Progesterone, 5a-dihydropogesterone and allopregnanolone's effects on seizures: A review of animal and clinical studies.

The anti-seizure effects of progesterone family compounds have long been known. Over the years, however, most studies have focused on progesterone and on its secondary metabolite allopregnanolone (ALLO), with less attention being paid to its primary metabolite 5a-dihydroprogesterone (DHP). Here we review animal and clinical studies related to the anti-seizure effects of progesterone and its 5a neuroactive metabolites, including DHP and ALLO. Progesterone and its reduced metabolites all have demonstrated seizure-suppression effects in animal models - except in models of absence seizures - with the common side effects of sedation and ataxia. Progesterone and ALLO have also shown anti-seizure effects in clinical trials. A large Phase III trial has revealed that female patients with premenstrual exacerbations of seizures benefit most from progesterone therapy. A liquid suspension of ALLO has also been tested in patients with supra-refractory status epilepticus with some success in a small phase II trial. ALLO's C3 methyl analog ganaxolone is under development as an anti-seizure drug. Progesterone's anti-seizure effects are mostly independent of its genomic receptors and are, in large part, due to its active metabolites. ALLO is a potent allosteric modulator of GABA receptors. Other membrane receptors are thought to be involved in the DHP's anti-seizure actions, but their exact nature is not yet known. Potential drawbacks to the development of progesterone family compounds as anti-seizure drug are their endocrine effects. These compounds might form a basis for the future development of novel anti-seizure drugs, however, with hormonal side effects being mitigated through rational drug design.

Pregnancy in a patient with premature ovarian failure.

BACKGROUND: Premature ovarian failure (POF) occurs in about one in 100 women under 40 years of age. The authors report a case of a POF patient who conceived during hormonal replacement therapy (HRT). CASE: A 24-year-old woman with confirmed POF conceived spontaneously during HRT. CONCLUSION: Pregnancy is possible in women with POF.

Neuroprotective effects of dihydroprogesterone and progesterone in an experimental model of nerve crush injury.

A satisfactory management to ensure a full restoration of peripheral nerve after trauma is not yet available. Using an experimental protocol, in which crush injury was applied 1 cm above the bifurcation of the rat sciatic nerve for 20 s, we here demonstrate that the levels of neuroactive steroids, such as pregnenolone and progesterone (P) metabolites (i.e. dihydroprogesterone, DHP, and tetrahydroprogesterone, THP) present in injured sciatic nerve were significantly decreased. On this basis, we have focused our attention on DHP and its direct precursor, P, analyzing whether these two neuroactive steroids may have neuroprotective effects on biochemical, functional and morphological alterations occurring during crush-induced degeneration-regeneration. We demonstrate that DHP and/or P counteract biochemical alterations (i.e. myelin proteins and Na(+),K(+)-ATPase pump) and stimulate reelin gene expression. These two neuroactive steroids also counteract nociception impairment, and DHP treatment significantly decreases the up-regulation of myelinated fibers' density occurring in crushed animals. Altogether, these observations suggest that DHP and P (i.e. two neuroactive steroids interacting with progesterone receptor) may be considered protective agents in case of nerve crush injury.

Progesterone and its derivatives are neuroprotective agents in experimental diabetic neuropathy: a multimodal analysis.

One important complication of diabetes is damage to the peripheral nervous system. However, in spite of the number of studies on human and experimental diabetic neuropathy, the current therapeutic arsenal is meagre. Consequently, the search for substances to protect the nervous system from the degenerative effects of diabetes has high priority in biomedical research. Neuroactive steroids might be interesting since they have been recently identified as promising neuroprotective agents in several models of neurodegeneration. We have assessed whether chronic treatment with progesterone (P), dihydroprogesterone (DHP) or tetrahydroprogesterone (THP) had neuroprotective effects against streptozotocin (STZ)-induced diabetic neuropathy at the neurophysiological, functional, biochemical and neuropathological levels. Using gas chromatography coupled to mass-spectrometry, we found that three months of diabetes markedly lowered P plasma levels in male rats, and chronic treatment with P restored them, with protective effects on peripheral nerves. In the model of STZ-induced of diabetic neuropathy, chronic treatment for 1 month with P, or with its derivatives, DHP and THP, counteracted the impairment of nerve conduction velocity (NCV) and thermal threshold, restored skin innervation density, and improved Na(+),K(+)-ATPase activity and mRNA levels of myelin proteins, such as glycoprotein zero and peripheral myelin protein 22, suggesting that these neuroactive steroids, might be useful protective agents in diabetic neuropathy. Interestingly, different receptors seem to be involved in these effects. Thus, while the expression of myelin proteins and Na(+),K(+)-ATPase activity are only stimulated by P and DHP (i.e. two neuroactive steroids interacting with P receptor, PR), NCV, thermal nociceptive threshold and intra-epidermal nerve fiber (IENF) density are also affected by THP, which interacts with GABA-A receptor. Because, a therapeutic approach with specific synthetic receptor ligands could avoid the typical side effects of steroids, future experiments will be devoted to evaluating the role of PR and GABA-A receptor in these protective effects.

Increase in circulating levels of cardiac natriuretic peptides after hormone replacement therapy in postmenopausal women.

The mechanisms that mediate the cardioprotective action of steroid hormones in postmenopausal women are poorly understood. To study the inter-relationship between female steroid hormones and cardiac natriuretic peptides, plasma levels of atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP) were measured in postmenopausal women, both before and after oestrogen replacement therapy. A total of 22 healthy postmenopausal women (mean age 51.9+/-4.6 years) were enrolled in the study; all had been postmenopausal for at least 1 year and all reported climacteric symptoms accompanied by increased levels of follicle-stimulating hormone (>30 m-i.u./ml) and luteinizing hormone (>20 m-i.u./ml), and a reduction in oestradiol (<25 pg/ml). All women were given hormone replacement therapy with transdermal oestradiol, either patch (50 microg/24 h) or gel (1 mg/day), cyclically combined with oral dihydrogesterone (10 mg/day for 12 days/month, on days 19-30 of the month). ANP and BNP were measured directly in plasma samples with specific and sensitive immunoradiometric assays before and after hormone replacement therapy (transdermal oestradiol combined with oral dihydrogesterone). Body weight, arterial blood pressure and echocardiographic examination values did not change after hormone replacement therapy. As expected, serum oestradiol increased significantly and gonadotropins decreased as an effect of the hormone replacement therapy. On average, both ANP and BNP had increased significantly after 3 months of hormone replacement therapy [ANP: before treatment, 17.6+/-9.6 pg/ml; after, 23.6+/-5.6 pg/ml (P=0.0173); BNP: before treatment, 12.6+/-10.2 pg/ml; after, 19.8+/-14.0 pg/ml (P<0.0001)]. Our study indicates that hormone replacement therapy for a period of 3 months induces a rise in the circulating levels of cardiac natriuretic hormones in postmenopausal women. Our data also suggest the working hypothesis that cardiac natriuretic peptides may play an important role in mediating the cardioprotective effects of female steroid sex hormones in women throughout life.

[Effect of the treatment with femoston on the cardiovascular system in postmenopausal women]. / Vliianie lecheniia femostonom na serdechno-sosudistuiu sistemu u zhenshchin v postmenopauze.

AIM: To assess femoston effects on the cardiovascular system in postmenopause. MATERIAL AND METHODS: Cardiovascular effects of femoston were studied in 20 postmenopausal women with menopausal syndrome. 70% patients had arterial hypertension. Cardiovascular system was examined before the treatment and after three treatment months using 24-h monitoring of arterial pressure, echocardiography, photoplethysmography, conjunctival biomicroscopy, central hemodynamics tests. RESULTS: In the course of femoston treatment menopausal manifestations relieved, arterial pressure was lowering. 3-month treatment has improved parameters of central and peripheral hemodynamics: total peripheral vascular resistance significantly fell, stroke and minute blood volumes, cardiac indexrose, tissue blood flow and microcirculation improved. CONCLUSION: Femoston produces positive changes in cardiovascular system, vascular tone, microcirculation and arterial pressure.

Methodological issues in studies of premenstrual changes.

The main methodological issues that should be considered in studies of premenstrual changes are discussed. They include: the selection of well-defined groups of subjects who reflect the diversity of subtypes of premenstrual changes (PMC); the confirmation of retrospective reports through daily monitoring of changes by ratings, or by objective procedures when possible; the need to consider the diversity of premenstrual biological changes instead of comparing average levels, since there is a likelihood that different pathophysiological changes are connected with diverse behavioral and mood changes; application of a multivariate, time-related approach to explore the pathophysiology of PMC; the need to exclude placebo responders prior to the active drug phase in treatment trials and the need for such trials to be double-blind, placebo-controlled and, if possible, of a cross-over design. Attention to such issues should lead to increased consistency of findings across studies and eventually to a better understanding of the pathophysiology of PMC and to a rational, effective treatment.