteins, angiotensinogen, and other proteins.[2][3][5] This is unfavorable and may result in an increased risk of venous thromboembolism, cardiovascular events, and other adverse effects.[2][3][5]

The pharmacokinetics of EC508 were assessed in rats; its bioavailability was found to be complete (100%), its clearance in blood was low, and its biological half-life was prolonged at about 5 hours.[2][3] A single oral dose of 5.0 mg/kg EC508 in rats resulted in peak levels of estradiol of 6,104 ng/mL (6,104,000 pg/mL).[2] EC508 itself showed poor activity as an agonist of the estrogen receptor, with an EC50Tooltip half-maximal effective concentration value of 432 nM relative to 2.3 nM for estradiol (a 188-fold difference), indicating that the estrogenic activity of the compound is solely due to hydrolysis into estradiol.[3] EC508 showed very high oral estrogenic potency, around 100 times that of estradiol and 10 times that of ethinylestradiol in rats.[2][3] This was determined by uterotrophic effect in ovariectomized rats; an oral dosage of 10 µg/day resulted in uterine weight doubling with EC508, while no effect was observed with estradiol and only a small effect on uterine weight was measured with ethinylestradiol.[2][3] Conversely, across the dosages assessed, oral estradiol and ethinylestradiol showed marked effects on HDL cholesterol and angiotensinogen levels, while oral EC508 and parenteral estradiol showed no effect at all on these hepatic proteins.[2][3] These findings are in accordance with the notion that oral EC508, unlike oral estradiol and ethinylestradiol but similarly to parenteral estradiol, bypasses first-pass metabolism and the liver.[2][3]

The absence of first-pass metabolism and lack of disproportionate liver exposure with EC508 is thought to be due to reversible binding of the sulfonamide moiety of EC508 to an enzyme called carbonic anhydrase II (CAII).[2][3] EC508 shows moderate affinity for human CAII, with an IC50Tooltip half-maximal inhibitory concentration for binding inhibition of 110 nM.[2][3] CAII is highly concentrated in erythrocytes (red blood cells), which are present in large quantity in the blood of the hepatic portal vein.[2][3] It is believed that following its absorption in the intestines and its entrance into the hepatic portal vein, EC508 is taken up by and massively accumulated in erythrocytes, which prevents it from entering the liver and results in it being transported by erythrocytes straight into the circulation.[2][3] From circulating erythrocytes, EC508 is thought to be slowly released and then hydrolyzed into estradiol.[2][3] However, one sulfonamide ester of estradiol related to EC508 known as EC518 showed similar properties with very low or absent binding to CAII and hence probably lacking erythrocyte binding, which raises questions about the necessity of CAII binding for such properties and the mechanism by which they occur.[2]

History edit

Estradiol sulfamate (E2MATE) is a C3 sulfamate ester of estradiol which was developed in the 1990s and was a predecessor of EC508.[2][3][7][8][9] It binds to CAII, is taken up into and stored within erythrocytes, and shows similar properties to EC508.[2][3] As a result, E2MATE was under development for potential clinical use as an oral estrogen.[2][3] However, it showed no increase in estradiol levels and no estrogenic effects in human clinical trials.[2][3] It appears that there are species differences with E2MATE between rats and primates and that the lack of activity in humans is because E2MATE additionally acts as a highly potent inhibitor of steroid sulfatase.[2][3][10] This enzyme is responsible for the hydrolysis of sulfur-based estradiol esters like E2MATE and EC508 into estradiol.[2][3] By inhibiting steroid sulfatase, E2MATE prevents its own activation into estradiol, which effectively abolishes its estrogenic activity.[2][3] In addition, it was found that E2MATE was substantially transformed into estrone sulfamate (EMATE) in erythrocytes, which may have further impeded its capacity to be activated into estradiol.[2] In contrast to E2MATE, EC508 is not thought to be a steroid sulfatase inhibitor and cannot be transformed into the corresponding estrone equivalent.[2][3]

A C17β sulfonamide–proline testosterone ester known as EC586, which has similar properties to those of EC508, is also under development by Evestra, specifically as an androgen and potent oral testosterone prodrug for use in androgen replacement therapy in men.[1][3] Clinical trials for EC586 and EC508 are undergoing as of 2023.[11]

See also edit

References edit

  1. ^ a b c . Evestra, Inc. Archived from the original on 1 December 2017.
  2. ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac Elger W, Wyrwa R, Ahmed G, Meece F, Nair HB, Santhamma B, et al. (January 2017). "Estradiol prodrugs (EP) for efficient oral estrogen treatment and abolished effects on estrogen modulated liver functions". The Journal of Steroid Biochemistry and Molecular Biology. 165 (Pt B): 305–311. doi:10.1016/j.jsbmb.2016.07.008. PMID 27449818. S2CID 26650319.
  3. ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab Ahmed G, Elger W, Meece F, Nair HB, Schneider B, Wyrwa R, Nickisch K (October 2017). "A prodrug design for improved oral absorption and reduced hepatic interaction". Bioorganic & Medicinal Chemistry. 25 (20): 5569–5575. doi:10.1016/j.bmc.2017.08.027. PMID 28886996.
  4. ^ US 9745338, Nickisch K, Santhamma B, Ahmed G, Meece F, Elger W, Wyrwa R, Nair H, "Pro-drug forming compounds", issued 29 August 2017, assigned to Evestra Inc 
  5. ^ a b c Kuhl H (August 2005). "Pharmacology of estrogens and progestogens: influence of different routes of administration". Climacteric. 8 (Suppl 1): 3–63. doi:10.1080/13697130500148875. PMID 16112947. S2CID 24616324.
  6. ^ Kuhl H (September 1990). "Pharmacokinetics of oestrogens and progestogens". Maturitas. 12 (3): 171–197. doi:10.1016/0378-5122(90)90003-O. PMID 2170822.
  7. ^ Elger W, Palme HJ, Schwarz S (April 1998). "Novel oestrogen sulfamates: a new approach to oral hormone therapy". Expert Opinion on Investigational Drugs. 7 (4): 575–589. doi:10.1517/13543784.7.4.575. PMID 15991994.
  8. ^ Elger W, Barth A, Hedden A, Reddersen G, Ritter P, Schneider B, et al. (2001). "Estrogen sulfamates: a new approach to oral estrogen therapy". Reproduction, Fertility, and Development. 13 (4): 297–305. doi:10.1071/rd01029. PMID 11800168.
  9. ^ "PGL 2". AdisInsight. Springer Nature Switzerland AG.
  10. ^ Thomas MP, Potter BV (September 2015). "Estrogen O-sulfamates and their analogues: Clinical steroid sulfatase inhibitors with broad potential". The Journal of Steroid Biochemistry and Molecular Biology. 153: 160–169. doi:10.1016/j.jsbmb.2015.03.012. PMID 25843211. S2CID 24116740.
  11. ^ Sokolov MN, Rozhkov VV, Trukhan VM, Shimanovskii NL (1 June 2023). "Current Trends in Steroid Chemistry". Pharmaceutical Chemistry Journal. 57 (3): 336–346. doi:10.1007/s11094-023-02887-0. ISSN 1573-9031. S2CID 259299284.

External links edit

  • R&D Research / Research Pipeline - Evestra, Inc. 2017-09-29 at the Wayback Machine

April 12, 2024
ec508, also, known, estradiol, 17β, aminosulfonyl, benzoyl, proline, estrogen, which, under, development, evestra, menopausal, hormone, therapy, hormonal, contraceptive, prevention, pregnancy, women, orally, active, estrogen, ester, specifically, c17β, sulfona. EC508 also known as estradiol 17b 1 4 aminosulfonyl benzoyl L proline is an estrogen which is under development by Evestra for use in menopausal hormone therapy and as a hormonal contraceptive for the prevention of pregnancy in women 1 2 3 4 It is an orally active estrogen ester specifically a C17b sulfonamide proline ester of the natural and bioidentical estrogen estradiol and acts as a prodrug of estradiol in the body 2 3 However unlike oral estradiol and conventional oral estradiol esters such as estradiol valerate EC508 undergoes little or no first pass metabolism has high oral bioavailability and does not have disproportionate estrogenic effects in the liver 2 3 As such it has a variety of desirable advantages over oral estradiol similarly to parenteral estradiol but with the convenience of oral administration 2 3 EC508 is a candidate with the potential to replace not only oral estradiol in clinical practice but also ethinylestradiol in oral contraceptives 2 3 Evestra intends to seek Investigational New Drug status for EC508 in the second quarter of 2018 1 EC508Clinical dataOther namesEC 508 Estradiol 17b 1 4 aminosulfonyl benzoyl L proline Estra 1 3 5 10 triene 3 17b diol 17b 1 4 aminosulfonyl benzoyl L proline 3 Hydroxyestra 1 3 5 10 trien 17b yl 1 4 aminosulfonyl benzoyl L prolineDrug classEstrogen Estrogen esterIdentifiersIUPAC name 8R 9S 13S 14S 17S 3 hydroxy 13 methyl 7 8 9 11 12 13 14 15 16 17 decahydro 6H cyclopenta a phenanthren 17 yl 4 sulfamoylbenzoyl L prolinateCAS Number1644459 05 1PubChem CID117799388UNIIN7ZU267AZBChemical and physical dataFormulaC 30H 36N 2O 6SMolar mass552 69 g mol 13D model JSmol Interactive imageSMILES O C C H 1N C C2 CC C S O N O C C2 O CCC1 O C H 3CC C 4 H C 5 H CCC6 CC O CC C6 C 5 H CC C 34CInChI InChI 1S C30H36N2O6S c1 30 15 14 23 22 11 7 20 33 17 19 22 6 10 24 23 25 30 12 13 27 30 38 29 35 26 3 2 16 32 26 28 34 18 4 8 21 9 5 18 39 31 36 37 h4 5 7 9 11 17 23 27 33H 2 3 6 10 12 16H2 1H3 H2 31 36 37 t23 24 25 26 27 30 m1 s1Key DDUJSLXJKGYGCG OQDYUIEKSA N Contents 1 Pharmacokinetics 2 History 3 See also 4 References 5 External linksPharmacokinetics editRelative to parenteral routes of estradiol like vaginal transdermal and injection oral estradiol is characterized by low bioavailability and disproportionate effects on liver protein synthesis 2 3 Due to extensive metabolism during the first pass into estrone and estrogen conjugates like estrone sulfate the oral bioavailability of estradiol and conventional estradiol esters like estradiol valerate is only about 5 and there is high interindividual variability in estradiol levels achieved 5 Moreover because of the first pass estradiol levels in the liver are 4 or 5 times higher with oral estradiol than those in the circulation 6 As a result oral estradiol has disproportionate estrogenic effects on the hepatic production of lipids hemostatic factors growth hormone insulin like growth factor 1 axis proteins angiotensinogen and other proteins 2 3 5 This is unfavorable and may result in an increased risk of venous thromboembolism cardiovascular events and other adverse effects 2 3 5 The pharmacokinetics of EC508 were assessed in rats its bioavailability was found to be complete 100 its clearance in blood was low and its biological half life was prolonged at about 5 hours 2 3 A single oral dose of 5 0 mg kg EC508 in rats resulted in peak levels of estradiol of 6 104 ng mL 6 104 000 pg mL 2 EC508 itself showed poor activity as an agonist of the estrogen receptor with an EC50Tooltip half maximal effective concentration value of 432 nM relative to 2 3 nM for estradiol a 188 fold difference indicating that the estrogenic activity of the compound is solely due to hydrolysis into estradiol 3 EC508 showed very high oral estrogenic potency around 100 times that of estradiol and 10 times that of ethinylestradiol in rats 2 3 This was determined by uterotrophic effect in ovariectomized rats an oral dosage of 10 µg day resulted in uterine weight doubling with EC508 while no effect was observed with estradiol and only a small effect on uterine weight was measured with ethinylestradiol 2 3 Conversely across the dosages assessed oral estradiol and ethinylestradiol showed marked effects on HDL cholesterol and angiotensinogen levels while oral EC508 and parenteral estradiol showed no effect at all on these hepatic proteins 2 3 These findings are in accordance with the notion that oral EC508 unlike oral estradiol and ethinylestradiol but similarly to parenteral estradiol bypasses first pass metabolism and the liver 2 3 The absence of first pass metabolism and lack of disproportionate liver exposure with EC508 is thought to be due to reversible binding of the sulfonamide moiety of EC508 to an enzyme called carbonic anhydrase II CAII 2 3 EC508 shows moderate affinity for human CAII with an IC50Tooltip half maximal inhibitory concentration for binding inhibition of 110 nM 2 3 CAII is highly concentrated in erythrocytes red blood cells which are present in large quantity in the blood of the hepatic portal vein 2 3 It is believed that following its absorption in the intestines and its entrance into the hepatic portal vein EC508 is taken up by and massively accumulated in erythrocytes which prevents it from entering the liver and results in it being transported by erythrocytes straight into the circulation 2 3 From circulating erythrocytes EC508 is thought to be slowly released and then hydrolyzed into estradiol 2 3 However one sulfonamide ester of estradiol related to EC508 known as EC518 showed similar properties with very low or absent binding to CAII and hence probably lacking erythrocyte binding which raises questions about the necessity of CAII binding for such properties and the mechanism by which they occur 2 History editEstradiol sulfamate E2MATE is a C3 sulfamate ester of estradiol which was developed in the 1990s and was a predecessor of EC508 2 3 7 8 9 It binds to CAII is taken up into and stored within erythrocytes and shows similar properties to EC508 2 3 As a result E2MATE was under development for potential clinical use as an oral estrogen 2 3 However it showed no increase in estradiol levels and no estrogenic effects in human clinical trials 2 3 It appears that there are species differences with E2MATE between rats and primates and that the lack of activity in humans is because E2MATE additionally acts as a highly potent inhibitor of steroid sulfatase 2 3 10 This enzyme is responsible for the hydrolysis of sulfur based estradiol esters like E2MATE and EC508 into estradiol 2 3 By inhibiting steroid sulfatase E2MATE prevents its own activation into estradiol which effectively abolishes its estrogenic activity 2 3 In addition it was found that E2MATE was substantially transformed into estrone sulfamate EMATE in erythrocytes which may have further impeded its capacity to be activated into estradiol 2 In contrast to E2MATE EC508 is not thought to be a steroid sulfatase inhibitor and cannot be transformed into the corresponding estrone equivalent 2 3 A C17b sulfonamide proline testosterone ester known as EC586 which has similar properties to those of EC508 is also under development by Evestra specifically as an androgen and potent oral testosterone prodrug for use in androgen replacement therapy in men 1 3 Clinical trials for EC586 and EC508 are undergoing as of 2023 11 See also editList of estrogen esters Estradiol esters List of investigational sex hormonal agents EstrogenicsReferences edit a b c R amp D Research Evestra Inc Archived from the original on 1 December 2017 a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac Elger W Wyrwa R Ahmed G Meece F Nair HB Santhamma B et al January 2017 Estradiol prodrugs EP for efficient oral estrogen treatment and abolished effects on estrogen modulated liver functions The Journal of Steroid Biochemistry and Molecular Biology 165 Pt B 305 311 doi 10 1016 j jsbmb 2016 07 008 PMID 27449818 S2CID 26650319 a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab Ahmed G Elger W Meece F Nair HB Schneider B Wyrwa R Nickisch K October 2017 A prodrug design for improved oral absorption and reduced hepatic interaction Bioorganic amp Medicinal Chemistry 25 20 5569 5575 doi 10 1016 j bmc 2017 08 027 PMID 28886996 US 9745338 Nickisch K Santhamma B Ahmed G Meece F Elger W Wyrwa R Nair H Pro drug forming compounds issued 29 August 2017 assigned to Evestra Inc a b c Kuhl H August 2005 Pharmacology of estrogens and progestogens influence of different routes of administration Climacteric 8 Suppl 1 3 63 doi 10 1080 13697130500148875 PMID 16112947 S2CID 24616324 Kuhl H September 1990 Pharmacokinetics of oestrogens and progestogens Maturitas 12 3 171 197 doi 10 1016 0378 5122 90 90003 O PMID 2170822 Elger W Palme HJ Schwarz S April 1998 Novel oestrogen sulfamates a new approach to oral hormone therapy Expert Opinion on Investigational Drugs 7 4 575 589 doi 10 1517 13543784 7 4 575 PMID 15991994 Elger W Barth A Hedden A Reddersen G Ritter P Schneider B et al 2001 Estrogen sulfamates a new approach to oral estrogen therapy Reproduction Fertility and Development 13 4 297 305 doi 10 1071 rd01029 PMID 11800168 PGL 2 AdisInsight Springer Nature Switzerland AG Thomas MP Potter BV September 2015 Estrogen O sulfamates and their analogues Clinical steroid sulfatase inhibitors with broad potential The Journal of Steroid Biochemistry and Molecular Biology 153 160 169 doi 10 1016 j jsbmb 2015 03 012 PMID 25843211 S2CID 24116740 Sokolov MN Rozhkov VV Trukhan VM Shimanovskii NL 1 June 2023 Current Trends in Steroid Chemistry Pharmaceutical Chemistry Journal 57 3 336 346 doi 10 1007 s11094 023 02887 0 ISSN 1573 9031 S2CID 259299284 External links editR amp D Research Research Pipeline Evestra Inc Archived 2017 09 29 at the Wayback Machine Retrieved from https en wikipedia org w index php title EC508 amp oldid 1208854664, wikipedia, wiki, book, books, library,

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