Epigenetic Adaptations of the Masticatory Mucosa to Periodontal Inflammation

Overview

Journal Clin Epigenetics

Publisher Biomed Central

Specialty Genetics

Date 2021 Nov 4

PMID 34732256

Citations 6

Authors

Gesa M Richter

Jochen Kruppa

H Gencay Keceli

Emel Tugba Ataman-Duruel

Christian Graetz

Nicole Pischon

Gunar Wagner

Carsten Rendenbach

Yvonne Jockel-Schneider

Orlando Martins

Corinna Bruckmann

Ingmar Staufenbiel

Andre Franke

Rahime M Nohutcu

Soren Jepsen

Henrik Dommisch

Arne S Schaefer

Affiliations

Soon will be listed here.

Abstract

Background: In mucosal barrier interfaces, flexible responses of gene expression to long-term environmental changes allow adaptation and fine-tuning for the balance of host defense and uncontrolled not-resolving inflammation. Epigenetic modifications of the chromatin confer plasticity to the genetic information and give insight into how tissues use the genetic information to adapt to environmental factors. The oral mucosa is particularly exposed to environmental stressors such as a variable microbiota. Likewise, persistent oral inflammation is the most important intrinsic risk factor for the oral inflammatory disease periodontitis and has strong potential to alter DNA-methylation patterns. The aim of the current study was to identify epigenetic changes of the oral masticatory mucosa in response to long-term inflammation that resulted in periodontitis.

Methods And Results: Genome-wide CpG methylation of both inflamed and clinically uninflamed solid gingival tissue biopsies of 60 periodontitis cases was analyzed using the Infinium MethylationEPIC BeadChip. We validated and performed cell-type deconvolution for infiltrated immune cells using the EpiDish algorithm. Effect sizes of DMPs in gingival epithelial and fibroblast cells were estimated and adjusted for confounding factors using our recently developed "intercept-method". In the current EWAS, we identified various genes that showed significantly different methylation between periodontitis-inflamed and uninflamed oral mucosa in periodontitis patients. The strongest differences were observed for genes with roles in wound healing (ROBO2, PTP4A3), cell adhesion (LPXN) and innate immune response (CCL26, DNAJC1, BPI). Enrichment analyses implied a role of epigenetic changes for vesicle trafficking gene sets.

Conclusions: Our results imply specific adaptations of the oral mucosa to a persistent inflammatory environment that involve wound repair, barrier integrity, and innate immune defense.

Citing Articles

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miRNAs from Inflamed Gingiva Link Gene Signaling to Increased MET Expression.

Zheng L, Chopra A, Weiner 3rd J, Beule D, Dommisch H, Schaefer A J Dent Res. 2023; 102(13):1488-1497.

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Next-Generation Examination, Diagnosis, and Personalized Medicine in Periodontal Disease.

Kikuchi T, Hayashi J, Mitani A J Pers Med. 2022; 12(10).

PMID: 36294882 PMC: 9605396. DOI: 10.3390/jpm12101743.

Multi-omics analysis reveals the effects of microbiota on oral homeostasis.

Long H, Yan L, Pu J, Liu Y, Zhong X, Wang H Front Immunol. 2022; 13:1005992.

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Epigenetics in susceptibility, progression, and diagnosis of periodontitis.

Suzuki S, Yamada S Jpn Dent Sci Rev. 2022; 58:183-192.

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