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黎明涛, by Wenya Wang, Chi Ms, Zixa Mao and Mingtao Li
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-1年11月30日
Parkinson's disease is characterized by the pathologicalloss of dopaminergic neurons in the substantia nigra. The current therapy for Parkinson's disease is aimed to replace the lost transmitter. But the ultimate objective in the neurodegenerative therapy is the functional restoration and/or cessation of progression of neuronal loss. Given the critical role that the c-Jun N-terminal kinase (JNK) pathway plays in regulating the cellular processes that are involved in Parkinson's disease, the importance of JNK in this disease's pathogenesis is being increasingly recognized. Much evidence suggests that JNK plays an important role in mediating 1-methyl-4-phenyl-1, 2, 3, 6-tetrahydropyridine (MPTP)/1-methyl-4-phenylpyridnium ion (MPP+)-induced neurotoxicity. Therefore, direct blockade of JNK may prevent or effectively slow the progression of Parkinson's disease. Studies including our own showed that the inhibition of JNK with SP-600125, a specific inhibitor of JNK, protects dopaminergic neurous both from MPP+-induced neuronal apoptosis in vitroand in MPTP Parkinson's disease model. These results support JNK inhibition as a potential strategy in treating Parkinson's disease.
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黎明涛, Rongbiao Pi, *, †, , Wenming Li, Nelson T. K. Lee, Hugh H. N. Chan, Yongmei Pu, Ling Nga Chan, ‡, Nikolaus J. Sucher, Donald C. Chang, Mingtao Li§ and Yifan Han*
Journal of Neurochemistry, 2004, 91, 1219~1230,-0001,():
-1年11月30日
Minocycline has been shown to have remarkably neuroprotective qualities, but underlying mechanisms remain elusive. We reported here the robust neuroprotection by minocycline against glutamate-induced apoptosis through regulations of p38 and Akt pathways. Pre-treatment of cerebellar granule neurons (CGNs) with minocycline (10–100 lM) elicited a dose-dependent reduction of glutamate excitotoxicity and blocked glutamate-induced nuclear condensation and DNA fragmentations. Using patch-clamping and fluorescence Ca2+ imaging techniques, it was found that minocycline neither blocked NMDA receptors, nor reduced glutamatecaused rises in intracellular Ca2+. Instead, confirmed by immunoblots, minocycline in vivo and in vitro was shown to directly inhibit the activation of p38 caused by glutamate. A p38-specific inhibitor, SB203580, also attenuated glutamate excitotoxicity. Furthermore, the neuroprotective effects of minocycline were blocked by phosphatidylinositol 3-kinase (PI3-K) inhibitors LY294002 and wortmannin, while pharmacologic inhibition of glycogen synthase kinase 3b (GSK3b) attenuated glutamate-induced apoptosis. In addition, immunoblots revealed that minocycline reversed the suppression of phosphorylated Akt and GSK3b caused by glutamate, as were abolished by PI3-K inhibitors. These results demonstrate that minocycline prevents glutamate-induced apoptosis in CGNs by directly inhibiting p38 activity and maintaining the activation of PI3-K/Akt pathway, which offers a novel modality as to how the drug exerts protective effects.
apoptosis,, glutamate,, minocycline,, NMDA receptors,, p38,, phosphatidylinositol 3-kinase/, Akt.,
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黎明涛, Mingtao Li, , Daniel A. Linseman, Melissa P. Allen, Mary Kay Meintzer, Xiaomin Wang, Tracey Laessig, Margaret E. Wierman, and Kim A. Heidenreich
The Journal of Neuroscience, September 1, 2001, 21 (17): 6544~6552,-0001,():
-1年11月30日
Myocyte enhancer factor 2 (MEF2) proteins are important regulators of gene expression during the development of skeletal, cardiac, and smooth muscle. MEF2 proteins are also present in brain and recently have been implicated in neuronal survival and differentiation. In this study we examined the cellular mechanisms regulating the activity of MEF2s during apoptosis of cultured cerebellar granule neurons, an established in vitro model for studying depolarization-dependent neuronal survival. All four MEF2 isoforms (A, B, C, and D) were detected by immunoblot analysis in cerebellar granule neurons. Endogenous MEF2A and MEF2D, but not MEF2B or MEF2C, were phosphorylated with the induction of apoptosis. The putative sites that were phosphorylated during apoptosis are functionally distinct from those previously reported to enhance MEF2 transcription. The increased phosphorylation of MEF2A and MEF2D was followed by decreased DNA binding, reduced transcriptional activity, and caspase-dependent cleavage to fragments containing N-terminal DNA binding domains and C-terminal transactivation domains. Expression of the highly homologous N terminus of MEF2A (1–131 amino acids) antagonized the transcriptional activity and prosurvival effects of a constitutively active mutant of MEF2D (MEF2D-VP16). We conclude that MEF2A and MEF2D are prosurvival factors with high transcriptional activity in postmitotic cerebellar granule neurons. When these neurons are induced to undergo apoptosis by lowering extracellular potassium, MEF2A and MEF2D are phosphorylated, followed by decreased DNA binding and cleavage by a caspase-sensitive pathway to N-terminal fragments lacking the transactivation domains. The degradation of MEF2D and MEF2A and the generation of MEF2 fragments that have the potential to act as dominant-inactive transcription factors lead to apoptotic cell death.
MEF2, neurons, apoptosis, trans, c, r, i, p, t, ion, caspase, cerebellum
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黎明涛, Wenming Li‡, Rongbiao Pi‡, Hugh H. N. Chan‡, Hongjun Fu‡, Nelson T. K. Lee‡, Hing Wai Tsang‡, Yongmei Pu§, Donald C. Chang§, Chaoying Li¶‖, Jialie Luo¶, Keming Xiong‖, Zhiwang Li¶, Hong Xue‡, Paul R. Carlier**, Yuanping Pang‡‡, Karl W. K. Tsim§, Mingtao Li§§, and Yifan Han‡¶¶
Vol. 280, No.18, Issue of May 6, pp. 18179~18188, 2005,-0001,():
-1年11月30日
The neuroprotective properties of bis (7)-tacrine, a novel dimeric acetylcholinesterase (AChE) inhibitor, on glutamate-induced excitotoxicity were investigated in primary cultured cerebellar granule neurons (CGNs). Exposure of CGNs to 75
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黎明涛, Jing-Ping Yun, , * Choong-Tsek Liew, Eng Ching Chew, Xiao-Yu Yin, Paul Bo San Lai, Yam Hin Fai, H.K. Richard Li, Mei-Lin Jin, Ming-Xiao Ding, Ming-Tao Li, Han-Liang Lin, and Wan Yee Lau
Journal of Cellular Biochemistry 91: 1269~1279 (2004),-0001,():
-1年11月30日
We explored the feasibility of studying nuclear matrix protein (NMP) expressions of the hepatocytes in normal and cirrhotic rat livers with liver regeneration after partial hepatectomy. Sixteen Wistar healthy rats were studied with experimental liver regeneration and/or liver cirrhosis. Two-dimensional (2-D) gel electrophoresis was used to generate these NMP compositions from these rat liver samples. Several antibodies against cytokeratin, vimentin, actin, B23, HNF4alpha, and heat shock protein 70 were used for identification by Western blot. Totally, 41 strongly stained protein spots were characterized on the 2-D gels. Thirty-four protein spots were detected in all of these rat livers, of which, cytokeratin, vimentin, actin, HNF4alpha, and heat shock protein 70 were identified. B23 was detected in the regenerated livers. Three protein spots (s33, s34, and s35) were detectable only inNMPpreparation extracted from the regenerating rat livers after hepatectomy. Another three protein spots (s36, s37, and s38) were detectable only in NMP preparation extracted from thioacetamide-induced cirrhotic rat livers. Under these conditions including experimental liver regeneration and/or liver cirrhosis, Over thirty higher abundance NMPs of hepatocytes were consistently expressed and considered as common and basic NMPs. Some of the NMPs are specific for liver regeneration and may play a critical role in cell proliferation and cell cycle, and some are specific for liver cirrhosis.
nuclear matrix proteins, liver regeneration, partial hepatectomy, thioacetamide, liver cirrhosis, twodimensional electrophoresis
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