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Literature DB >> 30344099

Mixed Lineage Kinase Domain-like Protein MLKL Breaks Down Myelin following Nerve Injury.

Zhengxin Ying¹, Chenjie Pan², Tianyu Shao¹, Liqing Liu¹, Lin Li¹, Dejia Guo¹, Sitao Zhang¹, Tianyi Yuan¹, Ran Cao¹, Zhaodi Jiang¹, She Chen¹, Fengchao Wang¹, Xiaodong Wang³.

Abstract

Successful regeneration of severed peripheral nerves requires the breakdown and subsequent clearance of myelin, tightly packed membrane sheaths of Schwann cells that protect nerve fibers and harbor nerve growth-inhibitory proteins. How Schwann cells initiate myelin breakdown in response to injury is still largely unknown. Here we report that, following sciatic nerve injury, MLKL, a pseudokinase known to rupture cell membranes during necroptotic cell death, is induced and targets the myelin sheath membrane of Schwann cells to promote myelin breakdown. The function of MLKL in disrupting myelin sheaths requires injury-induced phosphorylation of serine 441, an activation signal distinct from the necroptosis-inducing phosphorylation by RIP3 kinase. Mice with Mlkl specifically knocked out in Schwann cells showed delayed myelin sheath breakdown. Lack of MLKL reduced nerve regeneration following injury, whereas overexpression of MLKL accelerated myelin breakdown and promoted the regeneration of axons.

Entities: Chemical Disease Gene Species

Keywords: Schwann cell; Wallerian degeneration; demyelination; necroptosis; nerve regeneration

Mesh：

Substances：

Year: 2018 PMID： 30344099 DOI： 10.1016/j.molcel.2018.09.011

Source DB: PubMed Journal: Mol Cell ISSN： 1097-2765 Impact factor: 17.970

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Cited

28 in total

1. Deletion of Calcineurin in Schwann Cells Does Not Affect Developmental Myelination, But Reduces Autophagy and Delays Myelin Clearance after Peripheral Nerve Injury.

Authors: Chelsey B Reed; Luciana R Frick; Adam Weaver; Mariapaola Sidoli; Elizabeth Schlant; M Laura Feltri; Lawrence Wrabetz
Journal: J Neurosci Date: 2020-07-08 Impact factor: 6.167

2. MLKL ubiquitylation: more than a makeover.

Authors: Weihong Wang; Yi-Nan Gong
Journal: Cell Death Differ Date: 2022-01-12 Impact factor: 12.067

3. Cell-specific activation of RIPK1 and MLKL after intracerebral hemorrhage in mice.

Authors: Sevda Lule; Limin Wu; Aliyah Sarro-Schwartz; William J Edmiston; Saef Izzy; Tanya Songtachalert; So Hee Ahn; Neil D Fernandes; Gina Jin; Joon Yong Chung; Siddharth Balachandran; Eng H Lo; David Kaplan; Alexei Degterev; Michael J Whalen
Journal: J Cereb Blood Flow Metab Date: 2020-11-19 Impact factor: 6.200

4. RIP1 kinase inhibitor halts the progression of an immune-induced demyelination disease at the stage of monocyte elevation.

Authors: Sitao Zhang; Yaning Su; Zhengxin Ying; Dejia Guo; Chenjie Pan; Jia Guo; Ziye Zou; Lei Wang; Ze Zhang; Zhaodi Jiang; Zhiyuan Zhang; Xiaodong Wang
Journal: Proc Natl Acad Sci U S A Date: 2019-03-05 Impact factor: 11.205

Review 5. The regulation of necroptosis by post-translational modifications.

Authors: Yanxiang Meng; Jarrod J Sandow; Peter E Czabotar; James M Murphy
Journal: Cell Death Differ Date: 2021-01-18 Impact factor: 15.828

6. A phosphorylation of RIPK3 kinase initiates an intracellular apoptotic pathway that promotes prostaglandin_2α-induced corpus luteum regression.

Authors: Dianrong Li; Jie Chen; Jia Guo; Lin Li; Gaihong Cai; She Chen; Jia Huang; Hui Yang; Yinhua Zhuang; Fengchao Wang; Xiaodong Wang
Journal: Elife Date: 2021-05-24 Impact factor: 8.140

Review 7. MLKL in cancer: more than a necroptosis regulator.

Authors: Peter Vandenabeele; Nozomi Takahashi; Sofie Martens; Jolien Bridelance; Ria Roelandt
Journal: Cell Death Differ Date: 2021-05-05 Impact factor: 12.067

8. Pro-Inflammatory Signaling Upregulates a Neurotoxic Conotoxin-Like Protein Encrypted Within Human Endogenous Retrovirus-K.

Authors: Domenico Di Curzio; Mamneet Gurm; Matthew Turnbull; Marie-Josée Nadeau; Breanna Meek; Julia D Rempel; Samuel Fineblit; Michael Jonasson; Sherry Hebert; Jennifer Ferguson-Parry; Renée N Douville
Journal: Cells Date: 2020-06-30 Impact factor: 6.600

9. The MLKL kinase-like domain dimerization is an indispensable step of mammalian MLKL activation in necroptosis signaling.

Authors: Yu Zhang; Jia Liu; Dandan Yu; Xinxin Zhu; Xiaoyan Liu; Jun Liao; Sheng Li; Huayi Wang
Journal: Cell Death Dis Date: 2021-06-22 Impact factor: 8.469

Review 10. The Role of the Key Effector of Necroptotic Cell Death, MLKL, in Mouse Models of Disease.

Authors: Emma C Tovey Crutchfield; Sarah E Garnish; Joanne M Hildebrand
Journal: Biomolecules Date: 2021-05-28