Identification of a candidate therapeutic autophagy-inducing peptide

被引:0
|
作者
Sanae Shoji-Kawata
Rhea Sumpter
Matthew Leveno
Grant R. Campbell
Zhongju Zou
Lisa Kinch
Angela D. Wilkins
Qihua Sun
Kathrin Pallauf
Donna MacDuff
Carlos Huerta
Herbert W. Virgin
J. Bernd Helms
Ruud Eerland
Sharon A. Tooze
Ramnik Xavier
Deborah J. Lenschow
Ai Yamamoto
David King
Olivier Lichtarge
Nick V. Grishin
Stephen A. Spector
Dora V. Kaloyanova
Beth Levine
机构
[1] UT Southwestern Medical Center,Department of Internal Medicine
[2] Center for Autophagy Research,Department of Pediatrics
[3] UT Southwestern Medical Center,Department of Biochemistry
[4] University of California,Department of Molecular and Human Genetics
[5] San Diego,Department of Pathology and Immunology
[6] La Jolla,Department of Biochemistry and Cell Biology and Institute of Biomembranes
[7] California 92093,Department of Medicine
[8] USA,Department of Neurology
[9] Rady Children’s Hospital,Department of Microbiology
[10] Howard Hughes Medical Institute,undefined
[11] UT Southwestern Medical Center,undefined
[12] UT Southwestern Medical Center,undefined
[13] Baylor College of Medicine,undefined
[14] Washington University School of Medicine,undefined
[15] Utrecht University,undefined
[16] Utrecht 3508TD,undefined
[17] The Netherlands,undefined
[18] London Research Institute,undefined
[19] Cancer Research UK,undefined
[20] London EC1V 4AD,undefined
[21] UK,undefined
[22] Center for Computational and Integrative Biology,undefined
[23] Massachusetts General Hospital,undefined
[24] Harvard Medical School,undefined
[25] Gastrointestinal Unit,undefined
[26] Massachusetts General Hospital,undefined
[27] Harvard Medical School,undefined
[28] Broad Institute of Harvard and Massachusetts Institute of Technology,undefined
[29] Washington University School of Medicine,undefined
[30] Columbia University College of Physicians & Surgeons,undefined
[31] Howard Hughes Medical Institute,undefined
[32] University of California,undefined
[33] UT Southwestern Medical Center,undefined
[34] Present address: Reata Pharmaceuticals,undefined
[35] Inc,undefined
[36] Irving,undefined
[37] Texas 75063,undefined
[38] USA.,undefined
来源
Nature | 2013年 / 494卷
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摘要
The lysosomal degradation pathway of autophagy has a crucial role in defence against infection, neurodegenerative disorders, cancer and ageing. Accordingly, agents that induce autophagy may have broad therapeutic applications. One approach to developing such agents is to exploit autophagy manipulation strategies used by microbial virulence factors. Here we show that a peptide, Tat–beclin 1—derived from a region of the autophagy protein, beclin 1, which binds human immunodeficiency virus (HIV)-1 Nef—is a potent inducer of autophagy, and interacts with a newly identified negative regulator of autophagy, GAPR-1 (also called GLIPR2). Tat–beclin 1 decreases the accumulation of polyglutamine expansion protein aggregates and the replication of several pathogens (including HIV-1) in vitro, and reduces mortality in mice infected with chikungunya or West Nile virus. Thus, through the characterization of a domain of beclin 1 that interacts with HIV-1 Nef, we have developed an autophagy-inducing peptide that has potential efficacy in the treatment of human diseases.
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页码:201 / 206
页数:5
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