Metabolism in vitro of cholesterol and 25-hydroxycholesterol by the larval prothoracic glands of Manduca sexta

Abstract

The prothoracic glands in vitro convert 25-hydroxycholesterol (25C) to 25-hydroxy-7-dehydrocholesterol (7d25C) and to ecdysteroids at a greater rate than cholesterol (C) is converted to ecdysteroids via 7-dehydrocholesterol (7dC). Mediated via a cytochrome P 450 most probably located in the endoplasmic reticulum (ER), both intact and extensively homogenized prothoracic glands, as well as crude subcellular fractions, were able to 7,8-dehydrogenate 25C to 7d25C eight-fold more efficiently than they could convert C to 7dC. However, less than a two-fold difference was observed in the subsequent monooxygenase mediated conversion of these two intermediates formed in situ into ecdysteroids, mainly ecdysone (E) and 2-deoxyecdysone (2dE) and/or their 3-dehydroderivatives. When 7dC, and particularly 7d25C, were made directly available to these tissue preparations, their conversion to ecdysteroids greatly exceeded that of the in situ conversion of either C or 25C, via 7dC or 7d25C, respectively. Indeed, there was an eight-fold increase in the V max for 25C dehydrogenation by homogenized glands relative to the dehydrogenation of C. Most important, however, was the 1000-fold increase in the V max observed for the direct production of E from emulsified 7d25C by gland homogenates relative to E production from 25C via 7d25C synthesized in situ. Thus, it is apparent that even after the rapid and efficient conversion of 25C to 7d25C within the ER, the subsequent rate of conversion of this intermediate to E is greatly retarded relative to that observed following the direct incubation of emulsified 7d25C with gland homogenates. These differential kinetics of direct and indirect 7d25C incorporation into E are interpreted as evidence for the existence of a barrier to the efficient translocation of the Δ 5,7-sterol intermediates from the ER to another site where the subsequent, uncharacterized initial conversions leading to ecdysteroids take place. On the basis of studies on mammalian adrenal cortical steroidogenesis, this site is postulated to be the inner membrane/matrix of the mitochondria. The present data support the hypothesis that the translocation of both 7dC and 7d25C, first from the site of their probable synthesis within the ER membranes, next through the cytosol to the outer mitochondrial membrane, and then across the intramitochondrial aqueous space to the inner membrane/matrix compartment, may be analogous to the translocation in the adrenal cortex of ER-derived C, first to the plasma membrane and/or to the outer mitochondrial membrane and then to the inner mitochondrial membrane/matrix for P 450scc-mediated conversion into pregnenolone.