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Remotely Sequential Activation of Biofunctional MXenes for Spatiotemporally Controlled Photothermal Cancer Therapy Integrated with Multimodal Imaging

Small. 2024-12; 
Jing Jia , Xiaobo Zhang , Yiran Li , Tian Wang , Ying An , Xinrong Yan , Bin Liu , Chaoyi Yang , Huangxian Ju
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Synthetic sgRNA and crRNA Service The plasmid pET28b-Cas9-His and sgRNA (targeting HSP90α DNA and EGFP gene respectively) were purchased from GenScript (Nanjing, China). Get A Quote

Abstract

Spatiotemporally controlled cancer therapy may offer great advantages in precision medicine, but still remains some challenges in programmed sequential release and co-localization of components at target sites. Herein, a MXene-based nanoprobe (TCC@M) is meticulously designed by engineering of photodynamically activated CRISPR-Cas9 and cancer cell membrane-camouflaged Ti3C2 MXenes for targeting delivery and spatiotemporally controlled gene regulation followed by enhanced photothermal therapy (PTT) via two near-infrared irradiations. The first irradiation can activate the photosensitizer bound in cancer cells internalized TCC@M to release Cas9 ribonucleoprotein (RNP) by photodynamic effect. The released Cas9 RNP ... More

Keywords

CRISPR‐Cas9; MXenes; biofunctional MXenes; photothermal therapy; sequential activation.