Abstract
Within the mammalian central nervous system many forms of neurodegenerative injury are regulated via programmed cell death, a highly conserved program of cellular suicide. Programmed cell death is regulated by multiple signaling pathways, which have been identified within mammalian cells, although several lines of evidence suggest that the intrinsic pathway predominantly regulates the death of motor neurons following acute injury in vivo. We have tested this hypothesis by performing facial axotomies on cytochrome c knock-in mice containing a point mutation in the genomic locus of cytochrome c resulting in a lysine to alanine conversion at position 72 of the protein. The introduced mutation inhibits the ability of cytochrome c to induce the formation of the apoptosome, a protein complex that is principally required for the activation of the intrinsic pathway, but does not alter its function in oxidative phosphorylation. Homozygous cytochrome c knock-in mutants displayed a significant enhancement in motor neuron survival following injury when compared with littermate controls, thus establishing the apoptosome as a viable target for protecting motor neurons from neural injury. However, protection of facial motor neurons differs from that previously reported in mice either overexpressing anti-apoptotic or lacking pro-apoptotic members of the Bcl-2 family, which are thought to regulate several aspects of mitochondrial dysfunction including the release of cytochrome c from the mitochondria to the cytoplasm. Therefore, these results directly demonstrate for the first time the influence of the apoptosome on injury-induced neuronal programmed cell death in vivo isolated from upstream Bcl-2 family-mediated effects.
Highlights
Literature on the signal transduction of Programmed cell death (PCD) over the past 25 years has demonstrated the central integrative role of the mitochondrion in regulating this process
Analysis of Facial Motor Neurons in cyt c [KA/KA] Mice following Neonatal Facial Axotomy—To determine whether apoptosome activation is involved in regulating PCD of motor neurons following injury, motor neurons were counted in facial nuclei at 1 week post-lesion (P10.5)
The percentage of surviving facial motor neurons increased from 17.5% in cyt c [ϩ/ϩ] (n ϭ 5; data not shown) and [KA/ϩ] (n ϭ 11) mice to 56% in cyt c [KA/KA] (n ϭ 9) animals, indicating that impairment of apoptosome function downstream of the mitochondria leads to the protection of approximately half of those motor neurons normally fated to die following axotomy
Summary
Literature on the signal transduction of PCD over the past 25 years has demonstrated the central integrative role of the mitochondrion in regulating this process. No significant difference was observed in the relative proportion of facial motor neurons displaying cytosolic cytochrome c localization 24 h post-axotomy in cyt c [KA/KA] mice in comparison with littermate controls (Fig. 3G).
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