Author
Listed:
- Dhanushka N. P. Munkanatta Godage
(Wayne State University)
- Garrett C. VanHecke
(Wayne State University)
- Kusal T. G. Samarasinghe
(Wayne State University)
- Han-Zhong Feng
(Wayne State University School of Medicine)
- Mark Hiske
(Wayne State University School of Medicine)
- Joshua Holcomb
(Wayne State University School of Medicine)
- Zhe Yang
(Wayne State University School of Medicine)
- Jian-Ping Jin
(Wayne State University School of Medicine)
- Charles S. Chung
(Wayne State University School of Medicine)
- Young-Hoon Ahn
(Wayne State University)
Abstract
Reactive oxygen species (ROS) contribute to the etiology of multiple muscle-related diseases. There is emerging evidence that cellular stress can lead to destabilization of sarcomeres, the contractile unit of muscle. However, it is incompletely understood how cellular stress induces structural destabilization of sarcomeres. Here we report that glutathionylation of SMYD2 contributes to a loss of myofibril integrity and degradation of sarcomeric proteins mediated by MMP-2 and calpain 1. We used a clickable glutathione approach in a cardiomyocyte cell line and found selective glutathionylation of SMYD2 at Cys13. Biochemical analysis demonstrated that SMYD2 upon oxidation or glutathionylation at Cys13 loses its interaction with Hsp90 and N2A, a domain of titin. Upon dissociation from SMYD2, N2A or titin is degraded by activated MMP-2, suggesting a protective role of SMYD2 in sarcomere stability. Taken together, our results support that SMYD2 glutathionylation is a novel molecular mechanism by which ROS contribute to sarcomere destabilization.
Suggested Citation
Dhanushka N. P. Munkanatta Godage & Garrett C. VanHecke & Kusal T. G. Samarasinghe & Han-Zhong Feng & Mark Hiske & Joshua Holcomb & Zhe Yang & Jian-Ping Jin & Charles S. Chung & Young-Hoon Ahn, 2018.
"SMYD2 glutathionylation contributes to degradation of sarcomeric proteins,"
Nature Communications, Nature, vol. 9(1), pages 1-14, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06786-x
DOI: 10.1038/s41467-018-06786-x
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