Hydrogel based on M1 macrophage lysate and alginate loading with oxaliplatin for effective immunomodulation to inhibit melanoma progression, recurrence and metastasis.

Despite the monumental success of immunotherapy in treating melanoma clinically, it still confronts significant challenges, chiefly that singular immunomodulatory tactics are insufficient to suppress the recurrence and metastasis of melanoma. Herein, these challenges are addressed by a hydrogel based on M1 macrophage lysate and alginate (M1LMHA) loaded with oxaliplatin (OXA), named M1LMHA@OXA.The results obtained from scanning electron microscopy and confocal microscopy indicate that the structure and morphology of M1LMHA@OXA remain unchanged. Flow cytometry results reveal that M1LMHA@OXA significantly promotes the maturation of dendritic cells (DCs) and enhances the proliferation of T lymphocytes. In a subcutaneous melanoma transplant model, M1LMHA@OXA effectively suppressed tumor growth in comparison to OXA alone and M1LMHA alone. Flow cytometry demonstrated that M1LMHA@OXA markedly increased the number of mature DCs and CD8 T cells at the tumor site, while significantly reducing the quantity of M2-like tumor-associated macrophages (TAM) and enhancing the presence of M1 macrophages. Enzyme-linked immunosorbent assay (ELISA) results indicated that following treatment with M1LMHA@OXA, the levels of interleukin-6 (IL-6) and tumor necrosis factor-alpha (TNF-α) in the bloodstream of mice were significantly elevated, whereas interleukin-10 (IL-10) exhibited no significant difference. This outcome further corroborates the ability of M1LMHA@OXA to substantially bolster the immune capability of mice. Similar results have also been observed in a melanoma subcutaneous transplantation recurrence model, and optical imaging of the lungs of mice revealed that M1LMHA@OXA inhibited tumor metastasis to the lungs. Notably, M1LMHA@OXA exhibits an exceptional therapeutic effect on the growth, post-surgical recurrence, and metastasis of the B16F10 melanoma. Therefore, this study provides a straightforward strategy that leverages the cooperative regulation of multiple immune cells to thwart the proliferation, recurrence, and spread of melanoma.