The Distinct Function of p21Waf1/Cip1 With p16Ink4a in Modulating Aging Phenotypes of Werner Syndrome by Affecting Tissue Homeostasis

The Distinct Function of p21Waf1/Cip1 With p16Ink4a in Modulating Aging Phenotypes of Werner Syndrome by Affecting Tissue Homeostasis

Human Werner syndrome (WS) is an autosomal recessive progeria disease. A mouse model of WS manifests the disease through telomere dysfunction-induced aging phenotypes, which might result from cell cycle control and cellular senescence. Both p21Waf1/Cip1 (p21, encoded by the Cdkn1a gene) and p16Ink4a...

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Main Authors: Yongjin Zhang, Chihao Shao, Haili Li, Kun Wu, Lixin Gong, Quan Zheng, Juhua Dan, Shuting Jia, Xiaodan Tang, Xiaoming Wu, Ying Luo
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-02-01
Series:Frontiers in Genetics
Subjects:
p21Waf1/Cip1
p16INK4a
aging
tissue homeostasis
Werner syndrome
Online Access:https://www.frontiersin.org/articles/10.3389/fgene.2021.597566/full
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record_format Article
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language English
format Article
sources DOAJ
author Yongjin Zhang
Chihao Shao
Haili Li
Haili Li
Kun Wu
Kun Wu
Lixin Gong
Quan Zheng
Juhua Dan
Shuting Jia
Xiaodan Tang
Xiaoming Wu
Ying Luo
Ying Luo
Ying Luo
spellingShingle Yongjin Zhang
Chihao Shao
Haili Li
Haili Li
Kun Wu
Kun Wu
Lixin Gong
Quan Zheng
Juhua Dan
Shuting Jia
Xiaodan Tang
Xiaoming Wu
Ying Luo
Ying Luo
Ying Luo
The Distinct Function of p21Waf1/Cip1 With p16Ink4a in Modulating Aging Phenotypes of Werner Syndrome by Affecting Tissue Homeostasis
Frontiers in Genetics
p21Waf1/Cip1
p16INK4a
aging
tissue homeostasis
Werner syndrome
author_facet Yongjin Zhang
Chihao Shao
Haili Li
Haili Li
Kun Wu
Kun Wu
Lixin Gong
Quan Zheng
Juhua Dan
Shuting Jia
Xiaodan Tang
Xiaoming Wu
Ying Luo
Ying Luo
Ying Luo
author_sort Yongjin Zhang
title The Distinct Function of p21Waf1/Cip1 With p16Ink4a in Modulating Aging Phenotypes of Werner Syndrome by Affecting Tissue Homeostasis
title_short The Distinct Function of p21Waf1/Cip1 With p16Ink4a in Modulating Aging Phenotypes of Werner Syndrome by Affecting Tissue Homeostasis
title_full The Distinct Function of p21Waf1/Cip1 With p16Ink4a in Modulating Aging Phenotypes of Werner Syndrome by Affecting Tissue Homeostasis
title_fullStr The Distinct Function of p21Waf1/Cip1 With p16Ink4a in Modulating Aging Phenotypes of Werner Syndrome by Affecting Tissue Homeostasis
title_full_unstemmed The Distinct Function of p21Waf1/Cip1 With p16Ink4a in Modulating Aging Phenotypes of Werner Syndrome by Affecting Tissue Homeostasis
title_sort distinct function of p21waf1/cip1 with p16ink4a in modulating aging phenotypes of werner syndrome by affecting tissue homeostasis
publisher Frontiers Media S.A.
series Frontiers in Genetics
issn 1664-8021
publishDate 2021-02-01
description Human Werner syndrome (WS) is an autosomal recessive progeria disease. A mouse model of WS manifests the disease through telomere dysfunction-induced aging phenotypes, which might result from cell cycle control and cellular senescence. Both p21Waf1/Cip1 (p21, encoded by the Cdkn1a gene) and p16Ink4a (p16, encoded by the Ink4a gene) are cell cycle inhibitors and are involved in regulating two key pathways of cellular senescence. To test the effect of p21 and p16 deficiencies in WS, we crossed WS mice (DKO) with p21–/– or p16–/– mice to construct triple knockout (p21-TKO or p16-TKO) mice. By studying the survival curve, bone density, regenerative tissue (testis), and stem cell capacity (intestine), we surprisingly found that p21-TKO mice displayed accelerated premature aging compared with DKO mice, while p16-TKO mice showed attenuation of the aging phenotypes. The incidence of apoptosis and cellular senescence were upregulated in p21-TKO mice tissue and downregulated in p16-TKO mice. Surprisingly, cellular proliferation in p21-TKO mice tissue was also upregulated, and the p21-TKO mice did not show telomere shortening compared with age-matched DKO mice, although p16-TKO mice displayed obvious enhancement of telomere lengthening. Consistent with these phenotypes, the SIRT1-PGC1 pathway was upregulated in p16-TKO but downregulated in p21-TKO compared with DKO mouse embryo fibroblasts (MEFs). However, the DNA damage response pathway was highly activated in p21-TKO, but rescued in p16-TKO, compared with DKO MEFs. These data suggest that p21 protected the stem cell reservoir by regulating cellular proliferation and turnover at a proper rate and that p21 loss in WS activated fairly severe DNA damage responses (DDR), which might cause an abnormal increase in tissue homeostasis. On the other hand, p16 promoted cellular senescence by inhibiting cellular proliferation, and p16 deficiency released this barrier signal without causing severe DDR.
topic p21Waf1/Cip1
p16INK4a
aging
tissue homeostasis
Werner syndrome
url https://www.frontiersin.org/articles/10.3389/fgene.2021.597566/full
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spelling doaj-b501c313ff874b3d8f4e8bc808893f152021-02-05T07:47:15ZengFrontiers Media S.A.Frontiers in Genetics1664-80212021-02-011210.3389/fgene.2021.597566597566The Distinct Function of p21Waf1/Cip1 With p16Ink4a in Modulating Aging Phenotypes of Werner Syndrome by Affecting Tissue HomeostasisYongjin Zhang0Chihao Shao1Haili Li2Haili Li3Kun Wu4Kun Wu5Lixin Gong6Quan Zheng7Juhua Dan8Shuting Jia9Xiaodan Tang10Xiaoming Wu11Ying Luo12Ying Luo13Ying Luo14Laboratory of Molecular Genetics of Aging & Tumor, Medical School, Kunming University of Science and Technology, Kunming, ChinaLaboratory of Molecular Genetics of Aging & Tumor, Medical School, Kunming University of Science and Technology, Kunming, ChinaLaboratory of Molecular Genetics of Aging & Tumor, Medical School, Kunming University of Science and Technology, Kunming, ChinaGuizhou Provincial Key Laboratory of Pathogenesis & Drug Development on Common Chronic Diseases, School of Basic Medicine, Guizhou Medical University, Guiyang, ChinaLaboratory of Molecular Genetics of Aging & Tumor, Medical School, Kunming University of Science and Technology, Kunming, ChinaYunnan Provincial Institute of Digestive Disease, Department of Gastroenterology, First People’s Hospital of Yunnan Province, Kunming, ChinaLaboratory of Molecular Genetics of Aging & Tumor, Medical School, Kunming University of Science and Technology, Kunming, ChinaLaboratory of Molecular Genetics of Aging & Tumor, Medical School, Kunming University of Science and Technology, Kunming, ChinaLaboratory of Molecular Genetics of Aging & Tumor, Medical School, Kunming University of Science and Technology, Kunming, ChinaLaboratory of Molecular Genetics of Aging & Tumor, Medical School, Kunming University of Science and Technology, Kunming, ChinaYunnan Provincial Institute of Digestive Disease, Department of Gastroenterology, First People’s Hospital of Yunnan Province, Kunming, ChinaLaboratory of Molecular Genetics of Aging & Tumor, Medical School, Kunming University of Science and Technology, Kunming, ChinaLaboratory of Molecular Genetics of Aging & Tumor, Medical School, Kunming University of Science and Technology, Kunming, ChinaGuizhou Provincial Key Laboratory of Pathogenesis & Drug Development on Common Chronic Diseases, School of Basic Medicine, Guizhou Medical University, Guiyang, ChinaYunnan Provincial Institute of Digestive Disease, Department of Gastroenterology, First People’s Hospital of Yunnan Province, Kunming, ChinaHuman Werner syndrome (WS) is an autosomal recessive progeria disease. A mouse model of WS manifests the disease through telomere dysfunction-induced aging phenotypes, which might result from cell cycle control and cellular senescence. Both p21Waf1/Cip1 (p21, encoded by the Cdkn1a gene) and p16Ink4a (p16, encoded by the Ink4a gene) are cell cycle inhibitors and are involved in regulating two key pathways of cellular senescence. To test the effect of p21 and p16 deficiencies in WS, we crossed WS mice (DKO) with p21–/– or p16–/– mice to construct triple knockout (p21-TKO or p16-TKO) mice. By studying the survival curve, bone density, regenerative tissue (testis), and stem cell capacity (intestine), we surprisingly found that p21-TKO mice displayed accelerated premature aging compared with DKO mice, while p16-TKO mice showed attenuation of the aging phenotypes. The incidence of apoptosis and cellular senescence were upregulated in p21-TKO mice tissue and downregulated in p16-TKO mice. Surprisingly, cellular proliferation in p21-TKO mice tissue was also upregulated, and the p21-TKO mice did not show telomere shortening compared with age-matched DKO mice, although p16-TKO mice displayed obvious enhancement of telomere lengthening. Consistent with these phenotypes, the SIRT1-PGC1 pathway was upregulated in p16-TKO but downregulated in p21-TKO compared with DKO mouse embryo fibroblasts (MEFs). However, the DNA damage response pathway was highly activated in p21-TKO, but rescued in p16-TKO, compared with DKO MEFs. These data suggest that p21 protected the stem cell reservoir by regulating cellular proliferation and turnover at a proper rate and that p21 loss in WS activated fairly severe DNA damage responses (DDR), which might cause an abnormal increase in tissue homeostasis. On the other hand, p16 promoted cellular senescence by inhibiting cellular proliferation, and p16 deficiency released this barrier signal without causing severe DDR.https://www.frontiersin.org/articles/10.3389/fgene.2021.597566/fullp21Waf1/Cip1p16INK4aagingtissue homeostasisWerner syndrome

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