NIR-Activatable Heterostructured Nanoadjuvant Cop/Nicop Executing Lactate Metabolism Interventions for Boosted Photocatalytic Hydrogen Therapy And Photoimmunotherapy.
Chunzheng YangJiashi ZhangMengyu ChangJia TanMeng YuanYulong BianBin LiuZhendong LiuMeifang WangBinbin DingPing'an MaJun LinPublished in: Advanced materials (Deerfield Beach, Fla.) (2023)
Near-infrared (NIR) laser-induced photoimmunotherapy has aroused great interest due to its intrinsic non-invasiveness and spatiotemporal precision, while immune evasion evoked by lactic acid (LA) accumulation severely limits its clinical outcomes. Although several metabolic interventions have been devoted to ameliorate immunosuppression, intracellular residual LA still remains a potential energy source for oncocyte proliferation. Herein, we construct an immunomodulatory nanoadjuvant based on a yolk-shell CoP/NiCoP (CNCP) heterostructure loaded with the monocarboxylate transporter 4 (MCT4) inhibitor fluvastatin sodium (Flu) to concurrently relieve immunosuppression and elicit robust antitumor immunity. Under NIR irradiation, CNCP heterojunctions exhibit superior photothermal performance and photocatalytic production of reactive oxygen species (ROS) and hydrogen. The continuous heat then facilitates Flu release to restrain LA exudation from tumor cells, whereas cumulative LA can be depleted as a hole scavenger to improve photocatalytic efficiency. Subsequently, potentiated photocatalytic therapy (PCT) can not only initiate systematic immunoreaction, but also provoke severe mitochondrial dysfunction and disrupt the energy supply for heat shock protein (HSP) synthesis, in turn realizing mild photothermal therapy (PTT). Consequently, LA metabolic remodeling endows an intensive cascade treatment with an optimal safety profile to effectually suppress tumor proliferation and metastasis, which offers a new paradigm for the development of metabolism-regulated immunotherapy. This article is protected by copyright. All rights reserved.
Keyphrases
- visible light
- heat shock protein
- reactive oxygen species
- fluorescent probe
- photodynamic therapy
- drug release
- reduced graphene oxide
- fluorescence imaging
- lactic acid
- highly efficient
- drug delivery
- physical activity
- living cells
- heat shock
- signaling pathway
- heat stress
- cancer therapy
- dna damage
- cell death
- stem cells
- gold nanoparticles
- combination therapy
- oxidative stress
- radiation induced