TLR9 Mediates Periodontal Aging by Fostering Senescence and Inflammaging

Overview

Journal J Dent Res

Specialty Dentistry

Date 2022 Aug 3

PMID 35918888

Authors

E Albuquerque-Souza

K E Crump

K Rattanaprukskul

Y Li

B Shelling

X Xia-Juan

M Jiang

S E Sahingur

Affiliations

Soon will be listed here.

Abstract

TLR9 is a critical nucleic acid sensing receptor in mediating periodontitis and periodontitis-associated comorbidities. Emerging evidence implicates TLR9 as a key sensor during aging, although its participation in periodontal aging is unexplored. Here, we investigated whether TLR9-mediated host responses can promote key hallmarks of aging, inflammaging, and senescence, in the course of periodontitis using a multipronged approach comprising clinical and preclinical studies. In a case-control model, we found increased TLR9 gene expression in gingival tissues of older (≥55 y) subjects with periodontitis compared to older healthy subjects as well as those who are younger (<55 y old) with and without the disease. Mechanistically, this finding was supported by an in vivo model in which wild-type (WT) and TLR9 mice were followed for 8 to 10 wk (young) and 18 to 22 mo (aged). In this longitudinal model, aged WT mice developed severe alveolar bone resorption when compared to their younger counterpart, whereas aged TLR9 animals presented insignificant bone loss when compared to the younger groups. In parallel, a boosted inflammaging milieu exhibiting higher expression of inflammatory/osteoclast mediators (, , ) and danger signals (, ) was noted in gingival tissues of aged WT mice compared to the those of aged TLR9 mice. Consistently, WT aged mice displayed an increase in prosenescence balance as measured by p16/p19 ratio compared to the younger groups and aged TLR9 animals. Ex vivo experiments with bone marrow-derived macrophages primed by TLR9 ligand (ODN 1668) further corroborated in vivo and clinical data and showed enhanced inflammatory-senescence circuit followed by increased osteoclast differentiation. Together, these findings reveal first systematic evidence implicating TLR9 as one of the drivers of periodontitis during aging and functioning by boosting a deleterious inflammaging/senescence environment. This finding calls for further investigations to determine whether targeting TLR9 will improve periodontal health in an aging population.

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