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MLKL inhibits intestinal tumorigenesis by suppressing STAT3 signaling pathway.


ABSTRACT: Mixed lineage kinase domain-like protein (MLKL) plays an important role in necroptosis, but the role and mechanism of MLKL in intestinal tumorigenesis remain unclear. Here, we found that hematopoietic- and nonhematopoietic-derived MLKL affected intestinal inflammation, but nonhematopoietic-derived MLKL primarily inhibited intestinal tumorigenesis. Loss of MLKL enhanced intestinal regeneration and the susceptibility to intestinal tumorigenesis in Apcmin/+ mice by hyperactivating the Janus kinase 2 (JAK2)/ signal transducer and activator of transcription 3 (STAT3) axis. Furthermore, MLKL deficiency increased interleukin-6 (IL-6) production in dendritic cells. Administration of anti-IL-6R antibody therapy reduced intestinal tumorigenesis in Apcmin/+Mlkl-/- mice. Notably, low MLKL expression in human colorectal tumors, which enhanced STAT3 activation, was associated with decreased overall survival. Together, our results reveal that MLKL exhibits a suppressive effect during intestinal tumorigenesis by suppressing the IL-6/JAK2/STAT3 signals.

SUBMITTER: Zhao Q 

PROVIDER: S-EPMC7975698 | biostudies-literature | 2021

REPOSITORIES: biostudies-literature

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MLKL inhibits intestinal tumorigenesis by suppressing STAT3 signaling pathway.

Zhao Qun Q   Cheng Xinran X   Guo Jian J   Bi Yun Y   Kuang Li L   Ren Jianhua J   Zhong Jing J   Pan Longrui L   Zhang Xudong X   Guo Yang Y   Liu Yongqiang Y   Jin Shu S   Tan Yan Y   Yu Xianjun X  

International journal of biological sciences 20210217 3


Mixed lineage kinase domain-like protein (MLKL) plays an important role in necroptosis, but the role and mechanism of MLKL in intestinal tumorigenesis remain unclear. Here, we found that hematopoietic- and nonhematopoietic-derived MLKL affected intestinal inflammation, but nonhematopoietic-derived MLKL primarily inhibited intestinal tumorigenesis. Loss of MLKL enhanced intestinal regeneration and the susceptibility to intestinal tumorigenesis in <i>Apc<sup>min/+</sup></i> mice by hyperactivating  ...[more]

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