The gonadotrophins LH, FSH and human (h) CG are non-covalent heterodimers composed of a common alpha and the hormone-unique beta subunit. LH regulates the production of androgens and progestins in the follicle, and the levels of these steroids are critical for the ovarian function. Structural features of the gonadotrophins involved in the steroidogenic response of the ovary are not completely understood. As an approach to address how the topology of the ligand affects steroidogenesis we exploited the single-chain (SC) gonadotrophin methodology because manipulating the relative position of the tethered subunit domains in SC hCG analogs enabled to change in the conformation, secretion, receptor binding and adenylyl cyclase activity. We genetically engineered a SC bovine LH analog with a linker derived from the CTP domain of the hCGbeta subunit, NH2-alpha-CTP-LHbeta-COOH (denoted as alphaCTPLHbeta; AB configuration) and evaluated the secretion form transfected CHO cells and steroidogenesis in follicular derived cells in comparison to the variant NH2-LHbeta-CTP-alpha-COOH (LHbetaCTPalpha; BA configuration). The secretion of the analogs from CHO cells was quantitative, and that of alphaCTPLHbeta was more efficient than that of LHbetaCTPalpha The experiments suggested that both variants were N- and O- glycosylated, though the posttranslational modifications are likely to be non-identical in the AB and BA analogs. The analogs stimulated progesterone secretion by immortalized rat granulosa cells that express the rat LH receptor but the EC50 of alphaCTPLHbeta (AB orientation) was higher by 20 fold, as compared to LHbetaCTPalpha (BA). In primary cultures of bovine theca cells, alphaCTPLHbeta stimulated progesterone release with a reduced sensitivity (by at least 50 folds) and smaller magnitude over the basal levels (about 3 folds) relative to LHbetaCTPalpha. In contrast, the accumulation of androstenedione in the media of the same primary cultures appeared to be nearly identical. As a result, the androstenedione/progesterone ratio for the alphaCTPLHbeta analog was significantly increased relative to LHbetaCTPalpha (2-3 folds). This unequal response suggests a distinct regulation of progesterone and androstenedione biosynthesis. Our data demonstrate major differences in steroid balance following stimulation of the receptor with structural LH analogs and provide further insight into gonadotrophin regulation of ovarian steroid production.

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http://dx.doi.org/10.1016/j.mce.2007.11.019DOI Listing

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