Receptor binding of norgestimate--a new orally active synthetic progestational compound

Clinical pharmacology of progestins

INTRODUCTION

In this paper, we report general pharmacological profile and major biological activities of natural progesterone (P) and progestins. The aim of this article consists of synthesizing the principal aspects of pharmacology and metabolism of P and progestins related to the clinical consequences of their use.

METHODS

We review scientific literature on the topic "Progestins", evaluating the most relevant data from original articles, reviews and meta-analyses.

EVIDENCE SYNTHESIS

Progestins represent a specific class of synthetic analogues of P clinically employed (alone or associated with estrogens) to manage several gynaecological conditions, for instance multiple abortions, luteal phase defect, premenstrual syndrome, abnormal uterine bleeding, endometriosis and menopause (for hormone replacement therapy). Besides their use in the field of contraception, many non-contraceptive benefits of estroprogestins are mostly due to the activities of progestins. Pharmacological characteristics, dosage and individual metabolism could be listed among the principal aspects influencing their clinical effects.

CONCLUSIONS

The choice of each progestin according to its pharmacological profile is crucial for the appropriate management of any gynaecological condition. An aware knowledge of these compounds is fundamental to hone medical practice.

Pharmacokinetics, metabolism and serum concentrations of progestins used in contraception

Many different forms of hormonal contraception are used by millions of women worldwide. These contraceptives differ in the dose and type of synthetic progestogenic compound (progestin) used, as well as the route of administration and whether or not they contain estrogenic compounds. There is an increasing awareness that different forms of contraception and different progestins have different side-effect profiles, in particular their cardiovascular effects, effects on reproductive cancers and susceptibility to infectious diseases. There is a need to develop new methods to suit different needs and with minimal risks, especially in under-resourced areas. This requires a better understanding of the pharmacokinetics, metabolism, serum and tissue concentrations of progestins used in contraception as well as the biological activities of progestins and their metabolites via steroid receptors. Here we review the current knowledge on these topics and identify the research gaps. We show that there is a paucity of research on most of these topics for most progestins. We find that major impediments to clear conclusions on these topics include a lack of standardized methodologies, comparisons between non-parallel clinical studies and variability of data on serum concentrations between and within studies. The latter is most likely due, at least in part, to differences in intrinsic characteristics of participants. The review highlights the importance of insight on these topics in order to provide the best contraceptive options to women with minimal risks.

Quantification of 17-desacetyl norgestimate in human plasma by liquid chromatography-tandem mass spectrometry (LC-MS/MS) and its application to bioequivalence study

A rapid and sensitive ultra-performance liquid chromatography–tandem mass spectrometry (UPLC–MS/MS) method was developed and validated for the estimation of 17-desacetyl norgestimate in human plasma using solid-phase extraction technique. 17-desacetyl norgestimate D6 was used as the internal standard. Simple gradient chromatographic conditions and mass spectrometric detection enabled accurate and precise measurement of 17-desacetyl norgestimate at sub-picogram levels. The proposed method was validated for a linear range of 20–5000 pg/mL with a correlation coefficient ≥0.9988. The intra-run and inter-run precision and accuracy were within 10%. The overall recoveries for 17-desacetyl norgestimate and 17-desacetyl norgestimate D6 were 96.30% and 93.90%, respectively. The total run time was 4.5 min. The developed method was applied for the determination of the pharmacokinetic parameters of 17-desacetyl norgestimate following a single oral administration of a norgestimate and ethinyl estradiol 0.250 mg/0.035 mg tablets in 35 healthy female volunteers.

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Simple and rapid estimation of norgestimate metabolite in human plasma.

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Sensitive method for 17-desetyl norgestimate estimation with limit of quantification 20 pg/mL.

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Better cleanup using solid phase extraction method.

Ethynilestradiol 20 mcg plus Levonorgestrel 100 mcg: Clinical Pharmacology

Estroprogestins (EPs) are combinations of estrogen and progestin with several actions on women's health. The different pharmacological composition of EPs is responsible for different clinical effects. One of the most used low-dose EP associations is ethinylestradiol 20 mcg plus levonorgestrel 100 mcg in monophasic regimen (EE20/LNG100). This review summarizes clinical pharmacology, cycle control, and effects on lipid and glucose metabolism, coagulation, body weight/body composition, acne, and sexuality of EE20/LNG100. Overall, EE20/LNG100 combination is safe and well tolerated, and in several studies the incidence of adverse events in the treated group was comparable to that of the placebo group. Cycle control was effective and body weight/body composition did not vary among treated and untreated groups in most studies. The EE20/LNG100 combination shows mild or no effect on lipid and glucose metabolism. Lastly, EE20/LNG100 is associated with a low risk of venous thromboembolism (VTE). In conclusion, in the process of decision making for the individualization of EPs choice, EE20/LNG100 should be considered for its favorable clinical profile.

Progestogens used in postmenopausal hormone therapy: differences in their pharmacological properties, intracellular actions, and clinical effects

The safety of progestogens as a class has come under increased scrutiny after the publication of data from the Women's Health Initiative trial, particularly with respect to breast cancer and cardiovascular disease risk, despite the fact that only one progestogen, medroxyprogesterone acetate, was used in this study. Inconsistency in nomenclature has also caused confusion between synthetic progestogens, defined here by the term progestin, and natural progesterone. Although all progestogens by definition have progestational activity, they also have a divergent range of other properties that can translate to very different clinical effects. Endometrial protection is the primary reason for prescribing a progestogen concomitantly with postmenopausal estrogen therapy in women with a uterus, but several progestogens are known to have a range of other potentially beneficial effects, for example on the nervous and cardiovascular systems. Because women remain suspicious of the progestogen component of postmenopausal hormone therapy in the light of the Women's Health Initiative trial, practitioners should not ignore the potential benefits to their patients of some progestogens by considering them to be a single pharmacological class. There is a lack of understanding of the differences between progestins and progesterone and between individual progestins differing in their effects on the cardiovascular and nervous systems, the breast, and bone. This review elucidates the differences between the substantial number of individual progestogens employed in postmenopausal hormone therapy, including both progestins and progesterone. We conclude that these differences in chemical structure, metabolism, pharmacokinetics, affinity, potency, and efficacy via steroid receptors, intracellular action, and biological and clinical effects confirm the absence of a class effect of progestogens.

Synthesis and biological effect of halogen substituted phenyl acetic acid derivatives of progesterone as potent progesterone receptor antagonists

In this paper, we report the relative binding affinities to the progesterone receptor (PR) of several progesterone derivatives containing an acetoxyphenyl substituent at C-17 and their structure-bioactivity relationship. The inhibitory effect to ovulation as well as their function as interrupters of endometrial maturation is also described. The biological activity of the novel steroids was determined in vivo and in vitro experiments using female cycling mice, which were synchronized for estrus with luteinizing hormone-releasing hormone (LHRH) and injected with the steroidal compounds. The cytosol used for the determination of the PR, was obtained from the uteri of adult estrogen-primed rabbits and the androgen (AR), mineralocorticoid (MR) and glucocorticoid (GR) receptors were determined in the cytosolic fractions from the prostate of castrated rats and from the kidneys and livers of adenalectomized male rats. We evaluated six related steroidal compounds 8a-8f differing in the nature of the 17alpha ester side chain for the inhibition of [3H] R5020 binding to the PR. The IC50 values for the displacement of [3H] R5020 binding to the PR and its relative binding affinities (RBAs) were determined. Progesterone and R5020 had similar IC(50) values; steroids 8a, 8f and 8c bind to the progesterone receptor with RBAs of 100%, whereas 8e, 8b and 8d have RBA values <100%. These data indicate that there is a relationship between the structure of these steroids and their binding activity to the progesterone receptors. Having demonstrated in this study that steroids 8a-8f bind to the PR, we also evaluated the receptor's selectivity, since some progesterone derivatives bind to AR, MR, GR receptors. We demonstrated that the tested steroids did not bind to the AR, MR, GR, since none of the steroids inhibited the labeled mibolerone, aldosterone or dexamethasone binding to the AR, MR or GR, respectively. These results show that the novel compounds have certain selectivity for the PR. After LHRH treatment, the mice of the control group showed the presence of ova in the oviduct, whereas the animals treated with steroids 8a, 8f, 8e and 8c with RBAs of 92-100%, did not exhibit any ovum in the oviducts. As a result of this study, it is evident that the novel steroids 8a, 8f, 8e and 8c inhibited the ovulation in these animals at dose of 0.22 mg/kg. After the treatment with LHRH, the uterus of the control group showed the typical progestational activity with an enlarged endometrial thickness with secretory activity. However, the endometrium of the mice treated with steroids 8a, 8f, 8e and 8c (with RBAs of 92-100%) neither did show any enlargement of the endometrium, nor a secretory activity could be detected. The diameter of the uterus was also significantly reduced compared to those of the control group, thus indicating that compounds 8a, 8f, 8e and 8c had antagonistic activity in this tissue. The overall data showed that steroids 8a, 8f, 8e and 8c have a high and selective binding activity to the PR. Furthermore there is a relationship between the structure of these steroids and their binding activity, since the presence of fluorine atom in meta position in the acetoxyphenyl substituent at C-17, improved the binding activity as compared to that for the ortho and para positions. These data also demonstrated that 8a-8f have an anti-progestational activity in vivo, and therefore they have better characteristics than the compounds previously reported.

Antiandrogenic activity of norgestimate in a human androgen-dependent stable-transfected cell line

BACKGROUND

Acne occurs from an overstimulation of the sebaceous glands by high levels of androgens or because sebaceous glands are hypersensitive to normal levels of testosterone. In women with moderate acne, norgestimate (NG) in association with ethinyl estradiol (EE) is acknowledged as an effective treatment; this is related to the effect of oral contraceptives on androgen production and transport. However, the antiandrogenic properties of NG itself have been poorly studied.

DESIGN

The present work was undertaken to find out whether NG and its derivative, 17-deacetylnorgestimate (dNG), present antiandrogen activity. First, we studied the effect of NG and dNG on the intracellular localization of green fluorescent protein (GFP)-labeled androgen receptor (AR). Then, we compared the AR activity of NG and dNG with that of cyproterone acetate (CPA), a gold-standard antiandrogenic compound, by investigating competitive binding, antagonist activity and transactivation level of AR.

RESULTS

NG and dNG decreased GFP-AR nuclear translocation, revealing their antiandrogenic property, as for CPA. In the whole cell competition assay performed in a human cell line stably expressing an AR-responsive luminescent reporter gene (PALM cells) with (3)H-labeled R1881 as tracer, NG and dNG were slightly stronger competitors than the antiandrogen CPA. Half-maximal inhibition (K(i)) of (3)H-labeled R1881 (10(-9) M) binding occurred at 4.2 +/- 0.5 x 10(-8) M of NG, 3.4 +/- 0.4 x 10(-8) M of dNG and 6.6 +/- 0.8 x 10(-8) M of CPA. Comparison of antagonist activities of NG, dNG and CPA on AR transactivation levels showed that NG, dNG and CPA inhibited androgen-induced luciferase activity in PALM cells. We observed slight and similar inhibition with 6 x 10(-8) M respectively of NG, dNG and CPA. For the three compounds, the best inhibitory effect was found at 3 x 10(-7) M: 24% for NG and dNG vs. 47% for CPA. The antiandrogenic activity of NG and dNG was found to be 50% that of CPA.

CONCLUSION

In a human androgen-dependent stable-transfected cell line, a useful tool for studying AR transcriptional activity and its subnuclear localization in the presence of androgens and antiandrogens, we demonstrated that NG and dNG have antiandrogenic properties that could partly explain the efficacy of NG in association with EE for the treatment of moderate acne in women.

Effects of transdermal and oral contraceptives on estrogen-sensitive hepatic proteins

OBJECTIVE

The purpose of this study was to evaluate the effects of the contraceptive patch and an oral contraceptive (OC) on serum concentrations of estrogen-sensitive hepatic proteins, ethinyl estradiol (EE) and levonorgestrel (LNG).

METHODS

Twenty-four women were randomized to receive three cycles of a contraceptive patch that delivers EE 20 microg/day and norelgestromin 150 microg/day or an OC that contains EE 35 microg and norgestimate 250 microg. Blood samples were taken at baseline and at the end of Cycle 3. Serum levels of sex-hormone-binding globulin (SHBG), thyroxine-binding globulin (TBG), corticosteroid-binding globulin (CBG) and C-reactive protein (CRP) were quantified by immunoassay methods. EE and LNG levels in patch users were measured by radioimmunoassay (RIA) and liquid chromatography-tandem mass spectrometry (LC-MS/MS) assay. The paired t test and Student's t test were used for statistical analysis.

RESULTS

Nineteen women completed the study (patch, n=10; OC, n=9). Treatment with both the patch and OC resulted in significant increases from baseline in SHBG, TBG and CBG. The increase in CRP was significant in the patch group and approached significance in the OC group. The increases in SHBG and TBG observed with the patch were significantly greater than those associated with the OC. By way of RIA and LC-MS/MS assay methods, the patch was associated with mean EE levels of 114 and 111 pg/mL, respectively.

CONCLUSIONS

The serum concentrations of estrogen-sensitive hepatic proteins and EE associated with the patch suggest that this new contraceptive system may have relatively large net estrogen effects.

Metabolism of endogenous and exogenous reproductive hormones

Estradiol and progesterone are produced in abundance by the ovary of the reproductive-age female (and by the placenta in pregnancy). Serum levels of both hormones are very low in the postmenopause, and indistinguishable from women who have undergone castration. Postmenopausal women have higher levels of aromatase in skin and adipose and convert androstenedione to estrone more effectively than younger women. Estradiol is well absorbed orally, but undergoes extensive first-pass effect resulting in production of the less potent metabolites estrone and estrone sulfate. Ethinyl estradiol is well absorbed, potent, and has more pronounced effects in the production of important hepatic proteins. Progesterone is absorbed orally only if ingested in a micronized form, has a relatively short serum half-life, and is metabolized to products with little biologic activity. The synthetic progestogens are abundant in number; potent in effect; and well absorbed orally, vaginally, and transdermally. New formulations of estrogens and progestogens and new delivery systems promise to provide gynecologists and patients with a long list of potential solutions to contraceptive needs and alternatives for hormone replacement therapies.

Inhibition of skin 5 alpha-reductase by oral contraceptive progestins in vitro

Androgenic disorders of female skin such as hirsutism, acne and alopecia are etiologically caused by androgen excess. Skin 5 alpha-reductase activity is a major factor influencing the manifestation of endogenous androgen excess in women. Oral contraceptives have proven useful for the treatment of androgen disorders of the skin. The mechanisms of action by which oral contraceptives correct skin androgen levels may include inhibition of 5 alpha-reductase and androgen receptor activity. We investigated the inhibitory effect of oral contraceptive progestins and ethinyl estradiol on skin 5 alpha-reductase and their influence on androgen receptor activity and affinity, using three different in vitro assay systems. It was shown that norgestimate blocked 5 alpha-reductase activity with an IC50 value of 10 microM, followed by levonorgestrel (IC50 52 microM), dienogest (IC50 55 microM), cyproterone acetate (IC50 87 microM) and gestodene (IC50 98 microM). To determine the full androgenic potential of the progestins, androgen receptor binding affinities and activation potentials were determined. The progestins norgestimate and dienogest in particular combined 5 alpha-reductase inhibition with minimal androgenic potential. These data demonstrate that the progestins norgestimate and dienogest might help in the treatment of clinical hyperandrogeny in women.

Comparative progestational activity of norgestimate, levonorgestrel-oxime and levonorgestrel in the rat and binding of these compounds to the progesterone receptor

The progestational activity of norgestimate (NORG), levonorgestrel-oxime (LNG-oxime) and levonorgestrel (LNG) were compared in a pregnancy maintenance study in rats. The compounds were administered subcutaneously to pregnant rats at several doses, blood samples were collected repeatedly, and the concentration of LNG was measured in these samples. It could be demonstrated that following the administration of NORG and LNG-oxime, LNG was a major metabolite present in the serum. The pharmacological response in rats treated with NORG and LNG-oxime could be related to the systemic exposure of these animals to metabolically derived LNG. Thus, both NORG and LNG-oxime can be regarded as pro-drugs of LNG, the latter being almost exclusively responsible for the pharmacological activity of both pro-drugs. This notion was further supported by studies on the comparative binding affinity of these compounds to rabbit and human progesterone receptor (PR). LNG exhibited the highest binding affinity of the compounds studied. Relative binding affinity (RBA) values of LNG using progesterone as reference (100%) were found to be 125% for rabbit PR (rPR), 143% for human uterine PR (hPR) and 125% for recombinant hPR, respectively. In contrast to LNG, NORG exhibited only a low affinity to the PR, which is documented by RBA values of 1.2% for rPR, 3.2% for uterine hPR and 9% for recombinant hPR. The corresponding values of LNG-oxime were 30% (rPR), 20% (uterine hPR) and 18% (recombinant hPR), respectively. Thus, the combined experimental evidence of the present study does not support the view of NORG being a progestogen on its own as has been suggested by others.

Comparative progestational and androgenic activity of norgestimate and levonorgestrel in the rat

The androgenic and the progestational activity of norgestimate (NORG) and levonorgestrel (LNG) were compared in two animal studies. During a Hershberger test in immature castrated male rats and a pregnancy maintenance test in pregnant rats, NORG and LNG were administered subcutaneously at several doses, serum samples were collected from each animal during the treatment period and the concentration of LNG was measured in these samples. It could be shown in both studies that in those animals which were treated with NORG, LNG was a major metabolite present in the serum. The difference in the pharmacological response in LNG- and NORG-treated rats was equivalent to the difference in the exposure of the animals to either directly administered or metabolically derived LNG. This was true for the androgenic and the progestational activity of NORG. It is concluded that according to the present results, NORG can be described as a pro-drug of LNG and that the latter is probably mainly responsible for the pharmacological effects observed during treatment with NORG. It cannot be excluded, however, that NORG itself or other metabolites of this drug may also contribute to the pharmacodynamic response.