This subproject is one of many research subprojects utilizing theresources provided by a Center grant funded by NIH/NCRR. The subproject andinvestigator (PI) may have received primary funding from another NIH source,and thus could be represented in other CRISP entries. The institution listed isfor the Center, which is not necessarily the institution for the investigator.Since the intercellular energy needs are different from tissue to tissue, sometimes demands made on mitochondria for more energy must be met by creating more cristae membrane in each mitochondrion where ATP synthesis take place. Thus the biogenesis of mitochondrial cristal membrane plays an important role both in development and in aging of animals. Recent evidence suggests that Opa1 is critical in regulating the crista junction size and the accessibility of the intracristal space. During apoptosis, Opa1 oligomers are disassembled and accessibility of cytochrome c in the intracristal space increases dramatically. Several years ago, this observation led Scorrano and colleagues to suggest that crista junctions become wider during apoptosis, releasing cytochrome c from intracristal spaces. As roughly 85% of total mitochondrial cytochrome c resides within intracristal spaces that are connected to the IMS by relatively narrow crista junctions, it has been suggested that the remodeling of cristae and crista junctions is a required step in the rapid and complete release of cytochrome c. N/C-Bid-induced structural changes in cristae and crista junctions are also suggested by observations of increased accessibility of cytochrome c to reaction partners at the outer membrane. However, the role of crista remodeling in apoptosis is controversial. Hence we are using electron microscope tomography to characterize when remodeling occurs and when it doesn't as a function of treatment with proapoptotic effectors and compounds that disassemble Opa1 oligomers.
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