Centrosome clustering control in osteoclasts through CCR5-mediated signaling

Osteoclasts uniquely resorb calcified bone matrices. To exert their function, mature osteoclasts maintain the cellular polarity and directional vesicle trafficking to and from the resorbing bone surface. However, the regulatory mechanisms and pathophysiological relevance of these processes remain la...

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Veröffentlicht in:Scientific reports 2023-11, Vol.13 (1), p.20813-20813, Article 20813
Hauptverfasser: Lee, Ji-Won, Lee, In-Hee, Watanabe, Haruhisa, Liu, Yunqing, Sawada, Kazuaki, Maekawa, Masashi, Uehara, Shunsuke, Kobayashi, Yasuhiro, Imai, Yuuki, Kong, Sek Won, Iimura, Tadahiro
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Sprache:eng
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Zusammenfassung:Osteoclasts uniquely resorb calcified bone matrices. To exert their function, mature osteoclasts maintain the cellular polarity and directional vesicle trafficking to and from the resorbing bone surface. However, the regulatory mechanisms and pathophysiological relevance of these processes remain largely unexplored. Bone histomorphometric analyses in Ccr5 -deficient mice showed abnormalities in the morphology and functional phenotype of their osteoclasts, compared to wild type mice. We observed disorganized clustering of nuclei, as well as centrosomes that organize the microtubule network, which was concomitant with impaired cathepsin K secretion in cultured Ccr5 -deficient osteoclasts. Intriguingly, forced expression of constitutively active Rho or Rac restored these cytoskeletal phenotypes with recovery of cathepsin K secretion. Furthermore, a gene-disease enrichment analysis identified that PLEKHM1 , a responsible gene for osteopetrosis, which regulates lysosomal trafficking in osteoclasts, was regulated by CCR5. These experimental results highlighted that CCR5-mediated signaling served as an intracellular organizer for centrosome clustering in osteoclasts, which was involved in the pathophysiology of bone metabolism.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-023-48140-2