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UNLABELLED: MicroRNAs have been shown to function in cartilage development and homeostasis, as well as in progression of osteoarthritis. The objective of the current study was to identify microRNAs involved in the onset or early progression of osteoarthritis and characterise their function in chondrocytes. MicroRNA expression in mouse knee joints post-DMM surgery was measured over 7 days. Expression of miR-29b-3p was increased at day 1 and regulated in the opposite direction to its potential targets. In a mouse model of cartilage injury and in end-stage human OA cartilage, the miR-29 family was also regulated. SOX9 repressed expression of miR-29a-3p and miR-29b-3p via the 29a/b1 promoter. TGFβ1 decreased expression of miR-29a, b, and c (3p) in primary chondrocytes, whilst IL-1β increased (but LPS decreased) their expression. The miR-29 family negatively regulated Smad, NFκB, and canonical WNT signalling pathways. Expression profiles revealed regulation of new WNT-related genes. Amongst these, FZD3, FZD5, DVL3, FRAT2, and CK2A2 were validated as direct targets of the miR-29 family. These data identify the miR-29 family as microRNAs acting across development and progression of OA. They are regulated by factors which are important in OA and impact on relevant signalling pathways. KEY MESSAGES: Expression of the miR-29 family is regulated in cartilage during osteoarthritis. SOX9 represses expression of the miR-29 family in chondrocytes. The miR-29 family is regulated by TGF-β1 and IL-1 in chondrocytes. The miR-29 family negatively regulates Smad, NFκB, and canonical Wnt signalling. Several Wnt-related genes are direct targets of the miR-29 family.

Original publication

DOI

10.1007/s00109-015-1374-z

Type

Journal article

Journal

J mol med (berl)

Publication Date

05/2016

Volume

94

Pages

583 - 596

Keywords

Chondrocyte, MicroRNA, Osteoarthritis, Sry-related box 9, Wnt pathway, Aged, Aged, 80 and over, Animals, Cartilage, Articular, Chondrocytes, Disease Models, Animal, Female, Gene Expression Regulation, Homeostasis, Humans, Male, Mice, MicroRNAs, Middle Aged, Multigene Family, Osteoarthritis, SOX9 Transcription Factor, Signal Transduction, Transforming Growth Factor beta1