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Bioscientifica Proceedings (2019) 4 RDRRDR26 | DOI: 10.1530/biosciprocs.4.026

Department of Medicine, Flinders University of South Australia, Bedford Park, South Australia 5042, Australia


The cellular biology and changes in the extracellular matrix of ovarian follicles during their development are reviewed. During growth of the bovine ovarian follicle the follicular basal lamina doubles 19 times in surface area. It changes in composition, having collagen IV α1–26 and laminin α1, ß2 and γl at the primordial stage, and collagen IV α1 and α2, reduced amounts of α3–α5, and a higher content of laminin α1, ß2 and γl at the antral stage. In atretic antral follicles laminin α2 was also detected. The follicular epithelium also changes from one layer to many layers during follicular growth. It is clear that not all granulosal cells have equal potential to divide, and we have evidence that the granulosal cells arise from a population of stem cells. This finding has important ramifications and supports the concept that different follicular growth factors can act on different subsets of granulosal cells. In antral follicles, the replication of cells occurs in the middle layers of the membrana granulosa, with older granulosal cells towards the antrum and towards the basal lamina. The basal cells in the membrana granulosa have also been observed to vary in shape between follicles. In smaller antral follicles, they were either columnar or rounded, and in follicles >5 mm the cells were all rounded. The reasons for these changes in matrix and cell shapes are discussed in relation to follicular development.

© 1999 Journals of Reproduction and Fertility Ltd

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