Abstract
Mammalian ovarian follicular development is tightly regulated by crosstalk between cell death and survival signals, which include both endocrine and intra-ovarian regulators. Whether the follicle ultimately ovulates or undergoes atresia is dependent on the expression and actions of factors promoting follicular cell proliferation, differentiation or apoptosis. Prohibitin (PHB) is a highly conserved, ubiquitous protein that is abundantly expressed in granulosa cells (GCs) and associated with GC differentiation and apoptosis. The current study was designed to characterize the regulation of anti-apoptotic and pro-apoptotic factors in undifferentiated rat GCs (gonadotropin independent phase) governed by PHB. Microarray technology was initially employed to identify potential apoptosis-related genes, whose expression levels within GCs were altered by either staurosporine (STS) alone or STS in presence of ectopically over-expressed PHB. Next, immunoblot studies were performed to examine the expression patterns of selective Bcl-2 family members identified by the microarray analysis, which are commonly regulated in the intrinsic-apoptotic pathway. These studies were designed to measure protein levels of Bcl2 family in relation to expression of the acidic isoform (phosphorylated) PHB and the components of MEK-Erk1/2 pathway. These studies indicated that over-expression of PHB in undifferentiated GCs inhibit apoptosis which concomitantly results in an increased level of the anti-apoptotic proteins Bcl2 and Bclxl, reduced release of cytochrome c from mitochondria and inhibition of caspase-3 activity. In contrast, silencing of PHB expression resulted in change of mitochondrial morphology from the regular reticular network to a fragmented form, which enhanced sensitization of these GCs to the induction of apoptosis. Collectively, these studies have provided new insights on the PHB-mediated anti-apoptotic mechanism, which occurs in undifferentiated GCs through a PHB → Mek-Erk1/2 → Bcl/Bcl-xL pathway and may have important clinical implications.
Highlights
Apoptosis is a genetically controlled cellular suicide mechanism that plays a crucial role in the development and defense of homeostasis in each organ system
In AdeGFP-PHB infected cells, we observed enhanced expression of pErk compared to parallel control or AdeGFP infected cells or treated with STS (Fig. 2A). These results suggest that over-expression of PHB may, at least in part, exert its protective effects by suppressing STSinduced apoptotic gene expression (Bax and Bak) and enhancing expressions of the anti-apoptotic proteins in granulosa cells (GCs)
When AdshPHB infected undifferentiated GCs were treated with STS, the mitochondrial reticulate network were more sensitized and fragmented and appeared as a punctuated form compared to STS treated adenoviral shRNA (AdshRNA) infected GCs. This current study demonstrates that PHB plays an antiapoptotic role in the mitochondrial intrinsic apoptotic pathway and regulates expression of the Bcl family proteins in STS induced apoptotic model of rat ovarian undifferentiated GCs
Summary
Apoptosis is a genetically controlled cellular suicide mechanism that plays a crucial role in the development and defense of homeostasis in each organ system. More than 99 % of follicles disappear, primarily due to apoptosis of granulosa cells (GCs) during follicular growth and development [1, 2]. Ovarian GCs play an important physiological role in supporting the development and selection of the ovarian follicle by controlling oocyte maturation and by producing the steroid hormones, estradiol and progesterone, that are critical for maintenance of the ovarian cycle. Both biochemical and morphological characteristics of apoptosis have been observed in the GCs of atretic follicles [3,4,5]. Studies from our laboratory have shown that prohibitin (PHB) is one of the survival factors in undifferentiated rat GCs [8,9,10]
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