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Tumour angiogenesis normalized by myo‐inositol trispyrophosphate alleviates hypoxia in the microenvironment and promotes antitumor immune response

Bouchra El Hafny‐Rahbi, Klaudia Brodaczewska, Guillaume Collet, Aleksandra Majewska, Krzysztof Klimkiewicz, Anthony Delalande, Catherine Grillon, Claudine Kiéda

2021Journal of Cellular and Molecular Medicine28 citationsDOIOpen Access PDF

Abstract

Abstract Pathologic angiogenesis directly responds to tumour hypoxia and controls the molecular/cellular composition of the tumour microenvironment, increasing both immune tolerance and stromal cooperation with tumour growth. Myo‐inositol‐trispyrophosphate (ITPP) provides a means to achieve stable normalization of angiogenesis. ITPP increases intratumour oxygen tension (pO 2 ) and stabilizes vessel normalization through activation of endothelial Phosphatase‐and‐Tensin‐homologue (PTEN). Here, we show that the tumour reduction due to the ITPP‐induced modification of the tumour microenvironment by elevating pO 2 affects the phenotype and properties of the immune infiltrate. Our main observations are as follows: a relative change in the M1 and M2 macrophage‐type proportions, increased proportions of NK and CD8 + T cells, and a reduction in Tregs and Th2 cells. We also found, in vivo and in vitro, that the impaired access of PD1 + NK cells to tumour cells is due to their adhesion to PD‐L1 + /PD‐L2 + endothelial cells in hypoxia. ITPP treatment strongly reduced PD‐L1/PD‐L2 expression on CD45+/CD31+ cells, and PD1 + cells were more numerous in the tumour mass. CTLA‐4 + cell numbers were stable, but level of expression decreased. Similarly, CD47 + cells and expression were reduced. Consequently, angiogenesis normalization induced by ITPP is the mean to revert immunosuppression into an antitumor immune response. This brings a key adjuvant effect to improve the efficacy of chemo/radio/immunotherapeutic strategies for cancer treatment.

Topics & Concepts

AngiogenesisImmune systemTumor microenvironmentCancer researchStromal cellBiologyImmunologyCancer, Hypoxia, and MetabolismAngiogenesis and VEGF in CancerCancer Research and Treatments