Journal of neuroscience research
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N-cadherin and beta1-integrin adhesion and signaling play important roles in growth cone adhesion and guidance. Each of these adhesion receptor systems is composed of multiprotein complexes, and both adhesion and downstream signaling events are regulated through the interaction of protein tyrosine kinases and phosphatases with many of the proteins that make up these complex systems. Work from our laboratory reported that the nonreceptor protein tyrosine phosphatase PTP1B is localized to adherens junctions and focal adhesion complexes and regulates both N-cadherin- and beta1-integrin-mediated adhesion. ⋯ Moreover, suppressing the level of PTP1B in primary embryonic chick neural retina cells using antisense oligonucleotides also inhibits N-cadherin- and beta1-integrin-mediated neurite outgrowth. Neither of these techniques reduces the levels of expression of either adhesion receptor. We conclude that PTP1B is a regulatory component of the molecular complex required for both N-cadherin and beta1-integrin-mediated axon growth.
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The common neurotrophin receptor p75(NTR) (low affinity nerve growth factor receptor) participates in the high-affinity binding with the TrkA nerve growth factor (NGF) receptor, may mediate apoptosis, and may signal independently in a cell-specific manner. The potential of p75(NTR) to signal independently of TrkA was investigated with an NGF mutant protein (NGFdelta9/13) that binds poorly to TrkA (Woo et al. [1995] J. Biol. ⋯ Finally, upon serum withdrawal, both NGF and the NGFdelta9/13 mutant activate nuclear translocation of the transcriptional factor NF-kappaB (nuclear factor kappaB), a process involved in cell survival. These results are consistent with p75(NTR) inhibition of caspase-mediated apoptosis in PC12 cells. The different physiologic responses elicited by NGFdelta9/13 indicate the potential for individual signaling by the two NGF receptors and also demonstrate the utility of NGF mutants for receptor-selective signal transduction.
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Beginning with the isolation of the fragment of alpha-synuclein (alpha-syn) known as the non-Abeta component of amyloid plaques (NAC peptide) from Alzheimer's disease (AD) brains, alpha-syn has been increasingly implicated in the pathogenesis of neurodegenerative diseases, which now are classified as synucleinopathies. Indeed, unequivocal evidence linking abnormal alpha-syn to mechanisms of brain degeneration came from discoveries of missense mutations in the alpha-syn gene pathogenic for familial Parkinson's disease (PD) in rare kindreds. Shortly thereafter, alpha-syn was shown to be a major component of Lewy bodies (LBs) and Lewy neurites in sporadic PD, dementia with LBs (DLB) and the LB variant of AD. ⋯ Recently, two other members of the synuclein family, beta- and gamma-synuclein, have also been recognized to play a role in the pathogenesis of novel axonal lesions in PD and DLB. Evidence for a role of alpha-syn in the formation of filamentous aggregates was reinforced by in vitro studies showing aggregation and fibrillogenesis of mutant and wild type alpha-syn. Indeed, since the aggregation of brain proteins into presumptively toxic lesions is emerging as a common but poorly understood mechanistic theme in sporadic and hereditary neurodegenerative diseases, clarification of the mechanism of synuclein aggregation could augment efforts to develop novel and more effective therapies for many neurodegenerative disorders.
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Neuropeptide changes in primary sensory neurons caused by partial nerve injury are likely involved in the development of neuropathic pain. In this study, using immunocytochemistry, we examined neuropeptide Y (NPY) expression in lumbar dorsal root ganglion (DRG) cells of young adult (2-3 months old) and middle-aged (8-10 months old) rats 4 weeks after partial sciatic nerve ligation (PSNL). ⋯ Thus PSNL induces NPY up-regulation in spared as well as injured DRG neurons, both contribute to the increased NPY immunoreactivity in the gracile nucleus in the middle-aged rats. The more dramatic increase of NPY in DRG neurons of middle-aged rats after PSNL shows that the responses to partial nerve injury are age-dependent, that suggests a possible relevance to the higher incidence of neuropathic pain in human middle age.
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Our recent morphologic studies indicated that peripheral nervous system (PNS) adrenergic neurons synthesize, transport, and store the serene protease, tissue plasminogen activator (t-PA) in axon terminals, many of which innervate vessel walls. Sympathoadrenal stimulation induces a surge of t-PA from vessel walls into the blood. The vascular endothelium, which constitutively secretes t-PA into blood also has long been widely assumed to be the principal source of this stress-induced release, but has not been verified as such. ⋯ Adventitial and endothelial ablations from normal large vessel explants produced greater reductions than small vessel endothelial ablations. Ganglion electrical stimulation also induced an acute microvascular release in vivo. These and past morphologic findings indicate a physiological infusion of t-PA into the vessel walls, blood, and other innervated matrices by sympathetic neurons.