Dendrimer/Copper(II) Complex-Mediated siRNA Delivery Disrupts Lactate Metabolism to Reprogram the Local Immune Microenvironment against Tumor Growth and Metastasis

Solid tumors reprogram metabolic pathways to meet their biosynthesis demands, resulting in elevated levels of metabolites in the tumor microenvironment (TME), including lactate. Excessive accumulation and active transportation of lactate within the TME drives tumor progression, metastasis, and immunosuppression. Interruption of TME lactate metabolism is expected to restore antitumor responses and sensitize tumor immunotherapy. Herein, we developed phenylboronic acid- and pyridine-modified poly(amidoamine) dendrimer/copper(II) (Cu(II)) complexes, namely, D-Cu complexes, to deliver monocarboxylate transporter 4 siRNA (siMCT4) and disrupt the tumor lactate shuttle. The D-Cu complexes are shown to have a Cu(II)-mediated chemodynamic effect and T₁-weighted magnetic resonance imaging potential (r₁ relaxivity = 1.19 mM^-1 s^-1), enabling effective siMCT4 delivery to inhibit lactate efflux within cancer cells. In combination with a CD11b immune agonist, the treatment of D-Cu/siMCT4 polyplexes in a mouse breast tumor model alleviates local TME immunosuppression, leading to excellent inhibition of both primary tumor growth and lung metastasis.