The Impact of Macrophage Polarity and the Tumor Microenvironment on NK Cell Phenotype and Function

Abstract

<p>NK cells play a pivotal role in tumor rejection; however, once present in the tumor microenvironment, they are characterized by decreased cytotoxicity and reduced expression of activating receptors. The mechanisms governing the inactivation of NK cells within tumors remain poorly understood. Since tumor associated macrophages (TAMs) are a highly abundant and suppressive cell type within tumors, we hypothesized that they are capable of altering the function of NK cells. Following the co-culture of alternatively activated macrophages (M2) or TAMs with NK cells we observed that the expression of the cytotoxic marker CD27 on NK cells was down-regulated as well as the ability of these cells to kill YAC-1 cells in a killing assay. We have demonstrated that the mechanism by which M2 cells inhibit NK cells is TGF-β dependent. Notably, the developmental stage of NK cells after interaction with TAMs was altered and the NK cells became phenoytpically mature and potentially exhausted (CD27^lowCD11b^high). This prompted our interest in examining the developmental stage of NK cells from polyoma MT antigen (pyMT) transgenic mouse (MMTV-pMT) breast tumors. Interestingly, in contrast to the <em>in vitro</em> results, we have shown that NK cells isolated from pyMT tumors are developmentally immature; however maintain their maturity within the spleen. Their immature phenotype correlates well with their decreased expression of perforin, granzyme, and NKp46. Both our <em>in vitro</em> studies with TAMs and our <em>in vivo</em> developmental studies using the pyMT model demonstrate that NK cells are altered by their surroundings. A better understanding of how NK cells are modified by the tumor microenvironment will help to develop strategies aimed at bolstering immune responses against tumors.</p>