Researchers from IBIMA BIONAND Platformbelonging to the group ‘SIBIUMA, Bases Moleculares de los Sistemas Biológicos’ and linked to the Department of Molecular Biology and Biochemistry of the University of Malaga, have carried out a first study on the role played by the dimethyl fumarate (DMF) in energy metabolism.
Thus, for the first time, dimethyl fumarate has been shown for the first time to promote the glycolysis and inhibits the mitochondrial respiration that occurs in endothelial cells. This has been verified using models in vitro (cell cultures) and in vivo (zebrafish).
The results of this research, which is still at an early stage, could lead to the therapeutic application of this compound in processes that require the formation of new blood vessels from pre-existing ones, as in the case of tumours, which need new vessels in order to grow.
According to Miguel Ángel Medina, Professor of Biochemistry and Molecular Biology at the University of Malaga and lead researcher, the study allows us to better understand the ‘possible therapeutic role of dimethyl fumarate in certain pathological contexts, thus understanding the metabolic alterations that occur in endothelial cells and opening a path as a possible pharmacological therapy in processes in which angiogenesis plays a prominent role, as in the case of tumour development’.
Led by the researcher in charge of this research group at the Institute, Miguel Ángel Medina, together with Beatriz Martínez and whose first authors were María del Carmen Ocaña and Manuel Bernal, postdoctoral researcher of the State Programme for the Promotion of Talent, JDC Incorporation, this study has been published in the prestigious journal Communications Biology.
The group led by María Luisa García Martín has been collaborating in the elaboration process, with the valuable help of Carlos Caro and Alejandro Domínguez, a specialist technician at the Histology Platform at the University of Valencia. IBIMA BIONAND PlatformThe key to the identification of the essential metabolites involved in the metabolic reprogramming using zebrafish as a model.
The research was also carried out in collaboration with Ralph J. DeBerardinis's group, from the prestigious Children´s Medical Center Research Institute (University of Texas, Dallas, USA), an international benchmark for the study of the regulation of metabolism in pathophysiological contexts.
Tags Dimethyl fumarate • IBIMA BIONAND Platform • metabolism