JunD Protects the Liver from Ischemia/Reperfusion Injury by Dampening AP-1 Transcriptional Activation

Jennifer J Marden,Yulong Zhang,Fredrick D Oakley,Weihong Zhou,Meihui Luo,Hong Peng Jia,Paul B Mccray,Moshe Yaniv,Jonathan B Weitzman,John F Engelhardt

doi:10.1074/jbc.m705606200

Jennifer J Marden, Yulong Zhang + Show 8 more

Open Access

https://doi.org/10.1074/jbc.m705606200

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Abstract

The AP-1 transcription factor modulates a wide range of cellular processes, including cellular proliferation, programmed cell death, and survival. JunD is a major component of the AP-1 complex following liver ischemia/reperfusion (I/R) injury; however, its precise function in this setting remains unclear. We investigated the functional significance of JunD in regulating AP-1 transcription following partial lobar I/R injury to the liver, as well as the downstream consequences for hepatocellular remodeling. Our findings demonstrate that JunD plays a protective role, reducing I/R injury to the liver by suppressing acute transcriptional activation of AP-1. In the absence of JunD, c-Jun phosphorylation and AP-1 activation in response to I/R injury were elevated, and this correlated with increased caspase activation, injury, and alterations in hepatocyte proliferation. The expression of dominant negative JNK1 inhibited c-Jun phosphorylation, AP-1 activation, and hepatic injury following I/R in JunD-/- mice but, paradoxically, led to an enhancement of AP-1 activation and liver injury in JunD+/- littermates. Enhanced JunD/JNK1-dependent liver injury correlated with the acute induction of diphenylene iodonium-sensitive NADPH-dependent superoxide production by the liver following I/R. In this context, dominant negative JNK1 expression elevated both Nox2 and Nox4 mRNA levels in the liver in a JunD-dependent manner. These findings suggest that JunD counterbalances JNK1 activation and the downstream redox-dependent hepatic injury that results from I/R, and may do so by regulating NADPH oxidases.

Highlights

(I/R)3 following transplantation and/or surgical resection, and this can significantly influence patient survival [1,2,3,4]
Infected with control Ad.LacZ virus was diphenylene iodonium (DPI)-insensitive. Results from these experiments demonstrated hyperactiva- 5C, left panel). These findings suggest that both NADPH oxition of NADPH-dependent superoxide production in the livers dase and other sources of superoxide production in the liver of Ad.LacZ-infected JunDϪ/Ϫ mice, with a 17-fold enhance- following I/R are influenced by hepatic JunD and/or JNK1 ment at 6 h of reperfusion as compared with Ad.LacZ-infected activities
To dominant negative JNK1 (dnJNK1) expression inhibited I/R-induced NADPH-dependent this end, we evaluated whether JunD- and dnJNK-mediated altersuperoxide production in JunDϪ/Ϫ animals but promoted reactive oxygen species (ROS) ations in NADPH oxidases (Nox) activity in the liver following I/R might be the result production in JunDϩ/Ϫ littermates (Fig. 5A, right panel)

Summary

Introduction

(I/R)3 following transplantation and/or surgical resection, and this can significantly influence patient survival [1,2,3,4]. AP-1 transcriptional activation during the acute phases of c-Jun serine 63 phosphorylation following liver I/R, in cominjury (6 –9 h) was nearly completely inhibited by dnJNK1 parison with LacZ-expressing control JunDϩ/Ϫ mice.

Results

Conclusion