Destruction of the Germinal Disc Region of an Immature Preovulatory Chicken Follicle Induces Atresia and Apoptosis¹

^a Department of Animal Sciences, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801

The germinal disc region (GDR), which contains the germinal disc and overlying granulosa cells, is essential for completion of maturation of the preovulatory chicken follicle. The current study was conducted to test the hypothesis that destruction of the GDR (GDRX) of an immature preovulatory chicken follicle blocks ovulation, induces apoptosis, and causes atresia. The GDR of immature preovulatory follicles (F2) were destroyed by freezing with dry ice (3 mm in diameter) 48–50 h before ovulation. As a control for the effect of freezing, a nonGDR portion (a portion of the follicular wall opposite to the GDR relative to the follicular stalk) of other F2 follicles were destroyed (nonGDRX). Treatment of F2 follicles by GDRX caused atresia and blocked ovulation of all treated follicles (6 of 6), whereas none of the nonGDRX follicles (0 of 5) underwent atresia. Treatment of follicles by GDRX induced apoptotic DNA fragmentation (laddering) in theca and granulosa layers obtained from the frozen area and in the theca layer obtained from the follicular wall distal to the frozen area. In contrast, apoptosis was only present in theca and granulosa layers in the frozen area of the nonGDRX follicle. Furthermore, the in situ DNA end-labeling technique demonstrated that in the GDRX follicle 24 h after treatment, cells in the theca interna, endothelial cells in blood vessels of the theca externa, and a few granulosa cells underwent apoptosis. These results indicate that destruction of the GDR of an immature preovulatory follicle causes atresia and apoptosis and blocks ovulation. These novel findings suggest that the GDR maintains development of the chicken preovulatory follicle by producing one or more survival factors. Without the GDR, chicken follicles cannot develop further and they eventually die.

¹ Supported by National Science Foundation (NSF IBN–92–07535 and IBN–96–30957) and the Cooperative State Research, Education and Extension Service, U.S. Department of Agriculture (#35–324). This work was presented at the 30th annual meeting of the Society for the Study of Reproduction, Portland, Oregon, 1997; Abstract 173. H.H.-C.Y. and K.K.V. contributed equal amount of work on this project.

² Correspondence: Janice M. Bahr, ASL 326, 1207 West Gregory Drive, Urbana, IL 61801. FAX: (217) 333–8286; j-bahr{at}uiuc.edu

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