Keith J. Lookingland scite author profile

Novel therapeutic approaches using stem cell transplantation to treat neurodegenerative diseases have yielded promising results. However, survival of stem cells after transplantation has been very poor in animal models, and considerable efforts have been directed at increasing the viability of engrafted stem cells. Therefore, understanding the mechanisms that regulate survival and death of neural stem cells is critical to the development of stem cell-based therapies. Hippocampal neural (HCN) stem cells derived from the adult rat brain undergo cell death following insulin withdrawal, which is associated with downregulation of antiapoptotic Bcl-2 family members. To understand the type of cell death in HCN cells following insulin withdrawal, apoptosis markers were assessed. Of note, DNA fragmentation or caspase-3 activation was not observed, but rather dying cells displayed features of autophagy, including increased expression of Beclin 1 and the type II form of light chain 3. Electron micrographs showed the dramatically increased formation of autophagic vacuoles with cytoplasmic contents. Staurosporine induced robust activation of caspase-3 and nucleosomal DNA fragmentation, suggesting that the machinery of apoptosis is intact in HCN cells despite the apparent absence of apoptosis following insulin withdrawal. Autophagic cell death was suppressed by knockdown of autophagy-related gene 7, whereas promotion of autophagy by rapamycin increased cell death. Taken together, these data demonstrate that HCN cells undergo a caspase-independent, autophagic cell death following insulin withdrawal. Understanding the mechanisms governing autophagy of adult neural stem cells may provide novel strategies to improve the survival rate of transplanted stem cells for treatment of neurodegenerative diseases.

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Gene Transfer of Human Guanosine 5′-Triphosphate Cyclohydrolase I Restores Vascular Tetrahydrobiopterin Level and Endothelial Function in Low Renin Hypertension

Zheng

et al. 2003

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Background-We recently reported that arterial superoxide (O 2Ϫ ) is augmented by increased endothelin-1 (ET-1) in deoxycorticosterone acetate (DOCA)-salt hypertension, a model of low renin hypertension. Tetrahydrobiopterin (BH 4 ), a potent reducing molecule with antioxidant properties and an essential cofactor for endothelial nitric oxide synthase, protects against O 2 Ϫ -induced vascular dysfunction. However, the interaction between O 2 Ϫ and BH 4 on endothelial function and the underlying mechanisms are unknown. Methods and Results-The present study tested the hypothesis that BH 4 deficiency due to ET-1-induced O 2 Ϫ leads to impaired endothelium-dependent relaxation and that gene transfer of human guanosine 5Ј-triphosphate (GTP) cyclohydrolase I (GTPCH I), the first and rate-limiting enzyme for BH 4 biosynthesis, reverses such deficiency and endothelial dysfunction in carotid arteries of DOCA-salt rats. There were significantly increased arterial O 2 Ϫ levels and decreased GTPCH I activity and BH 4 levels in DOCA-salt compared with sham rats. Treatment of arteries of DOCA-salt rats with the selective ET A receptor antagonist ABT-627, NADPH oxidase inhibitor apocynin, or superoxide dismutase (SOD) mimetic tempol abolished O 2 Ϫ and restored BH 4 levels. Basal arterial NO release and endothelium-dependent relaxations were impaired in DOCA-salt rats, conditions that were improved by apocynin or tempol treatment. Gene transfer of GTPCH I restored arterial GTPCH I activity and BH 4 levels, resulting in reduced O 2 Ϫ and improved endothelium-dependent relaxation and basal NO release in DOCA-salt rats. Conclusions-These

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Mice Lacking α-Synuclein have an Attenuated Loss of Striatal Dopamine Following Prolonged Chronic MPTP Administration

et al. 2004

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