Senolytic cocktail dasatinib and quercetin attenuates chronic high altitude hypoxia associated bone loss in mice

Abstract Chronic high-altitude hypoxia (CHH) induces irreversible abnormalities in various organisms. Emerging evidence indicates that CHH markedly suppresses bone mass and bone strength. Targeting senescent cells and the consequent senescence-associated secretory phenotype (SASP) with senolytics is a recently developed novel therapy for multiple age-related diseases. The combination of dasatinib and quercetin (DQ) has been proven to selectively target senescent cells and attenuate SASP in multiple tissues. In this study, experimental mice were subjected to an environment simulating 5,000 m above sea level for 8 weeks to induce CHH conditions. Our results indicated that DQ supplementation was well-tolerated with negligible toxicity. In vivo, DQ prevented reductions in BMD and BMC and improved bone microarchitecture against CHH-induced changes. Biomechanical testing demonstrated that DQ significantly improved the mechanical properties of femoral bones in CHH-exposed mice. Furthermore, DQ mitigated senescence in LepR + BMSCs and decreased the population of senescent cells, as evidenced by reduced senescence markers and SA-β-Gal staining. An analysis of serum and bone marrow aspirates showed that DQ treatment preserved angiogenic and osteogenic coupling in the bone marrow microenvironment by maintaining type H vessels and angiogenic growth factors. The results suggest that DQ has significant anti-senescence effects on BMSCs and a positive impact on the bone marrow microenvironment, supporting its clinical investigation as a therapeutic agent for CHH-related osteoporosis.