1.Androgenic regulation of novel genes in the epididymis.
Bernard ROBAIRE ; Shayesta SEENUNDUN ; Mahsa HAMZEH ; Sophie-Anne LAMOUR
Asian Journal of Andrology 2007;9(4):545-553
The epididymis is critically dependent on the presence of the testis. Although several hormones, such as retinoids and progestins, and factors secreted directly into the epididymal lumen, such as androgen binding protein and fibroblast growth factor, might play regulatory roles in epididymal function, testosterone (T) and its metabolites, dihydrotestosterone (DHT) and estradiol (E2), are accepted as the primary regulators of epididymal structure and functions, with the former playing the greater role. To ascertain the molecular action of androgens on the epididymis, three complementary approaches were pursued to monitor changes in gene expression in response to different hormonal milieux. The first was to establish changes in gene expression along the epididymis as androgenic support is withdrawn. The second was to determine the sequence of responses that occur in an androgen deprived tissue upon re-administration of the two metabolites of T, DHT and E2. The third was to study the effects of androgen withdrawal and re-administration on gene expression in immortalized murine caput epididymidal principal cells. Specific responses were observed under each of these conditions, with an expected major difference in the panoply of genes expressed upon hormone withdrawal and re-administration; however, some key common features were the common roles of genes in insulin like growth factor/epidermal growth factor and the relatively minor and specific effects of E2 as compared to DHT. Together, these results provide novel insights into the mechanisms of androgen regulation in epididymal principal cells.
Androgens
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physiology
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Animals
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Dihydrotestosterone
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pharmacology
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Embryo, Mammalian
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physiology
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Epididymis
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physiology
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Estradiol
;
physiology
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Female
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Gene Expression Regulation
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drug effects
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Humans
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Leydig Cells
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physiology
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Male
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Placenta
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physiology
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Pregnancy
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Rats
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Rats, Inbred BN
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Testosterone
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physiology