Litcius/Paper detail

Myeloperoxidase: Growing importance in cancer pathogenesis and potential drug target

Paulina Valadez-Cosmes, Sofia Raftopoulou, Zala Nikita Mihalič, Gunther Marsche, Julia Kargl

2021Pharmacology & Therapeutics92 citationsDOIOpen Access PDF

Abstract

Myeloperoxidase is a heme-peroxidase which makes up approximately 5% of the total dry cell weight of neutrophils where it is predominantly found in the primary (azurophilic) granules. Other cell types, such as monocytes and certain macrophage subpopulations also contain myeloperoxidase, but to a much lesser extent. Initially, the function of myeloperoxidase had been mainly associated with its ability as a catalyzer of reactive oxidants that help to clear pathogens. However, over the past years non-canonical functions of myeloperoxidase have been described both in health and disease. Attention has been specially focused on inflammatory diseases, in which an exacerbate infiltration of leukocytes can favor a poorly-controlled production and release of myeloperoxidase and its oxidants. There is compelling evidence that myeloperoxidase derived oxidants contribute to tissue damage and the development and propagation of acute and chronic vascular inflammation. Recently, neutrophils have attracted much attention within the large diversity of innate immune cells that are part of the tumor microenvironment. In particular, neutrophil-derived myeloperoxidase may play an important role in cancer development and progression. This review article aims to provide a comprehensive overview of the roles of myeloperoxidase in the development and progression of cancer. We propose future research approaches and explore prospects of inhibiting myeloperoxidase as a strategy to fight against cancer.

Topics & Concepts

MyeloperoxidaseAzurophilic granuleCancerImmunologyInflammationTumor microenvironmentPeroxidaseBiologyMacrophageInnate immune systemCancer researchImmune systemMedicineBiochemistryIn vitroEnzymeGeneticsNeutrophil, Myeloperoxidase and Oxidative MechanismsMedical and Biological Ozone ResearchImmune cells in cancer