TY - JOUR
T1 - REGγ is essential to maintain bone homeostasis by degrading TRAF6, preventing osteoporosis
AU - Du, Yingying
AU - Chen, Hui
AU - Zhou, Lei
AU - Guo, Qunfeng
AU - Gong, Shuangming
AU - Feng, Siyuan
AU - Guan, Qiujing
AU - Shi, Peilin
AU - Lv, Tongxin
AU - Guo, Yilan
AU - Yang, Cheng
AU - Sun, Peng
AU - Li, Kun
AU - Xu, Shuogui
AU - Li, Lei
N1 - Publisher Copyright:
© 2024 National Academy of Sciences. All rights reserved.
PY - 2024/11/19
Y1 - 2024/11/19
N2 - Primary osteoporosis, manifesting as decreased bone mass and increased bone fragility, is a “silent disease” that is often ignored until a bone breaks. Accordingly, it is urgent to develop reliable biomarkers and novel therapeutic strategies for osteoporosis treatment. Here, we identified REGγ as a potential biomarker of osteoporotic populations through proteomics analysis. Next, we demonstrated that REGγ deficiency increased osteoclast activity and triggered bone mass loss in REGγ knockout (KO) and bone marrow-derive macrophage (BMM)-conditional REGγ KO mice. However, the osteoclast activity decreased in BMM-conditional REGγ overexpression mice. Mechanistically, we defined that REGγ-20S proteasome directly degraded TRAF6 to inhibit bone absorption in a ubiquitin-independent pathway. More importantly, BMM-conditional Traf6 KO with REGγ KO mice could “rescue” the osteoporosis phenotypes. Based on NIP30 (a REGγ “inhibitor”) dephosphorylation by CKII inhibition activated the ubiquitin-independent degradation of TRAF6, we selected TTP22, an inhibitor of CKII, and defined that TTP22 could alleviate osteoporosis in vitro and in vivo. Overall, our study reveals a unique function of NIP30/REGγ/TRAF6 axis in osteoporosis and provides a potential therapeutic drug TTP22 for osteoporosis.
AB - Primary osteoporosis, manifesting as decreased bone mass and increased bone fragility, is a “silent disease” that is often ignored until a bone breaks. Accordingly, it is urgent to develop reliable biomarkers and novel therapeutic strategies for osteoporosis treatment. Here, we identified REGγ as a potential biomarker of osteoporotic populations through proteomics analysis. Next, we demonstrated that REGγ deficiency increased osteoclast activity and triggered bone mass loss in REGγ knockout (KO) and bone marrow-derive macrophage (BMM)-conditional REGγ KO mice. However, the osteoclast activity decreased in BMM-conditional REGγ overexpression mice. Mechanistically, we defined that REGγ-20S proteasome directly degraded TRAF6 to inhibit bone absorption in a ubiquitin-independent pathway. More importantly, BMM-conditional Traf6 KO with REGγ KO mice could “rescue” the osteoporosis phenotypes. Based on NIP30 (a REGγ “inhibitor”) dephosphorylation by CKII inhibition activated the ubiquitin-independent degradation of TRAF6, we selected TTP22, an inhibitor of CKII, and defined that TTP22 could alleviate osteoporosis in vitro and in vivo. Overall, our study reveals a unique function of NIP30/REGγ/TRAF6 axis in osteoporosis and provides a potential therapeutic drug TTP22 for osteoporosis.
KW - ubiquitin-independent degradation | REGγ | TRAF6 | NIP30 | osteoporosis
UR - https://www.scopus.com/pages/publications/85209361181
U2 - 10.1073/pnas.2405265121
DO - 10.1073/pnas.2405265121
M3 - 文章
C2 - 39536082
AN - SCOPUS:85209361181
SN - 0027-8424
VL - 121
JO - Proceedings of the National Academy of Sciences of the United States of America
JF - Proceedings of the National Academy of Sciences of the United States of America
IS - 47
M1 - e2405265121
ER -