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随着年龄增长,Cx43/miR21信号通路的破坏会导致骨细胞凋亡并增加破骨细胞生成。

Disruption of the Cx43/miR21 pathway leads to osteocyte apoptosis and increased osteoclastogenesis with aging.

作者信息

Davis Hannah M, Pacheco-Costa Rafael, Atkinson Emily G, Brun Lucas R, Gortazar Arancha R, Harris Julia, Hiasa Masahiro, Bolarinwa Surajudeen A, Yoneda Toshiyuki, Ivan Mircea, Bruzzaniti Angela, Bellido Teresita, Plotkin Lilian I

机构信息

Department of Anatomy & Cell Biology, Indiana University School of Medicine, Indianapolis, IN, USA.

Instituto de Medicina Molecular Aplicada, Facultad de Medicina, Universidad San Pablo-CEU, Madrid, Spain.

出版信息

Aging Cell. 2017 Jun;16(3):551-563. doi: 10.1111/acel.12586. Epub 2017 Mar 19.

DOI:10.1111/acel.12586
PMID:28317237
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5418188/
Abstract

Skeletal aging results in apoptosis of osteocytes, cells embedded in bone that control the generation/function of bone forming and resorbing cells. Aging also decreases connexin43 (Cx43) expression in bone; and osteocytic Cx43 deletion partially mimics the skeletal phenotype of old mice. Particularly, aging and Cx43 deletion increase osteocyte apoptosis, and osteoclast number and bone resorption on endocortical bone surfaces. We examined herein the molecular signaling events responsible for osteocyte apoptosis and osteoclast recruitment triggered by aging and Cx43 deficiency. Cx43-silenced MLO-Y4 osteocytic (Cx43 ) cells undergo spontaneous cell death in culture through caspase-3 activation and exhibit increased levels of apoptosis-related genes, and only transfection of Cx43 constructs able to form gap junction channels reverses Cx43 cell death. Cx43 cells and bones from old mice exhibit reduced levels of the pro-survival microRNA miR21 and, consistently, increased levels of the miR21 target phosphatase and tensin homolog (PTEN) and reduced phosphorylated Akt, whereas PTEN inhibition reduces Cx43 cell apoptosis. miR21 reduction is sufficient to induce apoptosis of Cx43-expressing cells and miR21 deletion in miR21 bones increases apoptosis-related gene expression, whereas a miR21 mimic prevents Cx43 cell apoptosis, demonstrating that miR21 lies downstream of Cx43. Cx43 cells release more osteoclastogenic cytokines [receptor activator of NFκB ligand (RANKL)/high-mobility group box-1 (HMGB1)], and caspase-3 inhibition prevents RANKL/HMGB1 release and the increased osteoclastogenesis induced by conditioned media from Cx43 cells, which is blocked by antagonizing HMGB1-RAGE interaction. These findings identify a novel Cx43/miR21/HMGB1/RANKL pathway involved in preventing osteocyte apoptosis that also controls osteoclast formation/recruitment and is impaired with aging.

摘要

骨骼老化会导致骨细胞凋亡,骨细胞是嵌入骨骼中的细胞,控制着骨形成细胞和骨吸收细胞的生成/功能。老化还会降低骨骼中连接蛋白43(Cx43)的表达;而骨细胞中Cx43的缺失部分模拟了老年小鼠的骨骼表型。特别是,老化和Cx43缺失会增加骨细胞凋亡、破骨细胞数量以及骨内膜骨表面的骨吸收。我们在此研究了由老化和Cx43缺乏引发的骨细胞凋亡和破骨细胞募集所涉及的分子信号事件。Cx43沉默的MLO-Y4骨细胞(Cx43−)在培养中通过半胱天冬酶-3激活发生自发细胞死亡,并表现出凋亡相关基因水平升高,只有转染能够形成间隙连接通道的Cx43构建体才能逆转Cx43−细胞死亡。Cx43−细胞和老年小鼠的骨骼中促生存微小RNA miR21的水平降低,并且一致地,miR21靶标磷酸酶和张力蛋白同源物(PTEN)的水平升高,磷酸化Akt水平降低,而PTEN抑制可减少Cx43−细胞凋亡。miR21减少足以诱导表达Cx43的细胞凋亡,miR21−/−骨骼中miR21的缺失会增加凋亡相关基因的表达,而miR21模拟物可防止Cx43−细胞凋亡,表明miR21位于Cx43下游。Cx43−细胞释放更多的破骨细胞生成细胞因子[核因子κB受体激活剂配体(RANKL)/高迁移率族蛋白B1(HMGB1)],半胱天冬酶-3抑制可阻止RANKL/HMGB1释放以及由Cx43−细胞条件培养基诱导的破骨细胞生成增加,这可通过拮抗HMGB1-RAGE相互作用来阻断。这些发现确定了一条新的Cx43/miR21/HMGB1/RANKL途径,该途径参与预防骨细胞凋亡,同时也控制破骨细胞的形成/募集,并且随着老化而受损。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e414/5418188/6f6ccb898375/ACEL-16-551-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e414/5418188/dd82abbd649e/ACEL-16-551-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e414/5418188/270bbc75f381/ACEL-16-551-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e414/5418188/68b64ace4df1/ACEL-16-551-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e414/5418188/65ac78bf6480/ACEL-16-551-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e414/5418188/4fb88c9af759/ACEL-16-551-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e414/5418188/6f6ccb898375/ACEL-16-551-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e414/5418188/dd82abbd649e/ACEL-16-551-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e414/5418188/270bbc75f381/ACEL-16-551-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e414/5418188/68b64ace4df1/ACEL-16-551-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e414/5418188/65ac78bf6480/ACEL-16-551-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e414/5418188/4fb88c9af759/ACEL-16-551-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e414/5418188/6f6ccb898375/ACEL-16-551-g006.jpg

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