Down-regulated in OA cartilage, SFMBT2 contributes to NF-κB-mediated ECM degradation

Safdar Hussain; Mengyao Sun; Zixin Min; Yuanxu Guo; Jing Xu; Nosheen Mushtaq; Lisong Heng; Huang Huang; Yitong Zhao; Ying Yuan; Nazim Hussain; Fujun Zhang; Yan Han; Peng Xu; Jian Sun; Shemin Lu

doi:10.1111/jcmm.13826

Down-regulated in OA cartilage, SFMBT2 contributes to NF-κB-mediated ECM degradation

Safdar Hussain
, Mengyao Sun
, Zixin Min
, Yuanxu Guo
, Jing Xu
, Nosheen Mushtaq
, Lisong Heng
, Huang Huang
, Yitong Zhao
, Ying Yuan
, Nazim Hussain
, Fujun Zhang
, Yan Han
, Peng Xu
, Jian Sun
, Shemin Lu

Health Science Center

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

The interplay between anabolic and catabolic factors regulates cartilage matrix homoeostasis. In OA, this balance is disrupted which results in cartilage degradation involving a plethora of inflammatory factors. Here, we identify a novel gene “Scm-like with four MBT domains protein 2” (SFMBT2) negatively regulated in OA cartilage. Articular cartilage from human OA patients undergoing knee arthroplasty surgery exhibited significantly decreased levels of SFMBT2 compared to the normal controls. Down-regulation of SFMBT2 by specific siRNA disturbed the metabolic homoeostasis and led to decreased expression of anabolic genes (SOX9, COL2A1) while increasing the expression of catabolic genes (MMP13 and ADAMTS4), in human chondrocytes. Finally, we revealed that SFMBT2 intervention by siRNA contributed to the catabolic phenotype of human chondrocytes mediated by NF-kB pathway.

Original language	English
Pages (from-to)	5753-5758
Number of pages	6
Journal	Journal of Cellular and Molecular Medicine
Volume	22
Issue number	11
DOIs	https://doi.org/10.1111/jcmm.13826
State	Published - Nov 2018

Keywords

cartilage
ECM metabolism
NF-κB
OA
SFMBT2

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10.1111/jcmm.13826

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title = "Down-regulated in OA cartilage, SFMBT2 contributes to NF-κB-mediated ECM degradation",

abstract = "The interplay between anabolic and catabolic factors regulates cartilage matrix homoeostasis. In OA, this balance is disrupted which results in cartilage degradation involving a plethora of inflammatory factors. Here, we identify a novel gene “Scm-like with four MBT domains protein 2” (SFMBT2) negatively regulated in OA cartilage. Articular cartilage from human OA patients undergoing knee arthroplasty surgery exhibited significantly decreased levels of SFMBT2 compared to the normal controls. Down-regulation of SFMBT2 by specific siRNA disturbed the metabolic homoeostasis and led to decreased expression of anabolic genes (SOX9, COL2A1) while increasing the expression of catabolic genes (MMP13 and ADAMTS4), in human chondrocytes. Finally, we revealed that SFMBT2 intervention by siRNA contributed to the catabolic phenotype of human chondrocytes mediated by NF-kB pathway.",

keywords = "cartilage, ECM metabolism, NF-κB, OA, SFMBT2",

author = "Safdar Hussain and Mengyao Sun and Zixin Min and Yuanxu Guo and Jing Xu and Nosheen Mushtaq and Lisong Heng and Huang Huang and Yitong Zhao and Ying Yuan and Nazim Hussain and Fujun Zhang and Yan Han and Peng Xu and Jian Sun and Shemin Lu",

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year = "2018",

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AU - Hussain, Safdar

AU - Sun, Mengyao

AU - Min, Zixin

AU - Guo, Yuanxu

AU - Xu, Jing

AU - Mushtaq, Nosheen

AU - Heng, Lisong

AU - Huang, Huang

AU - Zhao, Yitong

AU - Yuan, Ying

AU - Hussain, Nazim

AU - Zhang, Fujun

AU - Han, Yan

AU - Xu, Peng

AU - Sun, Jian

AU - Lu, Shemin

PY - 2018/11

Y1 - 2018/11

N2 - The interplay between anabolic and catabolic factors regulates cartilage matrix homoeostasis. In OA, this balance is disrupted which results in cartilage degradation involving a plethora of inflammatory factors. Here, we identify a novel gene “Scm-like with four MBT domains protein 2” (SFMBT2) negatively regulated in OA cartilage. Articular cartilage from human OA patients undergoing knee arthroplasty surgery exhibited significantly decreased levels of SFMBT2 compared to the normal controls. Down-regulation of SFMBT2 by specific siRNA disturbed the metabolic homoeostasis and led to decreased expression of anabolic genes (SOX9, COL2A1) while increasing the expression of catabolic genes (MMP13 and ADAMTS4), in human chondrocytes. Finally, we revealed that SFMBT2 intervention by siRNA contributed to the catabolic phenotype of human chondrocytes mediated by NF-kB pathway.

AB - The interplay between anabolic and catabolic factors regulates cartilage matrix homoeostasis. In OA, this balance is disrupted which results in cartilage degradation involving a plethora of inflammatory factors. Here, we identify a novel gene “Scm-like with four MBT domains protein 2” (SFMBT2) negatively regulated in OA cartilage. Articular cartilage from human OA patients undergoing knee arthroplasty surgery exhibited significantly decreased levels of SFMBT2 compared to the normal controls. Down-regulation of SFMBT2 by specific siRNA disturbed the metabolic homoeostasis and led to decreased expression of anabolic genes (SOX9, COL2A1) while increasing the expression of catabolic genes (MMP13 and ADAMTS4), in human chondrocytes. Finally, we revealed that SFMBT2 intervention by siRNA contributed to the catabolic phenotype of human chondrocytes mediated by NF-kB pathway.

KW - cartilage

KW - ECM metabolism

KW - NF-κB

KW - OA

KW - SFMBT2

UR - https://www.scopus.com/pages/publications/85052390272

U2 - 10.1111/jcmm.13826

DO - 10.1111/jcmm.13826

M3 - 文章

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AN - SCOPUS:85052390272

SN - 1582-1838

VL - 22

SP - 5753

EP - 5758

JO - Journal of Cellular and Molecular Medicine

JF - Journal of Cellular and Molecular Medicine

IS - 11

ER -

Down-regulated in OA cartilage, SFMBT2 contributes to NF-κB-mediated ECM degradation

Abstract

Keywords

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