Abstract
ARC is an apoptotic regulatory protein expressed almost exclusively in myogenic cells. It contains a caspase recruitment domain (CARD) through which it has been shown to block the activation of some initiator caspases. Because ARC also blocks caspase-independent events associated with apoptosis, such as hypoxia-induced cytochrome c release, we examined its role in cell death triggered by exposure to hydrogen peroxide (H(2)O(2)) in the myogenic cell line, H9c2. Cell death in this model was caspase-independent and characterized by dose-dependent reduction in ARC expression accompanied by disruption of the mitochondrial membrane potential (Delta psi(m)) and loss of plasma membrane integrity, typical of necrotic cell death. Ectopic expression of ARC prevented both H(2)O(2)-induced mitochondrial dysfunction and cell death without affecting the stress kinase response, suggesting that ARCs protective effects were downstream of early signaling events and not due to quenching of H(2)O(2). ARC was also effective in blocking H(2)O(2)-induced loss of membrane integrity and/or disruption of Delta psi(m) in two human cell lines in which it is not normally expressed. These results demonstrate that, in addition to its ability to block caspase-dependent and -independent events in apoptosis, ARC also prevents necrosis-like cell death via the preservation of mitochondrial function.
Highlights
Domains are present on the cytoplasmic domains of many death receptors, such as Fas/CD95 and TNFR1, where they recruit adaptor molecules, such as TRADD and FADD, to the deathinducing signaling complex [1]
We show that ARC provides equivalent protective effects in two nonmyogenic cell lines in which H2O2 causes necrosis-like cell death
Down-regulation of the Muscle-specific caspase recruitment domain (CARD) protein, ARC, Links H2O2 to Cell Death in H9c2s—Because ARC protein levels in H9c2s decrease in parallel with the development of apoptosis caused by hypoxia [12], we examined whether ARC protein levels were altered in response to H2O2 exposure and, if so, whether these changes were linked to the onset of cell death
Summary
Vol 276, No 36, Issue of September 7, pp. 33915–33922, 2001 Printed in U.S.A. The Apoptotic Regulatory Protein ARC (Apoptosis Repressor with Caspase Recruitment Domain) Prevents Oxidant Stress-mediated Cell Death by Preserving Mitochondrial Function*. ARC was effective in blocking H2O2-induced loss of membrane integrity and/or disruption of ⌬m in two human cell lines in which it is not normally expressed These results demonstrate that, in addition to its ability to block caspase-dependent and -independent events in apoptosis, ARC prevents necrosis-like cell death via the preservation of mitochondrial function. We show that ARC provides equivalent protective effects in two nonmyogenic cell lines in which H2O2 causes necrosis-like cell death These results demonstrate that, in addition to its ability to block caspase-dependent and -independent events in apoptosis, ARC can prevent cellular changes associated with necrotic cell death through its ability to prevent mitochondrial dysfunction
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