Supramolecular delivery of senolytics enables targeted anti-senescence therapy and accelerated fracture healing
摘要
Current clinical management of fractures relies largely on surgical intervention and systemic pharmacotherapy, both of which are frequently associated with side effects and largely neglect early microenvironmental abnormalities. Precise elimination of senescent cells at the early stage may offer a more efficient means of restoring microenvironmental homeostasis and resetting regenerative dynamics. To this end, we designed and synthesized a multifunctional supramolecular nanoplatform, Asp10SAC4A, based on combination of host–guest recognition and self-assembly to simultaneously address three fundamental challenges in selectively eliminating senescent cells at the fracture site: inadequate targeting, insufficient responsiveness, and poor coordination of multi-drug delivery. The platform consists of an azocalix [