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Constantine G. Boojamra Jay P. Parrish David Sperandio Ying Gao Oleg V. Petrakovsky Sharon K. Lee David Y. Markevitch Jennifer E. Vela Genevieve Laflamme James M. Chen Adrian S. Ray Abraham C. Barron Mark L. Sparacino Manoj C. Desai Choung U. Kim Tomas Cihlar Richard L. Mackman 《Bioorganic & medicinal chemistry》2009,17(4):1739-1746
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Ben Gedalya T Loeb V Israeli E Altschuler Y Selkoe DJ Sharon R 《Traffic (Copenhagen, Denmark)》2009,10(2):218-234
α-Synuclein (αS) is an abundant neuronal cytoplasmic protein implicated in Parkinson's disease (PD), but its physiological function remains unknown. Consistent with its having structural motifs shared with class A1 apolipoproteins, αS can reversibly associate with membranes and help regulate membrane fatty acid composition. We previously observed that variations in αS expression level in dopaminergic cultured cells or brains are associated with changes in polyunsaturated fatty acid (PUFA) levels and altered membrane fluidity. We now report that αS acts with PUFAs to enhance the internalization of the membrane-binding dye, FM 1-43. Specifically, αS expression coupled with exposure to physiological levels of certain PUFAs enhanced clathrin-mediated endocytosis in neuronal and non-neuronal cultured cells. Moreover, αS expression and PUFA-enhanced basal and -evoked synaptic vesicle (SV) endocytosis in primary hippocampal cultures of wild type (wt) and genetically depleted αS mouse brains. We suggest that αS and PUFAs normally function in endocytic mechanisms and are specifically involved in SV recycling upon neuronal stimulation. 相似文献
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Maria Teresa Landi Nilanjan Chatterjee Lynn R. Goldin Melissa Rotunno Kevin Jacobs Meredith Yeager Qizhai Li Dario Consonni Sholom Wacholder Ryan Diver Jarmo Virtamo Zhaoming Wang Kimberly F. Doheny Cathy Laurie Rayjean Hung James D. McKay John McLaughlin Ming-Sound Tsao Yufei Wang Lars Vatten Egil Arnesen Christine Bouchard Tonu Vooder Kristian Välk Chu Chen Patrick Sulem Thorunn Rafnar Wiebke Sauter Heike Bickeböller Jenny Chang-Claude Kari Stefansson Christopher I. Amos Sharon A. Savage Margaret A. Tucker Neil E. Caporaso 《American journal of human genetics》2009,85(5):679-74
Three genetic loci for lung cancer risk have been identified by genome-wide association studies (GWAS), but inherited susceptibility to specific histologic types of lung cancer is not well established. We conducted a GWAS of lung cancer and its major histologic types, genotyping 515,922 single-nucleotide polymorphisms (SNPs) in 5739 lung cancer cases and 5848 controls from one population-based case-control study and three cohort studies. Results were combined with summary data from ten additional studies, for a total of 13,300 cases and 19,666 controls of European descent. Four studies also provided histology data for replication, resulting in 3333 adenocarcinomas (AD), 2589 squamous cell carcinomas (SQ), and 1418 small cell carcinomas (SC). In analyses by histology, rs2736100 (TERT), on chromosome 5p15.33, was associated with risk of adenocarcinoma (odds ratio [OR] = 1.23, 95% confidence interval [CI] = 1.13–1.33, p = 3.02 × 10−7), but not with other histologic types (OR = 1.01, p = 0.84 and OR = 1.00, p = 0.93 for SQ and SC, respectively). This finding was confirmed in each replication study and overall meta-analysis (OR = 1.24, 95% CI = 1.17–1.31, p = 3.74 × 10−14 for AD; OR = 0.99, p = 0.69 and OR = 0.97, p = 0.48 for SQ and SC, respectively). Other previously reported association signals on 15q25 and 6p21 were also refined, but no additional loci reached genome-wide significance. In conclusion, a lung cancer GWAS identified a distinct hereditary contribution to adenocarcinoma. 相似文献
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Autophagy, an intracellular degradative pathway, maintains cell homeostasis under normal and stress conditions. Nascent double-membrane autophagosomes sequester and enclose cytosolic components and organelles, and subsequently fuse with the endosomal pathway allowing content degradation. Autophagy requires fusion of autophagosomes with late endosomes, but it is not known if fusion with early endosomes is essential. We show that fusion of AVs with functional early endosomes is required for autophagy. Inhibition of early endosome function by loss of COPI subunits (β′, β, or α) results in accumulation of autophagosomes, but not an increased autophagic flux. COPI is required for ER-Golgi transport and early endosome maturation. Although loss of COPI results in the fragmentation of the Golgi, this does not induce the formation of autophagosomes. Loss of COPI causes defects in early endosome function, as both transferrin recycling and EGF internalization and degradation are impaired, and this loss of function causes an inhibition of autophagy, an accumulation of p62/SQSTM-1, and ubiquitinated proteins in autophagosomes. 相似文献
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Michael Tarry S.J. Ryan Arends Pietro Roversi Frank Sargent David S. Weiss Susan M. Lea 《Journal of molecular biology》2009,386(2):504-519
The Escherichia coli protein SufI (FtsP) has recently been proposed to be a component of the cell division apparatus. The SufI protein is also in widespread experimental use as a model substrate in studies of the Tat (twin arginine translocation) protein transport system. We have used SufI-GFP (green fluorescent protein) fusions to show that SufI localizes to the septal ring in the dividing cell. We have also determined the structure of SufI by X-ray crystallography to a resolution of 1.9 Å. SufI is structurally related to the multicopper oxidase superfamily but lacks metal cofactors. The structure of SufI suggests it serves a scaffolding rather than an enzymatic role in the septal ring and reveals regions of the protein likely to be involved in the protein-protein interactions required to assemble SufI at the septal ring. 相似文献