Culture of Granulosa Cells in Collagen Gels: The Influence of Cell Shape on Steroidogenesis1

Abstract

The gonadotropic regulation of granulosa cells steroidogenesis in vitro has been shown to be accompanied by cellular rounding. In this study, the possible relationship between cell shape, microtubules, and granulosa cell steroidogenesis in vitro was further explored by culturing (24 h) granulosa cells obtained from antral follicles of pregnant mare’s serum gonadotropin-treated rats in either Eagles’s Minimum Essential Medium alone (MEM-cells) or in collagen gels (GEL-cells) in the absence or presence of colchicine, a microtubule-depolymerizing agent previously shown to inhibit cell-spreading in vitro. Cellular morphology was assessed by electron microscopy and compared with that seen in vivo. In addition, the influence of the various culture conditions on progesterone and 20 α-hydroxy-pregn-4-en-3-one (20 α-OH-progesterone) secretion was determined by specific radioimmunoassays. Whereas the majority of granulosa cells in sections of antral follicles appeared rounded in shape, cells cultured in MEM underwent considerable spreading and assumed a variety of shapes at the end of 24 h of culture. GEL-cells, on the other hand, remained rounded and had cellular diameters only slightly larger than those observed in vivo. They also secreted more progesterone (almost 3-fold) and less 20 α-OH-progesterone (0.6-fold) than MEM-cells. Colchicine increased the secretion of progesterone (1.6-fold) and 20 α-OH-progesterone (1.8-fold) comparably in MEM-cells but had no influence on the secretion of either progestin by GEL-cells. Hence, although colchicine-stimulated progestin secretion by granulosa cell monolayers appeared to reflect increased metabolism of substrate—possibly due to a closer association between lipid droplets and mitochondria, the elevated secretion of progesterone by GEL-cells may have been largely due to a shift in the equilibrium between progesterone and its inactive 20 α-reduced metabolite. The high ratio of 20 α-OH-progesterone to progesterone secretion seen in MEM-cultured cells may be an adaptation of granulosa cell metabolism to culture as monolayers on plastic or glass surfaces. The morphology of GEL-rather than MEM-cells resembled closely that seen in vivo. This culture method may represent a more physiologic approach to the maintenance of granulosa and other steroidogenic cells in vitro and provide a more appropriate means of assessing cytoskeletal function in the regulation of steroid hormone production.