Neuroactive steroid levels in plasma and cerebrospinal fluid of male multiple sclerosis patients.

Neuroactive steroid family includes molecules synthesized in peripheral glands (i.e., hormonal steroids) and directly in the nervous system (i.e., neurosteroids) which are key regulators of the nervous function. As already reported in clinical and experimental studies, neurodegenerative diseases affect the levels of neuroactive steroids. However, a careful analysis comparing the levels of these molecules in cerebrospinal fluid (CSF) and in plasma of multiple sclerosis (MS) patients is still missing. To this aim, the levels of neuroactive steroids were evaluated by liquid chromatography-tandem mass spectrometry in CSF and plasma of male adults affected by Relapsing-Remitting MS and compared with those collected in control patients. An increase in pregnenolone and isopregnanolone levels associated with a decrease in progesterone metabolites, dihydroprogesterone, and tetrahydroprogesterone was observed in CSF of MS patients. Moreover, an increase of 5α-androstane-3α,17ß-diol and of 17ß-estradiol levels associated with a decrease of dihydrotestosterone also occurred. In plasma, an increase in pregnenolone, progesterone, and dihydrotestosterone and a decrease in dihydroprogesterone and tetrahydroprogesterone levels were reported. This study shows for the first time that the levels of several neuroactive steroids, and particularly those of progesterone and testosterone metabolites, are deeply affected in CSF of relapsing-remitting MS male patients. We here demonstrated that, the cerebrospinal fluid and plasma levels of several neuroactive steroids are modified in relapsing remitting multiple sclerosis male patients. Interestingly, we reported for the first time that, the levels of progesterone and testosterone metabolites are deeply affected in cerebrospinal fluid. These findings may have an important relevance in therapeutic and/or diagnostic field of multiple sclerosis.

Experimental epothilone B neurotoxicity: results of in vitro and in vivo studies.

Epothilones are a novel class of microtubule-targeting anticancer agents that are neurotoxic. In this study, we investigated the epothilone B toxic effect in vitro and we characterized in vivo the general and neurological side effects of epothilone B administration in Wistar and Fischer rats. The in vitro experiments made it possible to explore a wide concentration range (0.1 nM-1 muM) and evidenced a dose-dependent effect of epothilone B exposure on neuron neurite elongation. This dose-dependent neurotoxic effect was confirmed in both in vivo studies performed on two different rat strains at the neurophysiological, behavioral and pathological levels in the dose range 0.25-1.5 mg/kg iv weekly x 4 weeks and tubulin hyper-polymerization was demonstrated in sciatic nerve specimens. These are the first studies of the neurological effects of epothilone B and they can provide a basis for extending pre-clinical investigation to other members of the epothilone family.

Docetaxel-induced peripheral neuropathy: protective effects of dihydroprogesterone and progesterone in an experimental model.

Peripheral neurotoxicity is a frequent complication limiting docetaxel chemotherapy in patients with cancer. We developed an experimental model that closely mimics the course of neuropathy in patients, aiming to investigate both the mechanisms of neurotoxicity at biochemical, functional and morphological levels and the potential neuroprotective role of neuroactive steroids. We demonstrated that treatment with dihydroprogesterone (DHP) or progesterone (P) counteracts docetaxel-induced neuropathy, preventing nerve conduction and thermal threshold changes, and degeneration of skin nerves in the foodpad. Neuroactive steroids also counteract the changes in gene expression of several myelin proteins and calcitonin gene-related peptide induced by docetaxel in sciatic nerve and lumbar spinal cord, respectively. Most nerve abnormalities observed during the treatment with docetaxel spontaneously recovered after drug withdrawal, similarly to what occurs in patients. However, results of midterm follow-up experiments indicated that animals cotreated with DHP or P have a faster recovery of the neuropathy compared with docetaxel-treated rats. Our study confirmed that neuroactive steroids exert a protective effect on peripheral nerves at different levels, suggesting that they might represent a new therapeutic frontier for patients with chemotherapy-induced neuropathy.

Effects of estradiol alone or in combination with cyproterone acetate on carotid artery pulsatility index in postmenopausal women.

OBJECTIVES: The incidence of cardiovascular disease (CVD) increases dramatically with the loss of ovarian function. Observational studies indicate that the risk of CVD may be reduced by up to 50% in postmenopausal women who take estrogen replacement therapy. Estrogen therapy reduces internal carotid artery pulsatility index (PI). The improvement in carotid PI following HRT has been proposed as a marker of the cardioprotective effect of estrogen therapy. Cyclical progesterone addition to ERT partially antagonizes the reduction on the carotid artery PI. As progesterone, androgens has been shown to decreases arterial vasodilatation and carotid PI. To our knowledge no information is available regarding the effect of CPA addition on the carotid artery PI in women taking estrogen replacement therapy. METHODS: We recruited a total of 30 women in postmenopause for at least 12 months and were in good health. Fifteen women were postmenopausal following surgical bilateral oophorectomy for benign condition. Fifteen postmenopausal women received estradiol valerate for 21 days and CPA (1 mg) for 10 days for 3 months (Group E/CPA). Ovarectomized women (n=15) received estradiol hemihydrate (2 mg) for 3 months (Group E). The main factor investigated was PI, an indicator of impedence to blood flow down stream. Doppler US were performed before the start and at the end of the therapy. RESULTS: The mean reductions respect to basal values were 11.5% in women treated with E and 10.8% in women treated with E/CPA. No significant difference was found between treatment values. CONCLUSIONS: The results of the present study demonstrate that cyproterone acetate addition to E do non-antagonize the effect of estrogen on carotid artery PI. The present study demonstrate that both estradiol hemihydrate and estradiol valerate plus cyproterone acetate lead to similar improvement in carotid artery; through this mechanism both treatments could potentially reduce the incidence of cerebrovascular disease in postmenopausal women.