Abstract
BackgroundThe structural and functional properties of tendon decline with age, and these changes contribute to tendon disorder. Tendon stem/progenitor cells (TSPCs) play a vital role in tendon repair, regeneration and homeostasis maintaining. Although studies have demonstrated that tendon aging is closely associated with the altered TSPCs function on senescence, the cellular and molecular mechanisms of TSPCs senescence remain largely unknown. This study was designed to investigate the role of Wnt5a in TSPCs senescence.MethodsTSPCs were isolated from 2-month-old and 20-month-old male C57BL/6 mice. The expression of Wnt5a was determined by RNA sequencing, qRT-PCR and western blotting. TSPCs were then treated with Wnt5a shRNA or recombinant Wnt5a or AG490 or IFN-γ or Ror2-siRNA. Western blotting, β-gal staining, qRT-PCR, immunofluorescence staining and cell cycle analysis were used for confirming the role of Wnt5a in TSPCs senescence.ResultsWe found a canonical to noncanonical Wnt signaling shift due to enhanced expression of Wnt5a in aged TSPCs. Functionally, we demonstrated that inhibition of Wnt5a attenuated TSPCs senescence, age-related cell polarity and the senescence-associated secretory phenotype (SASP) expression in aged TSPCs. Mechanistically, the JAK–STAT signaling pathway was activated in aged TSPCs, while Wnt5a knockdown inhibited the JAK–STAT signaling pathway, suggesting that Wnt5a modulates TSPCs senescence via JAK–STAT signaling pathway. Moreover, knockdown of Ror2 inhibited Wnt5a-induced activation of the JAK–STAT signaling pathway, which indicates that Wnt5a potentiates JAK–STAT signaling pathway through Ror2, and Ror2 acts as the functional receptor of Wnt5a in TSPCs senescence.ConclusionOur results demonstrate a critical role of noncanonical Wnt5a signaling in TSPCs senescence, and Wnt5a could be an attractive therapeutic target for antagonizing tendon aging.
Highlights
The structural and functional properties of tendon decline with age, and these changes contribute to tendon disorder
(See figure on page.) Fig. 3 Effect of Wingless-type MMTV integration site family (Wnt5a) Short-hairpin RNA (shRNA) on senescence-associated secretory phenotype (SASP) expression in aged Tendon stem/progenitor cells (TSPCs). a Heatmap of representative SASP genes expressions identified by a combination of gene ontology (GO) analysis in aged and Wnt5a-knockdown aged TSPCs. b–i Relative mRNA levels of representative SASP genes (IL6, IL16, Cxcl1, Cxcl5, Cxcl12, Ereg, Tnfsf11, Ccl2) in young, aged and aged Wnt5a-knockdown TSPCs were investigated by qRT-PCR
We found that the protein level of β-catenin is reduced in aged TSPCs, and recombinant Wnt5a treatment reduced the expression of β-catenin in young TSPCs, indicating a direct action of Wnt5a on β-catenin expression in TSPCs (Fig. 1g)
Summary
The structural and functional properties of tendon decline with age, and these changes contribute to tendon disorder. Tendon stem/progenitor cells (TSPCs) play a vital role in tendon repair, regeneration and homeostasis maintaining. Studies have demonstrated that tendon aging is closely associated with the altered TSPCs function on senescence, the cellular and molecular mechanisms of TSPCs senescence remain largely unknown. Wnt5a is a prototypical ligand for the noncanonical Wnt pathway and has been reported to play a critical role in aging. In hematopoietic stem cells (HSCs), Wnt5a expression was observed to increase with age, which causes HSCs senescence. Studies have suggested the role of Wnt5a in aging and regulation of tendon stem cells, there were no studies focused on the role of Wnt5a in TSPCs senescence during tendon aging
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