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Query: UMLS:C0033377 (
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11,717
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Some mutations in FOXL2 result in premature ovarian failure accompanied by blepharophimosis,
ptosis
, epicanthus inversus syndrome type I disease, and FOXL2-null mice exhibit developmental defects in granulosa cells. Recently, FOXL2 c.402C>G, a new somatic mutation that leads to a p.C134W change, was found in the majority of adult-type ovarian granulosa cell tumors (GCTs). In this study, we investigated the possible mechanisms by which the C134W mutation contributes to the development of GCTs. Wild-type (WT) and mutant FOXL2 displayed differential apoptotic activities. Specifically, WT FOXL2 induced significant granulosa cell death, but the mutant exhibited minimal cell death. The FOXL2-induced apoptotic response was greatly dependent on caspase 8, BID and BAK because the depletion of any of these three proteins inhibited FOXL2 from eliciting the full apoptotic response. Activation of caspase 8 and subsequent increased production of truncated BID, and oligomerization of BAK, and release of cytochrome c were all associated with the apoptosis induced by WT FOXL2 expression. In contrast, the mutant FOXL2 was unable to elicit the full array of apoptotic signaling responses. In addition, we found differential TNF-R1 (tumor necrosis factor-receptor 1) and Fas (CD95/APO-1) upregulation between the WT and the mutant, and the silencing of TNF-R1 or Fas and the blockage of the death signaling mediated by TNF-R1 or Fas using TNF-Fc or Fas-Fc, respectively, resulted in significant attenuations of FOXL2-induced apoptosis. Moreover, granulosa cells that expressed either WT FOXL2 or mutant exhibited distinct cell death sensitivities on activation of death receptors and deprivation of serum. Thus, the differential activities of FOXL2 and its mutant may partially account for the pathophysiology of
GCT
development.
...
PMID:Differential apoptotic activities of wild-type FOXL2 and the adult-type granulosa cell tumor-associated mutant FOXL2 (C134W). 2111 1
FOXL2 is a gene encoding a forkhead transcription factor. Its mutations or misregulation have been shown to cause the blepharophimosis-
ptosis
-epicanthus inversus (BPES) syndrome and more recently have been associated with the development of Ovarian
Granulosa Cell Tumors
(OGCT). BPES is a genetic disorder involving mild craniofacial abnormalities often associated with premature ovarian failure. OGCTs are endocrine malignancies, accounting for 2-5% of ovarian cancers, the treatment of which is still challenging. In this review we summarize recent data concerning FOXL2 transcriptional targets and molecular partners, its post-translational modifications, its mutations and its involvement in newly discovered pathophysiological processes. In the ovary, FOXL2 is involved in the regulation of cholesterol and steroid metabolism, apoptosis, reactive oxygen species detoxification and cell proliferation. Interestingly, one of the main roles of FOXL2 is also to preserve the identity of ovarian granulosa cells even at the adult stage and to prevent their transdifferentiation into Sertoli-like cells. All these recent advances indicate that FOXL2 is central to ovarian development and maintenance. The elucidation of the impact of FOXL2 germinal and somatic mutations will allow a better understanding of the pathogenesis of BPES and of OGCTs.
...
PMID:The transcription factor FOXL2: at the crossroads of ovarian physiology and pathology. 2176 50
