Gonadal steroid hormones influence vascular tone and the development of hypertension. There are sex differences in the incidence of cardiovascular diseases, and great attention has been placed on the study of estrogen cardiovascular effects. However, there are only a few reports on the effects of testosterone on the vasculature. It is commonly accepted that the mechanism of the action of steroid hormones on target tissues is mediated through the binding of hormones to cytoplasmic or nuclear receptors. However, some studies indicate that steroid action can be extremely rapid and therefore unlikely to be through a genomic mechanism. The purpose of this study was to assess the effect of intravascularly confined testosterone on an isolated rat heart to demonstrate acute and possibly nongenomic effects of the steroid. Our results show that testosterone blocked the adenosine vasodilator effect and increased vascular resistance, even when its presence was restricted to the coronary vascular lumen. These effects were exerted rapidly and possibly through nongenomic mechanisms.
17Beta-estradiol (E2) plays an important role in Ca2+ fluxes in several cell types. It has been proposed that some of its effects are of nongenomic origin E2 at vascular smooth muscle level can block calcium entry through L-type calcium channels, this mechanism cannot include vascular endothelial cells (VECs), in which increases in the intracellular calcium concentration ([Ca2+]i) are necessary to NO synthesis. We used male rat aorta ECs in culture loaded with fura-2 and a fluorescence imaging system to evaluate the short-term effects of E2 on [Ca2+]i kinetics. We explored the participation of the intracellular steroid receptor on the effects induced by E2, using tamoxifen (1 microM) and ICI 182,780 (10 microM). Our results showed that E2 (like bradykinin) induced an increase in [Ca2+]i. Such agonist-like effects showed a biphasic curve behavior. The 17beta-estradiol effects were not modified by the presence of the intracellular estradiol-receptor antagonist tamoxifen, but it is blocked in the presence of the ICI 182,780. The 17beta-estradiol effects were obtained even with restriction of steroid-free diffusion into cells (17beta-estradiol-bovine serum albumin). Phospholipase Cbeta activity is involved in these effects, because U-73122, a PLCbeta inhibitor, blocked E2 effects. All E2 effects were of rapid onset (milliseconds), exerted at the membrane level, and of rapid offset. We conclude that estradiol can influence the endothelium physiologic responses through effects of nongenomic origin.
The objective of this work was to evaluate the effects of testosterone (T) and 17beta-estradiol (E(2)) on coronary microvascular endothelial cells (CMECs) of male and female rats. To analyze the short-term effects of such sex steroid hormones on intracellular Ca(2+) concentration ([Ca(2+)](i)) kinetics, we used the chelating agent fura-2 acetoxymethyl ester. We also explored the possibility of testosterone aromatization by using selective inhibitors of the aromatase enzyme cytochrome P-450 aromatase (P450(arom)), aminoglutethimide (4 microM), and 4-hydroxyandrostenedione (4 microM). The presence of P450(arom) was investigated by immunocytochemical and immunoblot assays using peptide-generated polyclonal antibodies raised against a 20-amino acid synthetic fragment of rat P450(arom) and by in situ hybridization to locate the aromatase mRNA in such cells. The activity of P450(arom) was demonstrated by the stereospecific loss of the tritium atom of [1beta-(3)H]androstenedione. Our results indicate that both T and E(2) induced a rapid increase in [Ca(2+)](i). The fact that the effects of E(2) and T were carried out within milliseconds suggests that they were exerted at the membrane level and not through intracellular receptors. The possibility of involvement of PLC-beta in these effects is suggested because U-73122 (a PLC inhibitor) blocked the effects of both T and E(2). Immunocytochemical assays indicated the expression of androgenic and estrogenic receptors in these cells. The effects of T were blocked by the selective aromatase inhibitors. We also demonstrated membrane association of P450(arom), expression of the ovary-specific mRNA after in situ hybridization, and E(2) formation resulting from a significant activity of P450(arom) in CMECs. There were no gender-based differences.
Four 46,XY siblings with congenital bilateral megalorchidia, marcogenitosomia, and severe mental deficiency were investigated. The testicular size was significantly larger than age-matched normal males. A normal hypothalamic-pituitary gonadotropin function was demonstrated by the finding of normal levels of luteinizing and follicle-stimulating hormones in blood samples drawn at frequent intervals and by normal responses to gonadotropin-releasing hormone and testosterone administration. A normal testicular function was shown by the finding of normal (a) plasma testosterone and estradiol levels, (b) gonadal response to human chorionic gonadotropin, (c) sperm analysis, and (d) morphology and cell architecture of the testes. Adrenal function was found to be within normal limits. These results demonstrated the existence of normofunctional testicular hyperplasia. The family studies suggested that this distinct congenital disorders is inherited as an X-linked recessive trait.
Three 46,XY unrelated individuals out of 84 postpubertal male inpatients with severe mental deficiency in a psychiatric hospital were found to have megalorchidia and macrogenitosomia. One of the cases had a similarly affected brother. Endocrine studies were performed in two of the cases with similar results. Normal plasma levels of pituitary gonadotropins were found. A normal testicular function was demonstrated by the finding of normal: (a) baseline plasma testosterone levels and a significant rise following human chorionic gonadotropin administration, (b) sperm analysis, and (c) morphology and cell architecture of the testes. These results were compatible with normofunctional testicular hyperplasia confirming previous observations and allowing the definite individualization of a syndrome with mental deficiency probably due to an X-linked recessive mutation.
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