Cystine-Modified Lignin–Copper Coordination Nanocarriers Improve the Therapeutic Efficacy of Tyrosine Kinase Inhibition via Cuproptosis

The clinical application of tyrosine kinase inhibitors (TKIs) is rapidly growing and has emerged as a cornerstone in the treatment of both solid tumors and hematologic malignancies. However, resistance to TKI targets and disease progression remain inevitable. Nanocarrier-mediated delivery has emerged as a promising strategy to overcome the limitations of the TKI application. We utilized the facile modification of lignin polyhydroxyl groups to synthesize cystine-grafted lignin–copper coordinated nanoparticles for TKI delivery via the Mannich reaction. The materials exhibited a stable, uniform morphology and effectively encapsulated and delivered a variety of TKI inhibitors. Moreover, we optimized the fabrication process and found that the material could release the encapsulated drug in response to both pH and GSH. These nanoparticles significantly enhanced the therapeutic activity of TKIs both in vitro and in vivo through cuproptosis while demonstrating good biosafety. We propose a novel strategy for the targeted delivery of TKI inhibitors by combining cuproptosis with modified lignin. This approach not only offers new strategies for the clinical application of TKIs but also provides novel insights and inspiration for the modified use of lignin.