Abstract

Abstract In cancer, the immunosuppressive function of myeloid cells that support tumor progression is controlled by secreted factors in the tumor microenvironment. In the tumor microenvironment, arginine and arginine-derived metabolites have been demonstrated to be crucial factors in tumor development. Within macrophages, arginine metabolism influences the polarization of macrophages and therefore, tumor growth by eliciting an anti-tumoral or pro-tumoral phenotype. Interleukin 9 (IL-9) is a pleiotropic cytokine that signals through the IL-9 receptor (IL-9R) and can function as a positive or negative regulator in tumor immunity. Recently, our lab has demonstrated that IL-9 signaling promotes tumor progression in the lung by expanding pulmonary interstitial macrophage populations and inducing Arginase 1 (ARG1), an enzyme associated with pro-tumoral macrophage function, activity. However, the mechanism by which IL-9R/ARG1+ interstitial macrophages promote tumor development remains unknown. Here, using a B16F10 model of metastatic lung cancer, we demonstrate that knockdown of ARG1 using macrophage targeting Arg1siRNA containing nanoparticles results in altered pulmonary T-cell and macrophage proportions. Moreover, attenuation of IL-9 signaling and ARG1 expression in macrophages impacts arginine and arginine-derived metabolite concentration in lung tissue and BAL fluid which correlates with decreases in CD4+ T Cell exhaustion marker expression and a concomitant reduction in PDL1 expression on pulmonary interstitial macrophages in tumor-bearing mice. Thus, our work suggests that the IL-9R/ARG1 axis in macrophages is sufficient to alter arginine in the tumor microenvironment and promote tumor growth.

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