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Endocrinology, Vol 116, 1745-1754, Copyright © 1985 by Endocrine Society
ARTICLES |
DR Aquilano, CH Tsai-Morris, MA Hattori and ML Dufau
In order to define the early lesion (before pregnenolone formation) of the androgen biosynthetic pathway induced by human CG (hCG) or LH in the Leydig cell, we initially have optimized the use of aminoglutethimide to obtain maximal and sustained inhibition of steroidogenesis in vivo and in vitro. Aminoglutethimide inhibited Leydig cell steroidogenesis in vitro at a dose of 100 micrograms/ml. The minimal serum concentration of aminoglutethimide necessary for maximal inhibition of testosterone in vivo was also 100 micrograms/ml (1 h after the ip injection of 20 mg aminoglutethimide). However, testosterone levels were normal 12 h later, coincident with a marked fall in the serum aminoglutethimide levels. The t 1/2 of the circulating aminoglutethimide was 5 +/- 0.7 h on the first day of treatment but was reduced to 3.0 +/- 0.4 and 2.25 +/- 0.35 h at 2 and 3 days of treatment. At the dose eliciting maximal and sustained steroid inhibition (60 mg/day) aminoglutethimide was able to prevent the estradiol-dependent late steroidogenic lesion (after pregnenolone formation) induced by 1 microgram hCG, with no effect on the early lesion (before pregnenolone formation) caused by 10 micrograms hCG. The aminoglutethimide-induced in vivo accumulation of cholesterol in the inner mitochondrial membrane (by 50%) was associated with an increase in the production of testosterone and pregnenolone by the Leydig cell when subsequently incubated in vitro. Similar increases in the steroidogenic capacity were observed after initial exposure of Leydig cells to aminoglutethimide in vitro, even after acid wash to remove the surface-bound endogenous LH. The steroidogenic cholesterol was also increased in desensitized Leydig cells (by 50-70%); however, the conversion of cholesterol to pregnenolone was substantially blocked in animals with the early lesion. Our findings define the requirement of increasing high levels of aminoglutethimide to inhibit cholesterol metabolism and provide a dose schedule suitable for studies on cholesterol availability and inhibition of steroidogenesis in the rat. These results support our proposal that the early lesion observed in desensitized Leydig cells is due to inhibition of the side-chain cleavage activity rather than to a decrease in the amount of metabolically available cholesterol.
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