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Query: UMLS:C0276640 (
TEM
)
20,729
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We report a short-term culture system that allows to define novel characteristic of programmed cell death (PCD) in fetal oocytes and to underscore new aspects of this process. Mouse fetal oocytes cultured in conditions allowing meiotic prophase I progression underwent apoptotic degeneration waves as revealed by TUNEL staining.
TEM
observations revealed recurrent atypical apoptotic morphologies characterized by the absence of chromatin margination and nuclear fragmentation; oocytes with autophagic and necrotic features were also observed. Further characterization of oocyte death evidenced DNA ladder, Annexin V binding, PARP cleavage, and usually caspase activation (namely caspase-2). In the aim to modulate the oocyte death process, we found that the addition to the culture medium of the pan-caspase inhibitors Z-VAD or caspase-2-specific inhibitor Z-VDVAD resulted in a partial and transient prevention of this process. Oocyte death was significantly reduced by the antioxidant agent NAC and partly prevented by KL and IGF-I growth factors. Finally, oocyte apoptosis was reduced by
calpain inhibitor
I and increased by rapamycin after prolonged culture. These results support the notion that fetal oocytes undergo degeneration mostly by apoptosis. This process is, however, often morphologically atypical and encompasses other forms of cell death including caspase-independent apoptosis and autophagia. The observation that oocyte death occurs mainly at certain stages of meiosis and can only be attenuated by typical anti-apoptotic treatments favors the notion that it is controlled at least in part by stage-specific oocyte-autonomous meiotic checkpoints and when activated is little amenable to inhibition being the oocyte able to switch back and forth among different death pathways.
...
PMID:Analysis of programmed cell death in mouse fetal oocytes. 1766 Feb 34
We devised a short-term culture system allowing us to define novel characteristics of programmed cell death (PCD) of fetal oocytes and to underscore new aspects of this process. Mouse fetal oocytes cultured in conditions allowing meiotic progression underwent apoptotic degeneration as revealed by TUNEL staining, DNA ladder, Annexin V binding, PARP cleavage and, usually, caspase activation.
TEM
observations show, however, recurrent atypical apoptotic morphologies characterized by the absence of chromatin margination and nuclear fragmentation; oocytes with autophagic and necrotic features are also observed. Moreover, under the fluorescence microscope a subpopulation of TUNEL(+) oocytes appear morphologically healthy and do not show detectable caspase activity. Finally, caspase inhibitors are able to slow down, but not to abolish, oocyte cell death, whereas
calpain inhibitor
I significantly reduces the number of TUNEL(+) oocytes after 4 days of culture, and rapamycin (mTOR inhibitor) increases such numbers both at day 3 and 4. These observations together with results showing expression in cultured oocytes undergoing cell death of apoptosis inducing factor and Beclin 1, two important players of caspase independent and autophagic cell death, respectively, demonstrate that fetal oocytes possess and are able to activate several players of various forms of cell death. However, causal correlation among different cell death pathways in such oocytes remains to be determined and stimuli causing the activation of these pathways in vitro and in vivo also clarified.
...
PMID:Cell death in fetal oocytes: many players for multiple pathways. 1809 6
