Nucleus pulposus cell-mimicking nanoparticles for cell-specific HIF1A editing to modulate SASP-mediated disc inflammation via autophagy activation
Kanglu Li, Hui Lin, Yihan Yu, Yiran Liu, Wenbo Yang, Songfeng Chen, Xu Li, Wei Huang, Hong Wang, Chunqing Meng, Zengwu Shao, Yulong Wei, Lei Zhao, Yizhong Peng
Abstract
-rHIF1A encapsulated in the core via extrusion. HIF1A@NNP exhibited a protein expression pattern similar to that of the NPC membrane and displayed a typical vesicle profile. Compared to liposomes and lentiviruses, HIF1A@NNP overexpressed HIF1A in NPCs while improving cell viability. HIF1A@NNP was more readily internalized by NPCs than by other cell types, with fewer effects on vascularization, nerve growth, and macrophage polarization than HIF1A overexpression using lipo3000. HIF1A@NNP reduced the apoptotic rate and inhibited the senescent phenotype, as evidenced by reduced DNA damage, lower levels of senescence-related proteins, and fewer SA-β-Gal-positive cells. HIF1A@NNP induced a senescence-associated secretory phenotype (SASP), which enhanced macrophage migration and M1 polarization. Additionally, HIF1A@NNP activated autophagy in NPCs. In summary, HIF1A@NNP demonstrated satisfactory biocompatibility, alleviated the SASP, and inhibited SASP-mediated macrophage recruitment and inflammatory polarization, leading to reduced disc degeneration and providing a promising strategy for combating intervertebral disc degeneration. STATEMENT OF SIGNIFICANCE: Conventional plasmid delivery methods like viral vectors, lipofection, and electroporation struggle with cellular toxicity and inefficiency in primary cells. Non-cell-specific HIF1A activation via these methods may exacerbate inflammation and pain, as HIF1A drives angiogenesis and dendritic ingrowth into the disc. Thus, a cell-specific delivery strategy could circumvent such adverse effects. Our study introduces HIF1A@NNP, a nanoparticle mimicking nucleus pulposus cells (NPCs), with an NPC membrane shell encapsulating pcDNA3.1+-rHIF1A. It preferentially targets NPCs, achieving superior HIF1A overexpression and cell viability compared to liposomes and lentiviruses. This represents a highly promising and potentially transformative approach against intervertebral disc degeneration.