Innate Immune Response Regulation by the Human RNASET2 Tumor Suppressor Gene.

Francesco Acquati,Lorenzo Mortara,Annarosaria De Vito,Douglas M Noonan,Roberto Taramelli,Adriana Albini,Marco Cippitelli,Denisa Baci

doi:10.3389/fimmu.2019.02587

Abstract

The link between cancer development or progression and immune system dysregulation has long been established. Virtually every cell type belonging to both the innate and adaptive immune system has been reported to be involved in a complex interplay that might culminate into either a pro- or anti-tumorigenic response. Among the cellular components of the innate immune system, cells belonging to the monocyte/macrophage lineage have been consistently shown to play a key role in the tumorigenic process. The most advanced human tumors are reported to be strongly infiltrated with Tumor-Associated Macrophages (TAMs) endowed with the ability to contribute to tumor growth and dissemination. However, given their widely acknowledged functional plasticity, macrophages can display anti-tumor properties as well. Based on these premises, experimental approaches to promote the in vivo macrophage shift from pro-tumor to anti-tumor phenotype represent one of the most promising research field aimed at developing immune system-mediated tumor suppressive therapies. In this context, the human RNASET2 oncosuppressor gene has emerged as a potential tool for macrophage-mediated tumor suppression. A growing body of experimental evidence has been reported to suggest a role for this gene in the regulation of macrophage activity in both in vitro and in vivo experimental models. Moreover, several recent reports suggest a role for this gene in a broad range of cell types involved in immune response, pointing at RNASET2 as a putative regulator of several functional features within the immune system.

Highlights

The innate immune system represents an evolutionary conserved host defense tool, with many key features being shared between plants, invertebrates, and vertebrates [1].dysfunction of this defense system is involved in a wide range of pathologies, which include cancer and autoimmune disease in humans [2, 3].In cancer, key cellular components of the innate immune system undergo a significant alteration in their effector functions, whose final result is the expression of tolerant or pro-tumorInnate Immunity-Mediated Tumor Suppression by RNASET2 functions [4]
Autoimmune diseases are usually associated with an abnormal, excessive response of CD4+ T helper (Th) cell subsets in cooperation with myeloid innate immune cells [5, 6]
A new piece in the puzzle has been recently added by the results of several genome-wide association studies (GWAS), where a few Single nucleotide polymorphisms (SNPs) nearby the RNASET2 gene have been strongly associated with the risk for several human autoimmune diseases, such as Grave’s disease, vitiligo, Crohn’s disease, rheumatoid arthritis, and type I diabetes [71,72,73,74,75]

Summary

Frontiers in Immunology

The most advanced human tumors are reported to be strongly infiltrated with Tumor-Associated Macrophages (TAMs) endowed with the ability to contribute to tumor growth and dissemination Given their widely acknowledged functional plasticity, macrophages can display anti-tumor properties as well. Based on these premises, experimental approaches to promote the in vivo macrophage shift from pro-tumor to anti-tumor phenotype represent one of the most promising research field aimed at developing immune system-mediated tumor suppressive therapies. Experimental approaches to promote the in vivo macrophage shift from pro-tumor to anti-tumor phenotype represent one of the most promising research field aimed at developing immune system-mediated tumor suppressive therapies In this context, the human RNASET2 oncosuppressor gene has emerged as a potential tool for macrophage-mediated tumor suppression.

INTRODUCTION

CONCLUSION