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Vanadium Carbide MXenzyme Harnessing Photothermal Effects for Targeted Lung Tumor Suppression and Inflammation Eradication

Jiawei Wu, He-Feng Yin, Song Xu, Ming Deng, Bo Wang, Xiang Fei, Junjie Zhu, Zhiyi Guo, Hongmei Zhang, Bo Yang, Yong Xu

2024Advanced Functional Materials18 citationsDOI

Abstract

Abstract Photothermal therapy (PTT) is increasingly favored as a treatment option for lung cancer, a leading cause of cancer‐related death. However, the effectiveness of PTT is hampered by both tumor‐associated and treatment‐related inflammatory reactions. Consequently, there is a pressing need for innovative PTT‐based platforms capable of mitigating inflammation postcancer treatment. Herein, 2D vanadium carbide (V 2 C) MXenzyme nanosheets via a straightforward exfoliation and intercalation process are successfully synthesized. The V 2 C MXenzyme demonstrates a robust photothermal effect, which varied with concentration, density, and irradiation duration when exposed to 808 nm near‐infrared light. Notably, V 2 C MXenzyme exhibits the ability to eliminate A549 lung cancer cells both in vitro and in vivo through PTT. Additionally, the synthesized V 2 C MXenzyme nanosheets exhibited various enzyme‐like activities, resembling reactive oxygen species–mimetic enzymes, including superoxide dismutase, catalase, peroxidase, glutathione peroxidase, and thiol peroxidase. V 2 C MXenzyme significantly curtailed inflammation in both in vitro and in vivo settings. Furthermore, gene sequencing analysis of inflammation‐related genes responding to V 2 C MXenzyme nanosheets is performed and identified HSPA1A as a significantly differentially expressed gene. HSPA1A expression correlated with the infiltration of various immune cells in lung adenocarcinoma. Thus, V 2 C MXenzyme may serve as a revalorization platform to suppress lung tumors and reduce inflammation.

Topics & Concepts

In vivoInflammationLung cancerMaterials scienceGlutathione peroxidaseReactive oxygen speciesPhotothermal therapyCancer researchSuperoxide dismutaseCatalaseBiologyAntioxidantBiochemistryImmunologyMedicineNanotechnologyPathologyBiotechnologyNanoplatforms for cancer theranosticsAdvanced Nanomaterials in CatalysisMXene and MAX Phase Materials