Cartilage-specific Deficiency Represses IGF-1 and Enhances Osteoarthritis Severity in Mice

Overview

Journal Ann Rheum Dis

Specialty Rheumatology

Date 2023 Aug 7

PMID 37550003

Authors

John A Collins

C James Kim

Ashley Coleman

Abreah Little

Matheus M Perez

Emily J Clarke

Brian Diekman

Mandy J Peffers

Susanna Chubinskaya

Ryan E Tomlinson

Theresa A Freeman

Richard F Loeser

Affiliations

Soon will be listed here.

Abstract

Objectives: Prior studies noted that chondrocyte SIRT6 activity is repressed in older chondrocytes rendering cells susceptible to catabolic signalling events implicated in osteoarthritis (OA). This study aimed to define the effect of deficiency on the development of post-traumatic and age-associated OA in mice.

Methods: Male cartilage-specific -deficient mice and intact controls underwent destabilisation of the medial meniscus (DMM) or sham surgery at 16 weeks of age and OA severity was analysed at 6 and 10 weeks postsurgery. Age-associated OA was assessed in mice aged 12 and 18 months of age. OA severity was analysed by micro-CT, histomorphometry and scoring of articular cartilage structure, toluidine blue staining and osteophyte formation. SIRT6-regulated pathways were analysed in human chondrocytes by RNA-sequencing, qRT-PCR and immunoblotting.

Results: deficient mice displayed enhanced DMM-induced OA severity and accelerated age-associated OA when compared with controls, characterised by increased cartilage damage, osteophyte formation and subchondral bone sclerosis. In chondrocytes, RNA-sequencing revealed that depletion significantly repressed cartilage extracellular matrix (eg, ) and anabolic growth factor (eg, insulin-like growth factor-1 ()) gene expression. Gain-of-function and loss-of-function studies in chondrocytes demonstrated that SIRT6 depletion attenuated, whereas adenoviral overexpression or MDL-800-induced activation promoted IGF-1 signalling by increasing Akt phosphorylation.

Conclusions: SIRT6 deficiency increases post-traumatic and age-associated OA severity in vivo. SIRT6 profoundly regulated the pro-anabolic and pro-survival IGF-1/Akt signalling pathway and suggests that preserving the SIRT6/IGF-1/Akt axis may be necessary to protect cartilage from injury-associated or age-associated OA. Targeted therapies aimed at increasing SIRT6 function could represent a novel strategy to slow or stop OA.

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