ClC-3 silencing mediates lysosomal acidification arrest and autophagy inhibition to sensitize chemo-photothermal therapy

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  • 作者:Hongyu Zhang, Lanxin Meng, Lei Yin, Taojian Fan, Lan Yu, Shichao Han, Lixia Wang, Weiyuan Liang, Xiaoli Yang, Shiguo Sun
  • 期刊:INTERNATIONAL JOURNAL OF PHARMACEUTICS
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Protective autophagy can be activated by external stimuli such as chemotherapy (CT) and photothermal therapy (PTT), leading to tumour resistance. As a key subcellular for autophagy, lysosomal dysfunction is crucial for autophagy suppression. Furthermore, lysosomal drug sequestration enhances basic drug resistance such as doxorubicin (DOX), which is trapped away from its target site, namely, the nucleus. Moreover, most of nanodrug delivery systems are internalised to lysosome for degradation, which further leads to DOX resistance. Lysosome serves as an essential organelle in drug resistance mechanisms, whose acidification arrest provides a potential strategy to inhibit autophagy and lysosomal drug sequestration simultaneously. The chloride channel-3 (ClC-3) protein is known as an important Cl--H+ transporter to maintain lysosomal pH at low values of various human cells. Herein, a black phosphorus-based theranostic nanoplatform of BP-A-S@D is constructed, and HeLa cells are used as a model to verify the effect of ClC-3 on tumour lysosomal acidification and autophagy regulation. Consequently, ClC-3 silencing inhibits not only protective autophagy to sensitise chemo-photothermal therapy, but also DOX resistance by suppressing lysosomal acidification. Therefore, ClC-3 silencing could simultaneously inhibit autophagy and lysosomal drug sequestration to improve anti-tumour efficiency.

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