This study provides evidence that in addition to overt necrosis, a subset of myocytes undergo apoptosis during ischemia-reperfusion injury. Apoptosis may provide a new target for cardioprotection during evolving AMI in humans.
Spermiogenesis is a complex process by which postmeiotic male germ cells differentiate into mature spermatozoa. This process involves remarkable structural and biochemical changes including nuclear DNA compaction and acrosome formation. Transcription activator CREM (cyclic AMP-responsive element modulator) is highly expressed in postmeiotic cells, and CREM may be responsible for the activation of several haploid germ cell-specific genes involved in the structuring of the spermatozoon. The specific role of CREM in spermiogenesis was addressed using CREM-mutant mice generated by homologous recombination. Analysis of the seminiferous epithelium in mutant male mice reveals postmeiotic arrest at the first step of spermiogenesis. Late spermatids are completely absent, and there is a significant increase in apoptotic germ cells. We show that CREM deficiency results in the lack of postmeiotic cell-specific gene expression. The complete lack of spermatozoa in the mutant mice is reminiscent of cases of human infertility.
The quantitative effects of ethane dimethane sulfonate (EDS), a Leydig cell toxin, on apoptosis in adult rat seminiferous epithelium were studied by the improved transillumination method. Nonradioactive in situ end labeling of fragmented DNA in squash preparations revealed significant increases in apoptotic cells in stages II-XI, whereas controls showed 0.5-2.3 apoptotic cells/mm tubule. Seven days post-EDS treatment, the highest numbers of apoptotic cells were scored in stages VIIab and VIIcd (74.7 +/- 23.8 and 61.3 +/- 16.0 cells/mm, respectively). The effects were suppressed by testosterone (T) supplementation, except in stages II-III and VIIcd. An opposite effect was found in stage XII, where the number of apoptotic cells decreased 1, 3, and 7 days after EDS treatment and returned to control levels in T-supplemented rats. Electrophoretic analysis of internucleosomal DNA fragmentation revealed a biphasic apoptotic process after 1 and 5-7 days due to Leydig and germ cell apoptosis, respectively. The specific germ cell apoptosis was also confirmed by electron microscopic analysis. The results suggest that T withdrawal induces apoptotic cell death in most stages of the cycle and that the effects are largely preventable. In stage XII, however, T seems to promote apoptosis in premeiotic cells.
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