Enhancing T Cell Chemotaxis and Infiltration in Glioblastoma.

Abstract

Simple SummaryImmunotherapy in glioblastoma has so far failed to yield a survival benefit. This failure can be attributed to a paucity of immune cells at the tumor site which can be reinvigorated to kill tumor cells. Therefore, driving effector immune cells such as cytotoxic T lymphocytes to the tumor is a necessary pre-requisite of any effective immunotherapy approach. In this review, we will discuss therapeutic approaches possible for trafficking T cells from the periphery to travel through the blood–brain barrier and tissue of the brain to reach the tumor.Glioblastoma is an immunologically ‘cold’ tumor, which are characterized by absent or minimal numbers of tumor-infiltrating lymphocytes (TILs). For those tumors that have been invaded by lymphocytes, they are profoundly exhausted and ineffective. While many immunotherapy approaches seek to reinvigorate immune cells at the tumor, this requires TILs to be present. Therefore, to unleash the full potential of immunotherapy in glioblastoma, the trafficking of lymphocytes to the tumor is highly desirable. However, the process of T cell recruitment into the central nervous system (CNS) is tightly regulated. Naïve T cells may undergo an initial licensing process to enter the migratory phenotype necessary to enter the CNS. T cells then must express appropriate integrins and selectin ligands to interact with transmembrane proteins at the blood–brain barrier (BBB). Finally, they must interact with antigen-presenting cells and undergo further licensing to enter the parenchyma. These T cells must then navigate the tumor microenvironment, which is rich in immunosuppressive factors. Altered tumoral metabolism also interferes with T cell motility. In this review, we will describe these processes and their mediators, along with potential therapeutic approaches to enhance trafficking. We also discuss safety considerations for such approaches as well as potential counteragents.