Litcius/Paper detail

ZIP1+ fibroblasts protect lung cancer against chemotherapy via connexin-43 mediated intercellular Zn2+ transfer

Ni Chen, Xiaohan Lou, Xiaohan Yao, Linlin Wang, Jiajia Wan, Xixi Duan, Jialu Liang, Kaili Zhang, Yuanyuan Yang, Li Zhang, Chanjun Sun, Zhenzhen Li, Ming Wang, Linyu Zhu, Dekang Lv, Zhihai Qin

2022Nature Communications30 citationsDOIOpen Access PDF

Abstract

Abstract Tumour–stroma cell interactions impact cancer progression and therapy responses. Intercellular communication between fibroblasts and cancer cells using various soluble mediators has often been reported. In this study, we find that a zinc-transporter (ZIP1) positive tumour-associated fibroblast subset is enriched after chemotherapy and directly interconnects lung cancer cells with gap junctions. Using single-cell RNA sequencing, we identify several fibroblast subpopulations, among which Zip1 + fibroblasts are highly enriched in mouse lung tumours after doxorubicin treatment. ZIP1 expression on fibroblasts enhances gap junction formation in cancer cells by upregulating connexin-43. Acting as a Zn 2+ reservoir, ZIP1 + fibroblasts absorb and transfer Zn 2+ to cancer cells, leading to ABCB1-mediated chemoresistance. Clinically, ZIP1 high stromal fibroblasts are also associated with chemoresistance in human lung cancers. Taken together, our results reveal a mechanism by which fibroblasts interact directly with tumour cells via gap junctions and contribute to chemoresistance in lung cancer.

Topics & Concepts

Lung cancerCancer researchFibroblastStromal cellIntracellularCancer cellCancer-Associated FibroblastsConnexinBiologyCancerDoxorubicinGap junctionCell biologyCell cultureChemotherapyMedicinePathologyGeneticsCancer-related molecular mechanisms researchConnexins and lens biologyRNA Research and Splicing