Deletion of Rheb1 in Osteocytes Leads to Osteopenia Characterized by Reduced Bone Formation and Enhanced Bone Resorption

Ras homologue enriched in brain 1 (Rheb1), an upstream activator of the mechanistic target of rapamycin complex 1 (mTORC1), is known to modulate various cellular processes. However, its impact on bone metabolism in vivo remains unknown. The study aimed at understanding the role of Rheb1 on bone homeostasis. We measured the serum parameters and performed histomorphometry, quantitative real-time polymerase chain reaction, and Western blotting, along with the generation of mouse gene knockout (KO) model, and conducted a microcomputed tomography analysis and tartrate-resistant acid phosphatase staining, to delineate the impacts of Rheb1 on bone homeostasis. In the Rheb1 KO mice, the results showed that Rheb1 KO caused significant damage to the bone microarchitecture, indicating that mTORC1 activity was essential for the regulation of bone homeostasis. Specifically, suppressed mineralization activity in primary osteoblasts and a decreased osteoblast number were observed in the Rheb1 KO mice, demonstrating that loss of Rheb1 led to impaired osteoblastic differentiation. Furthermore, the higher apoptotic ratio in Rheb1-null osteocytes could promote Tnfsf11 expression and lead to an increase in osteoclasts, indicating increased bone resorption activity in the KO mice. The findings confirmed that Rheb1 deletion in osteoblasts/osteocytes led to osteopenia due to impaired bone formation and enhanced bone resorption.

Automated summary

Rheb1 plays an important role in bone metabolism, with Rheb1 KO mice showing impaired bone microarchitecture, inhibited bone formation, and increased bone resorption.