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Literature DB >> 19240112

Huntingtin promotes cell survival by preventing Pak2 cleavage.

Abstract

Huntington's disease is caused by a polyglutamine expansion in the huntingtin protein. Wild-type huntingtin, by contrast, appears to protect cells from pro-apoptotic insults. Here we describe a novel anti-apoptotic function for huntingtin. When cells are exposed to Fas-related signals, the ubiquitously expressed p21-activated kinase 2 (Pak2) can be activated via cleavage by caspases to release a constitutively active C-terminal fragment, which mediates cell death. Our data show that huntingtin interacts with Pak2. Overexpression of huntingtin significantly inhibits caspase-3-mediated and caspase-8-mediated cleavage of Pak2 in cells. Moreover, huntingtin prevents Pak2 cleavage by caspase-3 and caspase-8 in vitro. Although huntingtin is cytoprotective in wild-type cells that are exposed to TNFalpha, it has no significant benefit in TNFalpha-treated cells with Pak2 knockdown. Thus, huntingtin exerts anti-apoptotic effects by binding to Pak2, which reduces the abilities of caspase-3 and caspase-8 to cleave Pak2 and convert it into a mediator of cell death.

Entities: Chemical

Mesh：

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Year: 2009 PMID： 19240112 PMCID： PMC2714430 DOI： 10.1242/jcs.050013

Source DB: PubMed Journal: J Cell Sci ISSN： 0021-9533 Impact factor: 5.285

47 in total

1. p21-activated protein kinase gamma-PAK suppresses programmed cell death of BALB3T3 fibroblasts.

Authors: R Jakobi; E Moertl; M A Koeppel
Journal: J Biol Chem Date: 2001-02-13 Impact factor: 5.157

Review 2. Biology of the p21-activated kinases.

Authors: Gary M Bokoch
Journal: Annu Rev Biochem Date: 2003-03-27 Impact factor: 23.643

3. p21-activated kinase (PAK) is required for Fas-induced JNK activation in Jurkat cells.

Authors: T Rudel; F T Zenke; T H Chuang; G M Bokoch
Journal: J Immunol Date: 1998-01-01 Impact factor: 5.422

4. Expression of constitutively active alpha-PAK reveals effects of the kinase on actin and focal complexes.

Authors: E Manser; H Y Huang; T H Loo; X Q Chen; J M Dong; T Leung; L Lim
Journal: Mol Cell Biol Date: 1997-03 Impact factor: 4.272

5. Cloning and characterization of PAK5, a novel member of mammalian p21-activated kinase-II subfamily that is predominantly expressed in brain.

Authors: Akhilesh Pandey; Ippeita Dan; Troels Z Kristiansen; Norinobu M Watanabe; Jesper Voldby; Eriko Kajikawa; Roya Khosravi-Far; Blagoy Blagoev; Matthias Mann
Journal: Oncogene Date: 2002-05-30 Impact factor: 9.867

6. An essential role for NF-kappaB in preventing TNF-alpha-induced cell death.

Authors: A A Beg; D Baltimore
Journal: Science Date: 1996-11-01 Impact factor: 47.728

7. Heat shock stress induces cleavage and activation of PAK2 in apoptotic cells.

Authors: W H Chan; J S Yu; S D Yang
Journal: J Protein Chem Date: 1998-07

8. Targeted disruption of the Huntington's disease gene results in embryonic lethality and behavioral and morphological changes in heterozygotes.

Authors: J Nasir; S B Floresco; J R O'Kusky; V M Diewert; J M Richman; J Zeisler; A Borowski; J D Marth; A G Phillips; M R Hayden
Journal: Cell Date: 1995-06-02 Impact factor: 41.582

9. p21-activated kinase 1 promotes soluble mutant huntingtin self-interaction and enhances toxicity.

Authors: Shouqing Luo; Haruo Mizuta; David C Rubinsztein
Journal: Hum Mol Genet Date: 2007-12-07 Impact factor: 6.150

Review 10. Normal huntingtin function: an alternative approach to Huntington's disease.

Authors: Elena Cattaneo; Chiara Zuccato; Marzia Tartari
Journal: Nat Rev Neurosci Date: 2005-12 Impact factor: 34.870

14 in total

1. The biological function of the Huntingtin protein and its relevance to Huntington's Disease pathology.

Authors: Joost Schulte; J Troy Littleton
Journal: Curr Trends Neurol Date: 2011-01-01

2. P21-activated protein kinase (PAK2)-mediated c-Jun phosphorylation at 5 threonine sites promotes cell transformation.

Authors: Tingting Li; Jishuai Zhang; Feng Zhu; Weihong Wen; Tatyana Zykova; Xiang Li; Kangdong Liu; Cong Peng; Weiya Ma; Guozheng Shi; Ziming Dong; Ann M Bode; Zigang Dong
Journal: Carcinogenesis Date: 2010-12-22 Impact factor: 4.944

3. NCBP2 modulates neurodevelopmental defects of the 3q29 deletion in Drosophila and Xenopus laevis models.

Authors: Mayanglambam Dhruba Singh; Matthew Jensen; Micaela Lasser; Emily Huber; Tanzeen Yusuff; Lucilla Pizzo; Brian Lifschutz; Inshya Desai; Alexis Kubina; Sneha Yennawar; Sydney Kim; Janani Iyer; Diego E Rincon-Limas; Laura Anne Lowery; Santhosh Girirajan
Journal: PLoS Genet Date: 2020-02-13 Impact factor: 5.917

Review 4. Mitochondrial functional alterations in relation to pathophysiology of Huntington's disease.

Authors: Mritunjay Pandey; Kochupurackal P Mohanakumar; Rajamma Usha
Journal: J Bioenerg Biomembr Date: 2010-06 Impact factor: 2.945

Review 5. Zebrafish an experimental model of Huntington's disease: molecular aspects, therapeutic targets and current challenges.

Authors: Vishal Kumar; Charan Singh; Arti Singh
Journal: Mol Biol Rep Date: 2021-10-19 Impact factor: 2.316

10. Group I PAK inhibitor IPA-3 induces cell death and affects cell adhesivity to fibronectin in human hematopoietic cells.

Authors: Kateřina Kuželová; Dana Grebeňová; Aleš Holoubek; Pavla Röselová; Adam Obr
Journal: PLoS One Date: 2014-03-24 Impact factor: 3.240