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The Journal of Neuroscience, September 15, 2001, 21(18):7089-7098
Caspase 3 Deficiency Rescues Peripheral Nervous System Defect in Retinoblastoma Nullizygous Mice
Matthew T. W. Simpson1, Jason G. MacLaurin1, Daigen Xu2, Kerry L. Ferguson1, Jacqueline L. Vanderluit1, Maria A. Davoli2, Sophie Roy2, Donald W. Nicholson2, George S. Robertson2, David S. Park1, and Ruth S. Slack1 1 Neuroscience Research Institute, University of Ottawa, Ottawa, Ontario, K1H-8M5, Canada, and 2 Merck Frosst Institute for Therapeutic Research, Merck Frosst Canada and Company, Pointe Claire-Dorval, Quebec, H9R 4P8, Canada
The retinoblastoma tumor suppressor protein, pRb, is a key regulator of cell cycle and has been implicated in the terminal differentiation of neuronal cells. Mice nullizygous for pRb die by embryonic day 14.5 from hematopoietic and neurological defects attributed to failed differentiation (Clarke et al., 1992; Jacks et al., 1992; Lee et al., 1992). Previous studies by MacLeod et al. (1996) have demonstrated that the loss of p53 protects Rb-deficient CNS neurons but not peripheral nervous system (PNS) neurons from cell death. Thus, the mechanisms by which PNS neurons undergo apoptosis in response to Rb deficiency remain unknown. In view of the pivotal role of caspase 3 in the regulation of neuronal apoptosis during development, we examined its function in the execution of the wide-spread neuronal cell death induced by Rb deficiency. Our results support a number of conclusions. First, we show that caspase 3 becomes activated in all neuronal populations undergoing apoptosis. Second, caspase 3 deficiency does not extend the life span of Rb null embryos, because double null mutants exhibit high rates of liver apoptosis resulting in erythropoietic failure. Third, Rb/caspase 3 double-mutant neurons of the CNS exhibit widespread apoptosis similar to that seen in Rb mutants alone; thus caspase 3 deficiency does not protect this population from apoptosis. Finally, in contrast to the CNS, neurons of the PNS including those comprising the trigeminal ganglia and the dorsal root ganglia are protected from apoptosis in Rb/caspase 3 double-mutant embryos. Examination of the mechanistic differences between these two cell types suggest that CNS neurons may invoke other caspases to facilitate apoptosis in the absence of caspase 3. These findings suggest that PNS neurons are dependent on caspase 3 for the execution of apoptosis and that caspase 3 may serve as a key therapeutic target for neuroprotection after injury of this cell type.
Key words: caspases; apoptosis; retinoblastoma; p53; development; peripheral nervous system
Copyright © 2001 Society for Neuroscience 0270-6474/01/21187089-10$05.00/0
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