Differential metabolism of clinically-relevant progestogens in cell lines and tissue: Implications for biological mechanisms.

Steroid hormones regulate a variety of physiological processes, including reproductive function, and are widely used in hormonal therapy. Synthetic progestogens, or progestins, were designed to mimic progesterone (P4) for use in contraception and hormonal replacement therapy in women. Medroxyprogesterone acetate (MPA) and norethisterone (NET) are the most widely used injectable contraceptives in the developing world, while other progestins such as levonorgestrel (LNG), etonogestrel (ETG) and nestorone (NES) are used in or being developed for other forms of contraception. As concerns remain about the most appropriate choice of progestin and dosage, and the associated side-effects, the mechanisms and biological effects of progestins are frequently investigated in various in vitro mammalian cell line and tissue models. However, whether progestogens are differentially metabolised in different cell types in vivo or in vitro is unknown. For nine mammalian cell lines commonly used to investigate progestogen mechanisms of action, we developed and validated an ultra-high performance supercritical fluid chromatography-tandem mass spectrometry (UHPSFC-MS/MS) protocol for simultaneously quantifying the metabolism of the above-mentioned steroids. We show for the first time that, while 50-100% of P4 was metabolised within 24 h in all cell lines, the metabolism of the progestins is progestin- and cell line-specific. We also show that MPA and NET are significantly metabolised in human cervical tissue, but to a lesser extent than P4. Taken together, our findings suggest that differential progestogen metabolism may play a role in cell-specific therapeutic and side-effects. Relative affinities for binding to steroid receptors as well as potencies, efficacies and biocharacters for transcriptional activity of progestins, relative to P4, are most frequently determined using some of the cell lines investigated. Our results, however, suggest that differential metabolism of progestins and P4 may confound these results. In particular, metabolism may under-estimate the receptor-mediated intrinsic in vitro binding and dose-response values and predicted endogenous physiological effects of P4.

Nestorone exerts long-term neuroprotective effects against transient focal cerebral ischemia in adult male rats.

Progesterone (P4) exerts long-term neuroprotective effects in animal models of stroke, and P4 receptors play a crucial role in this neuroprotection. However, it currently remains unclear whether the activation of P4 receptors alone is sufficient to exert long-term neuroprotection because P4 exhibits other steroidogenic and GABAergic activities via several of its metabolites. Nestorone is a potent selective P4 receptor agonist without other steroidogenic and GABAergic activities. Therefore, we examined the effects of nestorone in adult male rats subjected to transient middle cerebral artery occlusion (MCAO). The dose-response relationship of nestorone showed that the 6-h post-ischemic administration of 10 µg/kg nestorone resulted in greater reductions in infarct sizes 48 h after MCAO than the other two doses tested (5 and 80 µg/kg), and this dose of nestorone significantly decreased astrocyte activation in the peri-infarct cortical region. Moreover, 10 µg/kg nestorone significantly prevented functional impairments on the 28th and 29th days and slightly reduced infarct size on the 30th day after MCAO. The present results suggest that the activation of P4 receptors alone is sufficient to exert neuroprotection against transient cerebral ischemia in adult male rats; therefore, nestorone is a promising agent in post-stroke treatment due to its potent progestational effects without other steroid-related activities.

Therapeutic progestin segesterone acetate promotes neurogenesis: implications for sustaining regeneration in female brain.

OBJECTIVE: Neurogenesis is the principal regenerative mechanism to sustain the plasticity potential in adult brains. Decreased neurogenesis parallels the cognition decline with aging, and has been suggested as a common hallmark in the progression of many neurodegeneration diseases. We previously reported that acute exposure to segesterone acetate (ST-1435; Nestorone), alone or in combination with 17ß-estradiol (E2), increased human neural stem cells proliferation and survival both in vitro and in vivo. The present study expanded our previous findings to investigate the more clinical related chronic exposure in combination with E2 on the regenerative capacity of adult brain. METHODS: To mimic the chronic contraception exposure in women, 3-month old female mice (n = 110) were treated with ST-1435, with or without co-administration of E2, for 4 weeks. Neural cell proliferation and survival, and oligodendrocyte generation were assessed. The involvement of insulin-like growth factor 1 signaling was studied. RESULTS: Our results demonstrated that chronic ST-1435 and E2 alone or in combination increased neurogenesis by a comparable magnitude, with minimum to no antagonistic or additive effects between ST-1435 and E2. In addition, chronic exposure of ST-1435 or ST-1435 + E2 stimulated oligodendrocyte generation, indicating potential elevated myelination. Insulin-like growth factor-1 (IGF-1) and IGF-1 receptor (IGF-1R) were also up-regulated after chronic ST-1435 and E2 exposure, suggesting the involvement of IGF-1 signaling as the potential underlined regulatory pathway transducing ST-1435 effect. CONCLUSION: These findings provide preclinical evidence and mechanistic insights for the development of ST-1435 as a neuroregenerative therapy to promote intrinsic regenerative capacity in female brains against aging and neurodegenerative disorders.

Nestorone® as a Novel Progestin for Nonoral Contraception: Structure-Activity Relationships and Brain Metabolism Studies.

Nestorone® (NES) is a potent nonandrogenic progestin being developed for contraception. NES is a synthetic progestin that may possess neuroprotective and myelin regenerative potential as added health benefits. In receptor transactivation experiments, NES displayed greater potency than progesterone to transactivate the human progesterone receptor (PR). This was confirmed by docking experiments where NES adopts the same docking position within the PR ligand-binding domain (LBD) as progesterone and forms additional stabilizing contacts between 17α-acetoxy and 16-methylene groups and PR LBD, supporting its higher potency than progesterone. The analog 13-ethyl NES also establishes similar contacts as NES with Met909, leading to comparable potency as NES. In contrast, NES is not stabilized within the human androgen receptor LBD, leading to negligible androgen receptor transactivation. Because progesterone acts in the brain by both PR binding and indirectly via binding of the metabolite allopregnanolone to γ-aminobutyric acid type A receptor (GABAAR), we investigated if NES is metabolized to 3α, 5α-tetrahydronestorone (3α, 5α-THNES) in the brain and if this metabolite could interact with GABAAR. In female mice, low concentrations of reduced NES metabolites were identified by gas chromatography/mass spectrometry in both plasma and brain. Electrophysiological studies showed that 3α, 5α-THNES exhibited only limited activity to enhance GABAAR-evoked responses with WSS-1 cells and did not modulate synaptic GABAARs of mouse cortical neurons. Thus, the inability of reduced metabolite of NES (3α, 5α-THNES) to activate GABAAR suggests that the neuroprotective and myelin regenerative effects of NES are mediated via PR binding and not via its interaction with the GABAAR.

The hypertensiogenetic steroid 19-nor-progesterone does not influence cortisol inactivation by 11beta-hydroxysteroid dehydrogenase type 2.

19-nor-progesterone (19-nor-P) has the characteristics of a potent mineralocorticoid in adrenalectomized or salt-loaded rats and is capable of causing hypertension. In human placenta, progesterone is converted to 19-hydroxy-progesterone, a precursor of 19-nor-P. In some states of pregnancy hypertension, 19-nor-P may inhibit renal 11beta-hydroxysteroid dehydrogenase type 2 (11beta-HSD2), thus allowing cortisol to bind to the mineralocorticoid receptor (MR). Therefore, we investigated the ability of 19-nor-P to inhibit human 11beta-HSD2. Fetal kidney cells (HEK 293) were transfected with human 11beta-HSD2 and incubated with increasing concentrations of 19-nor-P, labelled and unlabelled cortisol. Steroids were extracted, separated by TLC, and radioactivity was measured using a TLC scanner. 19-nor-P treatment did not significantly reduce 11beta-HSD2 activity (430 to 300 pmol/mg protein/h) in the range of tested concentrations. In conclusion, 19-nor-P did not inhibit human 11beta-HSD2 and seems not to be involved in human hypertension. Nevertheless, 19-nor-P may be converted by extra-adrenal tissues into 19-nor-deoxycorticosterone (DOC) or 19-nor-corticosterone, which are potent mineralocorticoids and may be involved in the pathogenesis of hypertension during pregnancy.

Structure-activity relationships of synthetic progestins in a yeast-based in vitro androgen bioassay.

The recent identification of tetrahydrogestrinone (THG), a non-marketed designer androgen used for sports doping but previously undetectable by established mass spectrometry-based urine drug screens, and its production by a facile chemical modification of gestrinone has raised concerns about the risks of developing designer androgens from numerous marketed progestins. We therefore have used yeast-based in vitro androgen and progesterone bioassays to conduct a structure-activity study assessing the intrinsic androgenic potential of commercially available progestins and their derivatives, to identify those compounds or structures with the highest risk of forming a basis for such misapplication. Progestins had a wide range of androgenic bioactivity that was not reliably predicted for individual steroids by their progestin bioactivity. 17alpha-Hydroxyprogesterone and 19-norprogesterone derivatives with their bulky 17beta-substituents were strong progestins but generally weak androgens. 17alpha-Ethynylated derivatives of testosterone, 19-nortestosterone and 18-methyl-19-nortestosterone such as gestrinone, ethisterone, norethisterone and norgestrel had the most significant intrinsic androgenicity of all the commercially marketed progestins. Facile chemical modification of the 17alpha-ethynyl group of each of these progestins produces 17alpha-methyl, ethyl and allyl derivatives, including THG and norbolethone, which further enhanced androgenic bioactivity. Thus by using the rapid and sensitive yeast bioassay we have screened a comprehensive set of progestins and associated structures and identified the ethynylated testosterone, 19-nortestosterone and 18-methyl-19-nortestosterone derivatives as possessing the highest risk for abuse and potential for conversion to still more potent androgens. By contrast, modern progestins such as progesterone, 17alpha-hydroxyprogesterone and 19-norprogesterone derivatives had minimal androgenic bioactivity and pose low risk.

Nestorone: clinical applications for contraception and HRT.

The 19-nor derivatives of progesterone are referred to as "pure" progestational molecules as they bind almost exclusively to the progesterone receptor (PR) without interfering with receptors of other steroids. In this category is Nestorone, which has strong progestational activity and antiovulatory potency with no androgenic or estrogenic activity in vivo. These properties make it highly suitable for use in contraception and hormonal therapy (HT). Due to its high potency, very low doses of Nestorone may be delivered via long-term sustained-release delivery systems. Nestorone, 75 or 100 microg per day, released by vaginal ring has suppressed ovulation in women, with inhibition of follicular maturation. A vaginal ring releasing both 150 microg of Nestorone and 15 microg of ethinyl estradiol per day has effectively suppressed ovulation for 13 consecutive cycles. Nestorone has also been used effectively in a single implant for contraception in breastfeeding women and shows promise for use in transdermal systems as a contraceptive or for HT when combined with estrogen.

Contraceptive efficacy and clinical performance of Nestorone implants in postpartum women.

The objective of this study was to evaluate the contraceptive efficacy and clinical performance of a Nestorone subdermal implant (NES) in the postpartum period. NES (n = 100) and Copper T intrauterine device (T-Cu; n = 100) acceptors initiated contraception at 8 weeks postpartum and were followed at monthly intervals during the first year and at 3-month intervals thereafter. Pregnancy rates, breastfeeding performance, infant growth, bleeding pattern, and side effects were assessed. Blood and milk NES concentration were measured. No pregnancy occurred in 2195 and 2145 woman-months of NES implant and T-Cu use, respectively. No effect of NES on lactation and infant growth and no serious adverse events were observed. Lactational amenorrhea was significantly longer in NES users (353 +/- 20 days) than in T-Cu users (201 +/- 11 days). More NES users (55.8%) experienced prolonged bleedings than did T-Cu users (36.2%). Concentrations of NES in breast milk ranged between 54-135 pmol/liter. The Nestorone implant is a highly effective contraceptive, safe for breastfed infants because the steroid is inactive by the oral route.

Parenteral administration of progestin Nestorone to lactating cynomolgus monkeys: an ideal hormonal contraceptive at lactation?

Nestorone (NES) progestin is highly effective for contraception following parenteral administration, but ineffective after oral ingestion due to rapid first-pass metabolism. Thus, NES might be ideal for lactational contraception; possible NES in milk should be metabolized by the nursing infant. We evaluated the distribution of NES, its endocrine effects and infant weight gain in five cynomolgus monkeys and their nursing infants. Nestorone implants, releasing approximately 40 microg NES/day in vitro, were placed s.c. in the mothers 3-4 months following delivery, where they remained in situ for 4 weeks. Sampling (blood daily from the mother; milk and blood from the infant at 3 day intervals) was initiated at 2 weeks prior to insertion, and continued for 2 weeks following removal of the implant. NES, oestradiol, progesterone and prolactin were measured by radioimmunoassays and the infants were weighed weekly. The (mean +/- SD) maternal serum and milk concentrations of NES were 337 +/- 90 and 586 +/- 301 pmol/l during the use of the implants. The ratio of milk/serum NES was 1.68 +/- 0.12 (mean +/- SE), and the serum and milk concentrations were significantly correlated (r = 0. 75, P < 0.001). NES was not detectable (<13 pmol/l) in any infant serum samples. Concentrations of prolactin (mean +/- SD) were 41.1 +/- 32, 26.7 +/- 7.6 and 26.3 +/- 9.5 ng/ml before, during and after the use of the implants respectively. The (mean +/- SE) infant weight increased from 643 +/- 54 g 1 week prior to insertion to 713 +/- 54 g 1 week following removal. These data confirm that NES in milk is rapidly metabolized by the suckling infant. Therefore, NES appears to be an ideal hormonal contraceptive for use during lactation.

Synthesis and progestational activity of 16-methylene-17 alpha-hydroxy-19-norpregn-4-ene-3,20-dione and its derivatives.

16-Methylene-17 alpha-hydroxy-19-norpregn-4-ene-3,20-dione 1 and its 17 alpha-acylated derivatives were synthesized. The length of the 17 alpha-side-chain ranges from C2-C6. As anticipated, compound 1 did not show any progestational activity or receptor binding activity; whereas, the acylated compounds, especially the butyrate, showed remarkable ability to bind to progesterone receptors. These compounds also showed progestational activity in an in vitro T47D cell culture assay in which progestins increase alkaline phosphatase activity and in an in vivo ovulation inhibition assay. All of the compounds synthesized were without estrogenic activities. The results showed that acylation of 16-methylene-17 alpha-hydroxy-19-norprogesterone can increase progestational activity. The progestational activities of these compounds varied with the 17 alpha-side chain.

Transdermal application of steroid hormones for contraception.

The concept of transdermal delivery (TD) for steroid application has nowadays been largely accepted for hormone replacement therapy in the menopause. It is only recently that the same concept has been envisaged for contraception. The skin can be penetrated by both estrogens and progestins, provided they are delivered in an appropriate solvent. About 10% of the total dose applied topically is actually absorbed. The transdermal delivery systems (TDS) presently available are either of the reservoir type (membrane-moderated system) or of the matrix dispersion type where the drug is dispersed into a polymer matrix. Estradiol (E2) is the most appropriate steroid for TD and can be combined with progestins to ensure a contraceptive effect. Only potent progestins should be used to achieve effective plasma levels with low doses in order to maintain an acceptable small surface of TDS. TDS changed weekly and delivering both E2 and levonorgestrel (L-NG) at daily dosages of 38.4 (+/- 7.5) and 28.8 (+/- 7.2) micrograms/10 cm2 per day respectively, showed ovulation suppression. Another progestin derived from norprogesterone (ST 1435) has been shown to penetrate the skin when suspended in acetylated lanolin or dissolved in a hydroalcoholic gel and to ensure ovulation suppression at a dose of 2 mg per day in a small number of cycles. These preliminary data demonstrate the feasibility of suppressing ovulation in women by transdermal absorption of steroids. Using TDS for contraception implies that such systems should be perfectly adhesive, well tolerated locally and achieve nearly 100% efficacy. These targets are very challenging, however, the potential advantages are so high that the concept deserves further development.

PIP: The transdermal delivery of steroids (TD) is gaining ground in hormone replacement therapy during menopause. This approach to treatment, however, has only recently been envisaged for contraception. Delivered in the appropriate solvent, both estrogens and progestins can penetrate the skin. Approximately 10% of any total dose applied topically is actually absorbed systemically. Currently available TD systems (TDS) are either of the reservoir type or of the matrix dispersion type in which the drug is dispersed into a polymer matrix. Estradiol is the most appropriate steroid for TD and can be combined with progestins to ensure a contraceptive effect. The use of potent progestins allows effective plasma levels to be reached with low doses through application over a small area of skin. TDS changed weekly and delivering both estradiol and levonorgestrel at daily dosages of 38.4 and 28.8 mcg per 10 sq. cm daily, respectively, was found to suppress ovulation. ST 1435, a synthetic progestin derived from 19-norprogesterone, has also been shown to penetrate the skin when suspended in acetylated lanolin or dissolved in a hydroalcoholic gel and to suppress ovulation at a dose of 2 mg per day in a small number of cycles. TD systems should be perfectly adhesive, well-tolerated locally, and nearly 100% effective.

Metabolism of a [18F]fluorine labeled progestin (21-[18F]fluoro-16 alpha-ethyl-19-norprogesterone) in humans: a clue for future investigations.

Assessment of estrogen receptors and progesterone receptors (PR) with PET may allow the determination of the hormone responsiveness of tumors without the need for multiple biopsies, and the monitoring of the effect of hormonal therapy. In spite of the favourable characteristics of 21-[18F]fluoro-16 alpha-ethyl-19-norprogesterone ([18F]FENP) found in preclinical studies, the compound failed to reveal the presence of PR in breast carcinomas and meningiomas. In view of the clinical significance of the PR assay in human breast cancer, it is worthwhile to explore mechanisms that are potentially involved in the inadequacy of [18F]FENP to image PR with PET. Our present study on the in vivo metabolism of [18F]FENP in humans demonstrates a rapid clearance and biotransformation of the compound. Results of incubation experiments suggest that the metabolic conversion of [18F]FENP is not restricted to the liver, but also occurs in blood cells (presumably the erythrocytes) and tumors (breast carcinomas and meningiomas). The predominant metabolite of [18F]FENP in plasma during the rapid distribution phase and in tumors is identified as 20-dihydro-[18F]FENP. The conversion of [18F]FENP to its 20 alpha- or 20 beta-hydroxy metabolite has a deleterious effect on the binding affinity for PR. Our findings do not justify a conclusion as to the extent of in vivo extrahepatic biotransformation of [18F]FENP, or its significance in the ineffectiveness of [18F]FENP as an imaging agent for PR. On the other hand, the ability of breast carcinomas and meningiomas to metabolize [18F]FENP avidly appears to preclude selective imaging of PR in these tumors during the time of a PET examination. It is imperative to evaluate the metabolic stability of a [18F]fluorine labeled progestin in an early stage of future screening procedures.

Investigations on the in vitro metabolism of five synthetic 19-norprogestins using hepatocyte suspensions isolated from five laboratory animal species.

Five synthetic progestins of the 19-nortestosterone type (norethisterone, NET; levonorgestrel, LN; gestodene, GEST; NET-3-oxime, NETO; norgestimate, NGM) were investigated in the in vitro hepatocyte model. Radiolabelled progestins were added to hepatocyte suspensions (3 x 10(6) cells/ml) freshly prepared from female rat, guinea pig, rabbit, dog (beagle) and cynomolgus monkey. Drug level decreases (NET, LN, GEST) and prodrug conversions (NETO, NGM) were followed by radiochromatography (HPLC) for 60 min. In the case of NET and NETO the conversion into ethinyl estradiol (EE2) was quantified by RIA after HPLC separation. Half-lives of drug level decreases (t1/2), areas under the curves (AUC) and metabolic clearance rates (MCR) were estimated for all progestins. For NETO and NGM the percentages of conversion into NET and LN were calculated, respectively, and levels of EE2 determined in the case of NET and NETO. Rat hepatocytes showed an extremely high metabolic activity towards NET, LN and GEST resulting in t1/2 values of below 2 min. Respective values for rabbit hepatocytes ranged from 5-8 min, whereas half-lives calculated for liver cells from guinea pig, dog and monkey were generally above 30 min. A drastic increase in t1/2 was found for NETO (as compared to NET) in hepatocytes from rat, rabbit and monkey but not from guinea pig. Dog hepatocytes degraded NETO about 3 times more rapidly than NET. NGM was degraded much faster than LN in hepatocytes from all species except the rat. Liver cells from guinea pig and dog seem to be able to metabolize the 3-oxime group much more rapidly than hepatocytes from the other animal species. The lowest degree of prodrug conversion of 4% was observed for NGM and dog hepatocytes. Elevated EE2 levels were found in all experiments with NET and NETO. Results of NET, LN and GEST were compared with published in vivo experiments. No correlations were found for t1/2, MCR, and AUC.

[Synthesis of ST-1435 derivatives as contraceptive for lactating women].

Four new ST-1435 derivatives 4-7 were synthesized. Both 4 and 5 are mixture of Z- and E-isomers. 4 was separated into Z- and E-isomers by spinning TLC. Their binding ability to progesterone receptor was examined and found to be less than ST-1435.

Structure-activity and structure-affinity relationships of 19-nor-progesterone derivatives in rat uterus.

19-nor-progesterone (19NP) is a potent progestagen which possesses a high affinity for the progesterone receptor (PgR). In contrast, 17 alpha-hydroxylated-progesterone (17OHP) shows no hormonal activity and does not compete with progesterone (P) for the PgR. The aim of the present work was to analyse in parallel the structure-affinity and the structure-activity relationships for new molecules obtained by modifications of 19NP and 17OHP. The attachment of a 17 alpha-hydroxyl group on 19NP led to a dramatic decrease in both affinity and activity for the end-product, 17 alpha-hydroxylated-19-nor-progesterone (17OH-19NP). The further addition of a methyl group combined with the formation of a double-bound at C6 on 17OH-19NP results in nomegestrol (NOM), the relative affinity of which remained low. Negligible activity was also associated with this affinity in comparison to the parent 19NP. Strikingly, the protection of the free 17 alpha-hydroxyl group of NOM by an acetate led to a potent progestin with high affinity for PgR. It is concluded that the sum of the modifications brought into the 17OHP-19NP molecule reestablishes both affinity and activity of the original 19NP molecule. The same conclusion holds if P is considered as the parent compound, as already stated in the literature.

Milk and plasma concentrations of the progestin ST-1435 in women treated parenterally with ST-1435.

A subcutaneous contraceptive capsule releasing progestin ST-1435 was used by 6 breast-feeding women. One to three paired milk and plasma samples were collected over a one-month period and the concentrations of ST-1435 were determined by radioimmunoassay. An improved and sensitive method for determination of ST-1435 in milk was developed. A column chromatographic purification of milk prior to radioimmunoassay decreased the blank and improved sensitivity. The average plasma concentration of ST-1435 was 62 +/- 20 pg/ml (mean +/- SD). The average milk concentration of ST-1435 was 38 pg/ml (ranging from 7 to 73 pg/ml), while the average milk to plasma ratio was 0.60 (ranging from 0.25 to 0.91). There was a significant correlation between ST-1435 concentrations in breast milk and plasma, indicating that the concentration in plasma is the major determinant for the amount of ST-1435 excreted into milk. Since studies with this drug have shown good contraceptive efficacy and low bioavailability after oral intake, ST-1435 is a good candidate for lactational contraception.

21-[18F]fluoro-16 alpha-ethyl-19-norprogesterone: synthesis and target tissue selective uptake of a progestin receptor based radiotracer for positron emission tomography.

We have synthesized 21-[18F]fluoro-16 alpha-ethyl-19-norprogesterone (FENP), a high affinity ligand for the progesterone receptor, labeled with the positron-emitting radionuclide fluorine-18 (t1/2 = 110 min). The synthesis proceeds in two steps from 21-hydroxy-16 alpha-ethyl-19-norprogesterone and involves [18F]fluoride ion displacement of the 21-trifluoromethanesulfonate (21-triflate). This material is purified by HPLC and is obtained in 4-30% overall yield (decay corrected) within 40 min after the end of bombardment to produce [18F]fluoride ion. The effective specific activity, determined by competitive radioreceptor binding assays, is 700-1400 Ci/mmol. In vivo, [18F]FENP demonstrates highly selective, receptor-mediated uptake by the uterus of estrogen-primed rats; the uterus to blood and uterus to muscle ratios were respectively 26 and 16 at 1 h and 71 and 41 at 3 h after injection. The high target tissue selectivity of this uptake suggests that this compound may be useful for the in vivo imaging of progestin target tissues and receptor-rich tumors (such as human breast tumors) by positron emission tomography.

19-Nor-corticosteroids in experimental and human hypertension.

Recent reports demonstrate that the 19-nor-corticosteroids (19-nor-DOC) are naturally-occurring substances in hypertensive animal models as well as man. Since some 19-nor-corticosteroids are potent mineralocorticoids, they may have a role in regulating systemic arterial pressure and be involved in the pathogenesis of hypertension. This paper reports the probable biosynthetic pathway, factors regulating the secretion or production, and measurement of 19-nor-DOC in man and the spontaneously hypertensive rat (SHR). These studies demonstrate (1) 19-nor-DOC is greatly influenced by ACTH and dexamethasone but less so by high and low salt diets in normotensive subjects; (2) 19-nor-DOC is greatly increased in some but not all hypertensive patients; (3) 19-nor-DOC is increased in prehypertensive SHR compared to WKY rats. The likelihood of metacorticoid hypertension and possible role of other 19-nor-corticosteroids, including 19-nor-progesterone, are discussed. It can be concluded that 19-nor-corticosteroids are synthesized by extra-adrenal tissues in biologically active quantities. They are increased and possibly pathogenetic in certain states of human and experimental hypertension.

19-nor analogs of adrenal steroids: mineralocorticoid and glucocorticoid receptor activity.

The effect of absence of the C-19 methyl group from five adrenal steroids has been studied in terms of their affinity for mineralocorticoid (MR) and glucocorticoid receptors (GR). In MR assays, 19-nordeoxycorticosterone and 19-norprogesterone showed 3-fold higher affinity for MR than did their respective parent steroids; 19-norcortisol had 1.5 times the affinity of cortisol for MR. In contrast, corticosterone and 19-nororticosterone showed equal affinity, and 19-noraldosterone showed less than 1% the MR activity of aldosterone. In GR assays, the absence of the C-19 methyl group from progesterone increased GR affinity 3-fold and deoxycorticosterone affinity 1.5-fold. In contrast, the other 19-nor steroids showed decreased affinity vis à vis their parent compounds (19-norcorticosterone, 30%; 19-norcortisol, 10%; 19-noraldosterone, < 1%). These findings suggest that while the 19-nor analogs of 11-deoxy steroids are consistently more active than their parent steroid, the 19-nor 11-oxygenated adrenal steroids show no predictable pattern of binding for MR or GR.