Literature DB >> 32978775

Changes in DNA methylation accompany changes in gene expression during chondrocyte hypertrophic differentiation in vitro.

Purva Singh1, Samantha G Lessard1, Piali Mukherjee2, Brennan Rourke1, Miguel Otero1.   

Abstract

During osteoarthritis (OA), articular chondrocytes undergo phenotypic changes that resemble developmental patterns characteristic of growth plate chondrocytes. These phenotypic alterations lead to a hypertrophy-like phenotype characterized by altered production of extracellular matrix constituents and increased collagenase activity, which, in turn, results in cartilage destruction in OA disease. Recent studies have shown that the phenotypic instability and dysregulated gene expression in OA are associated with changes in DNA methylation patterns. Subsequent efforts have aimed to identify changes in DNA methylation with functional impact in OA disease, to potentially uncover therapeutic targets. Here, we paired an in vitro 3D/pellet culture system that mimics chondrocyte hypertrophy with RNA sequencing (RNA-Seq) and enhanced reduced representation of bisulfite sequencing (ERRBS) to identify transcriptomic and epigenomic changes in murine primary articular chondrocytes undergoing hypertrophy-like differentiation. We identified hypertrophy-associated changes in DNA methylation patterns in vitro. Integration of RNA-Seq and ERRBS datasets identified associations between changes in methylation and gene expression. Our integrative analyses showed that hypertrophic differentiation of articular chondrocytes is accompanied by transcriptomic and epigenomic changes in vitro. We believe that our integrative approaches have the potential to uncover new targets for therapeutic intervention.
© 2020 New York Academy of Sciences.

Entities:  

Keywords:  DNA methylation; ERRBS; RNA-Seq; chondrocytes; hypertrophy

Mesh:

Year:  2020        PMID: 32978775      PMCID: PMC7990741          DOI: 10.1111/nyas.14494

Source DB:  PubMed          Journal:  Ann N Y Acad Sci        ISSN: 0077-8923            Impact factor:   5.691


  80 in total

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3.  Sox9 directs hypertrophic maturation and blocks osteoblast differentiation of growth plate chondrocytes.

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4.  Contribution of runt-related transcription factor 2 to the pathogenesis of osteoarthritis in mice after induction of knee joint instability.

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Journal:  Arthritis Rheum       Date:  2006-08

5.  Patterns of expression of murine Vgr-1 and BMP-2a RNA suggest that transforming growth factor-beta-like genes coordinately regulate aspects of embryonic development.

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6.  Base-pair resolution DNA methylation sequencing reveals profoundly divergent epigenetic landscapes in acute myeloid leukemia.

Authors:  Altuna Akalin; Francine E Garrett-Bakelman; Matthias Kormaksson; Jennifer Busuttil; Lu Zhang; Irina Khrebtukova; Thomas A Milne; Yongsheng Huang; Debabrata Biswas; Jay L Hess; C David Allis; Robert G Roeder; Peter J M Valk; Bob Löwenberg; Ruud Delwel; Hugo F Fernandez; Elisabeth Paietta; Martin S Tallman; Gary P Schroth; Christopher E Mason; Ari Melnick; Maria E Figueroa
Journal:  PLoS Genet       Date:  2012-06-21       Impact factor: 5.917

7.  Association of reduced type IX collagen gene expression in human osteoarthritic chondrocytes with epigenetic silencing by DNA hypermethylation.

Authors:  Kei Imagawa; María C de Andrés; Ko Hashimoto; Eiji Itoi; Miguel Otero; Helmtrud I Roach; Mary B Goldring; Richard O C Oreffo
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8.  Characterization of the cartilage DNA methylome in knee and hip osteoarthritis.

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9.  Identification of DNA methylation changes associated with disease progression in subchondral bone with site-matched cartilage in knee osteoarthritis.

Authors:  Yanfei Zhang; Naoshi Fukui; Mitsunori Yahata; Yozo Katsuragawa; Toshiyuki Tashiro; Shiro Ikegawa; Ming Ta Michael Lee
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10.  Chromatin accessibility landscape of articular knee cartilage reveals aberrant enhancer regulation in osteoarthritis.

Authors:  Ye Liu; Jen-Chien Chang; Chung-Chau Hon; Naoshi Fukui; Nobuho Tanaka; Zhenya Zhang; Ming Ta Michael Lee; Aki Minoda
Journal:  Sci Rep       Date:  2018-10-19       Impact factor: 4.379
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2.  A Single-Cell Culture System for Dissecting Microenvironmental Signaling in Development and Disease of Cartilage Tissue.

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3.  Transcriptomic and epigenomic analyses uncovered Lrrc15 as a contributing factor to cartilage damage in osteoarthritis.

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4.  Changes in DNA methylation hallmark alterations in chromatin accessibility and gene expression for eye lens differentiation.

Authors:  J Fielding Hejtmancik; Marc Kantorow; Joshua Disatham; Lisa Brennan; Xiaodong Jiao; Zhiwei Ma
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5.  Association of circulating gene expression signatures with stiffness following total knee arthroplasty for osteoarthritis: a pilot study.

Authors:  Samantha G Lessard; Marjan Khan; Meghan A Kirksey; George A Birch; David Oliver; Purva Singh; Valeria Rotundo; Alexandra Sideris; Alejandro Gonzalez Della Valle; Michael L Parks; Peter K Sculco; Miguel Otero
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6.  In vitro responses to platelet-rich-plasma are associated with variable clinical outcomes in patients with knee osteoarthritis.

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Review 7.  Macro, Micro, and Molecular. Changes of the Osteochondral Interface in Osteoarthritis Development.

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