Litcius/Paper detail

<scp>Pre‐clinical</scp> evidence of a dual <scp>NADPH</scp> oxidase 1/4 inhibitor (setanaxib) in liver, kidney and lung fibrosis

Victor J. Thannickal, Karin Jandeleit‐Dahm, Cédric Szyndralewiez, Natalie J. Török

2023Journal of Cellular and Molecular Medicine53 citationsDOIOpen Access PDF

Abstract

Fibrosis describes a dysregulated tissue remodelling response to persistent cellular injury and is the final pathological consequence of many chronic diseases that affect the liver, kidney and lung. Nicotinamide adenine dinucleotide phosphate (NADPH)-oxidase (NOX) enzymes produce reactive oxygen species (ROS) as their primary function. ROS derived from NOX1 and NOX4 are key mediators of liver, kidney and lung fibrosis. Setanaxib (GKT137831) is a first-in-class, dual inhibitor of NOX1/4 and is the first NOX inhibitor to progress to clinical trial investigation. The anti-fibrotic effects of setanaxib in liver, kidney and lung fibrosis are supported by multiple lines of pre-clinical evidence. However, despite advances in our understanding, the precise roles of NOX1/4 in fibrosis require further investigation. Additionally, there is a translational gap between the pre-clinical observations of setanaxib to date and the applicability of these to human patients within a clinical setting. This narrative review critically examines the role of NOX1/4 in liver, kidney and lung fibrosis, alongside the available evidence investigating setanaxib as a therapeutic agent in pre-clinical models of disease. We discuss the potential clinical translatability of this pre-clinical evidence, which provides rationale to explore NOX1/4 inhibition by setanaxib across various fibrotic pathologies in clinical trials involving human patients.

Topics & Concepts

NOX1FibrosisNicotinamide adenine dinucleotide phosphateMedicineNADPH oxidaseKidneyNOX4Kidney diseaseLungPathologyBioinformaticsInternal medicineBiologyOxidative stressOxidase testBiochemistryEnzymeNeutrophil, Myeloperoxidase and Oxidative MechanismsSphingolipid Metabolism and SignalingNitric Oxide and Endothelin Effects