ERK activation promotes neuronal degeneration predominantly through plasma membrane damage and independently of caspase-3-Reference-Cited by-同舟云学术

ERK activation promotes neuronal degeneration predominantly through plasma membrane damage and independently of caspase-3

Published:2004-05-03 Issue:3 Volume:165 Page:357-369
ISSN:1540-8140
Container-title:Journal of Cell Biology
language:en
Short-container-title:

Author:

Subramaniam Srinivasa¹,Zirrgiebel Ute²,von Bohlen und Halbach Oliver¹,Strelau Jens¹,Laliberté Christine³,Kaplan David R.⁴³,Unsicker Klaus¹

Affiliation:

1. Neuroanatomy and Interdisciplinary Center for Neurosciences, University of Heidelberg, D-69120 Heidelberg, Germany

2. Montreal Neurological Institute, Montreal, Quebec H3A 2B4, Canada

3. The Hospital for Sick Children, Toronto, Ontario M5G 1X8, Canada

4. Department of Medical Genetics and Microbiology and Institute of Medical Sciences, University of Toronto, Toronto, Ontario M5S 1A8, Canada

Abstract

Our recent studies have shown that extracellular-regulated protein kinase (ERK) promotes cell death in cerebellar granule neurons (CGN) cultured in low potassium. Here we report that the “death” phenotypes of CGN after potassium withdrawal are heterogeneous, allowing the distinction between plasma membrane (PM)–, DNA-, and PM/DNA-damaged populations. These damaged neurons display nuclear condensation that precedes PM or DNA damage. Inhibition of ERK activation either by U0126 or by dominant-negative mitogen-activated protein kinase/ERK kinase (MEK) overexpression results in a dramatic reduction of PM damaged neurons and nuclear condensation. In contrast, overexpression of constitutively active MEK potentiates PM damage and nuclear condensation. ERK-promoted cellular damage is independent of caspase-3. Persistent active ERK translocates to the nucleus, whereas caspase-3 remains in the cytoplasm. Antioxidants that reduced ERK activation and PM damage showed no effect on caspase-3 activation or DNA damage. These data identify ERK as an important executor of neuronal damage involving a caspase-3–independent mechanism.

Publisher

Rockefeller University Press

Subject

Cell Biology

Link

http://rupress.org/jcb/article-pdf/165/3/357/1313667/jcb1653357.pdf

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