CARNOSINE PROTECTION IN CARDIAC ISCHEMIC EVENTS: A FERROPTOSIS APPROACH

Abstract

The present proposal addresses an internship at the Rudolf Virchow Center at the University of Würzburg through the BEPE/FAPESP Ph.D. program for 6 months. The aim of the project is to pursue the relationship between the still unexplained carnosine (¿-alanyl-L-histidine) protection of cardiac cells during ischemia/reperfusion injury and its recently discovered role in avoiding ferroptosis. Different cell types (both wild-type and modified lines) will be cultured in presence and absence of carnosine, exposed to I/R protocol and ferroptosis markers will be assessed. Recent literature indicates that carnosine exhibits a protective role in cardiac ischemic events, but the underlying molecular mechanisms remain unclear. Other than being easily supplemented in the diet, this dipeptide shows a range of functions (e.g. metal chelation, intracellular pH buffering, glycation protection and aldehyde sequestering). Ferroptosis is a regulated form of cell death characterized by iron-driven accumulation of lipid peroxides that relies in distinct biochemical alterations, such as glutathione depletion and inactivation of glutathione peroxidase 4 (GPX4). Through a still unknown mechanism, carnosine has been shown to help renal cells evade ferroptosis. In this project, we will be able to employ molecular biology techniques to correlate both cardiac I/R injury and ferroptosis to better understand the role carnosine plays in this potentially fatal condition. In this context, Prof. Angeli's group is considered a reference in the field of ferroptosis, enabling us to unravel the mechanisms by which carnosine is protective against I/R injury.