Dynamic transcriptome analysis of osteal macrophages identifies a distinct subset with senescence features in experimental osteoporosis

• Text
• PDF

Abstract

Given the potential fundamental function of osteal macrophages in bone pathophysiology, we study here their precise function in experimental osteoporosis. Gene profiling of osteal macrophages from ovariectomized mice demonstrated the upregulation of genes that were involved in oxidative stress, cell senescence, and apoptotic process. A single-cell RNA-Seq analysis revealed that osteal macrophages were heterogeneously clustered into 6 subsets that expressed proliferative, inflammatory, antiinflammatory, and efferocytosis gene signatures. Importantly, postmenopausal mice exhibited an increase in subset 3 that showed a typical gene signature of cell senescence and inflammation. These findings suggest that the decreased production of estrogen due to postmenopausal condition altered the osteal macrophage subsets, resulting in a shift toward cell senescence and inflammatory conditions in the bone microenvironment. Furthermore, adoptive macrophage transfer onto calvarial bone was performed, and mice that received oxidatively stressed macrophages exhibited greater osteolytic lesions than control macrophages, suggesting the role of these cells in the development of inflammaging in the bone microenvironment. Consistently, depletion of senescent cells and the oxidatively stressed macrophage subset alleviated the excessive bone loss in postmenopausal mice. Our data provided insight into the pathogenesis of osteoporosis and shed light on a therapeutic approach for the treatment or prevention of postmenopausal osteoporosis.

Authors

Yoshio Nishida, M. Alaa Terkawi, Gen Matsumae, Shunichi Yokota, Taiki Tokuhiro, Yuki Ogawa, Hotaka Ishizu, Junki Shiota, Tsutomu Endo, Hend Alhasan, Taku Ebata, Keita Kitahara, Tomohiro Shimizu, Daisuke Takahashi, Masahiko Takahata, Ken Kadoya, Norimasa Iwasaki