Abstract
Recent advances in the field of cell death, primarily derived from gene-transfer experiments and manipulation of tumor cell lines in vitro, have identified key genes responsible for determining whether or not a given cell will initiate apoptosis. However, comparatively less is known of the role that the products of these genes play in physiological settings of cell death. In the ovary, a tremendous level of normal cell death takes place in the germline throughout the later stages of fetal development. This process is responsible for setting the absolute number of oocytes (`eggs') available for subsequent development and ovulation during adult life. Interestingly, death remains the fate of the vast majority of oocytes that survive the waves of attrition during fetal life and are endowed in the post-natal ovary as primordial follicles. This pool of oocytes is lost indirectly as a consequence of the death of the somatic (granulosa) cells that, in the case of a small percentage of the total follicles, support and nourish the oocyte until its release at ovulation. Due to the magnitude of cell death that occurs normally within the female gonad during both fetal development and post-natal life, the ovary has proven to be an excellent model to study the role of cell death genes in a physiological setting of endocrine-regulated apoptosis. It is now known that a diverse spectrum of pro- and anti-apoptosis susceptibility genes, including members of the bcl-2 and CASP (ced-3/Ice) gene families, are expressed in germ cells and/or somatic cells of the ovary. Many, but not all, of these genes are regulated by specific survival factors, such as gonadotropins and growth factors, and changes in the temporal patterns of cell death gene expression suggest an intimate association exists between the products of these genes and activation of cellular suicide. Moreover, pathological oocyte destruction, such as that triggered by exposure of female germ cells to chemotherapeutic compounds or environmental toxicants, may also be dependent upon gene-driven apoptosis. As such, this review will discuss data supporting the hypothesis that the susceptibility of ovarian cells to death induction is dependent upon the pattern of cell death gene expression occurring within those cells prior to and/or concomitant with receipt of the stimulus for apoptosis. Elucidation of the relationship between germ cell loss and cell death genes may allow future intervention into the process of oocyte depletion associated with normal and pathophysiological reproductive senescence.
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Tilly, J., Tilly, K. & Perez, G. The genes of cell death and cellular susceptibility to apoptosis in the ovary: a hypothesis. Cell Death Differ 4, 180–187 (1997). https://doi.org/10.1038/sj.cdd.4400238
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DOI: https://doi.org/10.1038/sj.cdd.4400238
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