Litcius/Paper detail

Single cell sequencing reveals that CD39 inhibition mediates changes to the tumor microenvironment

Lilong Liu, Yaxin Hou, Changqi Deng, Zhen Tao, Zhaohui Chen, Junyi Hu, Ke Chen

2022Nature Communications76 citationsDOIOpen Access PDF

Abstract

Abstract Single-cell sequencing technologies have noteworthily improved our understanding of the genetic map and molecular characteristics of bladder cancer (BC). Here we identify CD39 as a potential therapeutic target for BC via single-cell transcriptome analysis. In a subcutaneous tumor model and orthotopic bladder cancer model, inhibition of CD39 (CD39i) by sodium polyoxotungstate is able to limit the growth of BC and improve the overall survival of tumor-bearing mice. Via single cell RNA sequencing, we find that CD39i increase the intratumor NK cells, conventional type 1 dendritic cells (cDC1) and CD8 + T cells and decrease the Treg abundance. The antitumor effect and reprogramming of the tumor microenvironment are blockaded in both the NK cells depletion model and the cDC1-deficient Batf3 −/− model. In addition, a significant synergistic effect is observed between CD39i and cisplatin, but the CD39i + anti-PD-L1 (or anti-PD1) strategy does not show any synergistic effects in the BC model. Our results confirm that CD39 is a potential target for the immune therapy of BC.

Topics & Concepts

Tumor microenvironmentCancer researchReprogrammingTranscriptomeBladder cancerCD8CellBiologyImmune systemCancerChemistryMolecular biologyTumor cellsGeneImmunologyGeneticsGene expressionImmune Cell Function and InteractionBladder and Urothelial Cancer TreatmentsCancer Immunotherapy and Biomarkers