Litcius/Paper detail

Interference of Glucose Bioavailability of Tumor by Engineered Biohybrids for Potentiating Targeting and Uptake of Antitumor Nanodrugs

Jiawei Wang, Qi‐Wen Chen, Guo‐Feng Luo, Ping Ji, Ziyi Han, Wenfang Song, Wei‐Hai Chen, Xian‐Zheng Zhang

2022Nano Letters44 citationsDOI

Abstract

The chemotherapy efficacy of nanodrugs is restricted by poor tumor targeting and uptake. Here, an engineered biohybrid living material (designated as EcN@HPB) is constructed by integrating paclitaxel and BAY-876 bound human serum albumin nanodrugs (HPB) with Escherichia coli Nissle 1917 (EcN). Due to the inherent tumor tropism of EcN, EcN@HPB could actively target the tumor site and competitively deprive glucose through bacterial respiration. Thus, albumin would be used as an alternative nutrient source for tumor metabolism, which significantly promotes the internalization of HPB by tumor cells. Subsequently, BAY-876 internalized along with HPB nanodrugs would further depress glucose uptake of tumor cells via inhibiting glucose transporter 1 (GLUT1). Together, the decline of glucose bioavailability of tumor cells would activate and promote the macropinocytosis in an AMP-activated protein kinase (AMPK)-dependent manner, resulting in more uptake of HPB by tumor cells and boosting the therapeutic outcome of paclitaxel.

Topics & Concepts

Glucose transporterAMPKInternalizationBioavailabilityPaclitaxelChemistryGLUT1TranscytosisCancer researchKinasePharmacologyEndocytosisBiochemistryBiologyProtein kinase ACancerReceptorInsulinGeneticsEndocrinologyCancer Research and TreatmentsNanoplatforms for cancer theranosticsCancer, Hypoxia, and Metabolism