Genome-wide DNA Methylation Study of Hip and Knee Cartilage Reveals Embryonic Organ and Skeletal System Morphogenesis As Major Pathways Involved in Osteoarthritis

Overview

Journal BMC Musculoskelet Disord

Publisher Biomed Central

Specialties Orthopedics
Physiology

Date 2015 Oct 11

PMID 26453558

Citations 24

Authors

Erfan Aref-Eshghi

YuHua Zhang

Ming Liu

Patricia E Harper

Glynn Martin

Andrew Furey

Roger Green

Guang Sun

Proton Rahman

Guangju Zhai

Affiliations

Soon will be listed here.

Abstract

Background: Evidence suggests that epigenetics plays a role in osteoarthrits (OA). The aim of the study was to describe the genome wide DNA methylation changes in hip and knee OA and identify novel genes and pathways involved in OA by comparing the DNA methylome of the hip and knee osteoarthritic cartilage tissues with those of OA-free individuals.

Methods: Cartilage samples were collected from hip or knee joint replacement patients either due to primary OA or hip fractures as controls. DNA was extracted from the collected cartilage and assayed by Illumina Infinium HumanMethylation450 BeadChip array, which allows for the analysis of >480,000 CpG sites. Student T-test was conducted for each CpG site and those sites with at least 10 % methylation difference and a p value <0.0005 were defined as differentially methylated regions (DMRs) for OA. A sub-analysis was also done for hip and knee OA separately. DAVID v6.7 was used for the functional annotation clustering of the DMR genes. Clustering analysis was done using multiple dimensional scaling and hierarchical clustering methods.

Results: The study included 5 patients with hip OA, 6 patients with knee OA and 7 hip cartilage samples from OA-free individuals. The comparisons of hip, knee and combined hip/knee OA patients with controls resulted in 26, 72, and 103 DMRs, respectively. The comparison between hip and knee OA revealed 67 DMRs. The overall number of the sites after considering the overlaps was 239, among which 151 sites were annotated to 145 genes. One-fifth of these genes were reported in previous studies. The functional annotation clustering of the identified genes revealed clusters significantly enriched in skeletal system morphogenesis and development. The analysis revealed significant difference among OA and OA-free cartilage, but less different between hip OA and knee OA.

Conclusions: We found that a number of CpG sites and genes across the genome were differentially methylated in OA patients, a remarkable portion of which seem to be involved in potential etiologic mechanisms of OA. Genes involved in skeletal developmental pathways and embryonic organ morphogenesis may be a potential area for further OA studies.

Citing Articles

DNA methylation and its influence on the pathogenesis of osteoarthritis: a systematic literature review.

Nau T, Cutts S, Naidoo N EFORT Open Rev. 2025; 10(2):66-74.

PMID: 40071982 PMC: 11825139. DOI: 10.1530/EOR-22-0088.

The identification of hub-methylated differentially expressed genes in osteoarthritis patients is based on epigenomic and transcriptomic data.

Chu Z, Cong T, Zhao J, Zhang J, Lou Z, Gao Y Front Med (Lausanne). 2023; 10:1219830.

PMID: 37465641 PMC: 10351907. DOI: 10.3389/fmed.2023.1219830.

A Pilot Analysis of Genome-Wide DNA Methylation Patterns in Mouse Cartilage Reveals Overlapping Epigenetic Signatures of Aging and Osteoarthritis.

Izda V, Dunn C, Prinz E, Schlupp L, Nguyen E, Sturdy C ACR Open Rheumatol. 2022; 4(12):1004-1012.

PMID: 36253145 PMC: 9746664. DOI: 10.1002/acr2.11506.

Multi-omics molecular biomarkers and database of osteoarthritis.

Li J, Yang X, Chu Q, Xie L, Ding Y, Xu X Database (Oxford). 2022; 2022.

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Making sense of the ageing methylome.

Seale K, Horvath S, Teschendorff A, Eynon N, Voisin S Nat Rev Genet. 2022; 23(10):585-605.

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