Abstract
Intervertebral disc degeneration (IDD) is a degenerative spinal condition characterized by disc structural damage, narrowing of joint spaces, and nerve root compression, significantly reducing patients' quality of life. To address this challenge, a novel therapeutic strategy was developed using cellulose supramolecular hydrogel as a carrier to deliver IL4I1-modified MΦ membrane biomimetic nanoparticles (CHG@IL4I1-MNPs) to target tissues. This hydrogel exhibits excellent biocompatibility and mechanical properties while enabling sustained drug release in the degenerative disc microenvironment, enhancing therapeutic outcomes. CHG@IL4I1-MNPs effectively regulate MΦ polarization by promoting M2 MΦ activation, thereby improving immune microenvironment balance. Animal studies demonstrated that CHG@IL4I1-MNPs alleviated symptoms of IDD, reduced inflammation, and supported tissue repair, highlighting its potential to reduce reliance on long-term medication and improve quality of life. The strategy uniquely combines nanoparticle technology with immunomodulation, achieving precise targeting of MΦs. Beyond IDD, this approach offers potential applications in other immune-related diseases, providing a versatile platform for nanomedicine. This study introduces an innovative method to treat IDD and advances the integration of immunotherapy and nanotechnology, offering both clinical benefits and new directions for future research. These findings hold strong potential for improving patient outcomes and expanding treatment options for related diseases.