Litcius/Paper detail

Anti-VEGF Treatment Enhances CD8+ T-cell Antitumor Activity by Amplifying Hypoxia

Patricia E. de Almeida, Judy Mak, Genevive Hernandez, Rajiv Jesudason, Aurélie Hérault, Vincent Javinal, Jovencio Borneo, Jeong Kim, Kevin B. Walsh

2020Cancer Immunology Research104 citationsDOI

Abstract

Abstract Antiangiogenic therapies that target the VEGF pathway have been used clinically to combat cancer for over a decade. Beyond having a direct impact on blood vessel development and tumor perfusion, accumulating evidence indicates that these agents also affect antitumor immune responses. Numerous clinical trials combining antiangiogenic drugs with immunotherapies for the treatment of cancer are ongoing, but a mechanistic understanding of how disruption of tumor angiogenesis may impact immunity is not fully discerned. Here, we reveal that blockade of VEGF-A with a mAb to VEGF augments activation of CD8+ T cells within tumors and potentiates their capacity to produce cytokines. We demonstrate that this phenomenon relies on the disruption of VEGFR2 signaling in the tumor microenvironment but does not affect CD8+ T cells directly. Instead, the augmented functional capacity of CD8+ T cells stems from increased tumor hypoxia that initiates a hypoxia-inducible factor-1α program within CD8+ T cells that directly enhances cytokine production. Finally, combinatorial administration of anti-VEGF with an immunotherapeutic antibody, anti-OX40, improved antitumor activity over single-agent treatments. Our findings illustrate that anti-VEGF treatment enhances CD8+ T-cell effector function and provides a mechanistic rationale for combining antiangiogenic and immunotherapeutic drugs for cancer treatment.

Topics & Concepts

Tumor microenvironmentCD8Cancer researchAngiogenesisImmunotherapyCancer immunotherapyImmune systemCytotoxic T cellCytokineImmunologyT cellHypoxia (environmental)Tumor hypoxiaMedicineBiologyChemistryIn vitroInternal medicineBiochemistryOxygenOrganic chemistryRadiation therapyAngiogenesis and VEGF in CancerCAR-T cell therapy researchImmunotherapy and Immune Responses