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A Primeval Mechanism of Tolerance to Desiccation Based on Glycolic Acid Saves Neurons in Mammals from Ischemia by Reducing Intracellular Calcium‐Mediated Excitotoxicity

Alexandra Chovsepian, Daniel Berchtold, Katarzyna Winek, Uta Mamrak, Inés Ramírez Álvarez, Yanina Dening, Dominika Gołubczyk, Luis Weitbrecht, Claudia Dames, Marine Aillery, Celia Fernández‐Sanz, Zdzisław Gajewski, Marianne Dieterich, Mirosław Janowski, Peter Falkai, Piotr Walczak, Nikolaus Plesnila, Andreas Meisel, Francisco Pan‐Montojo

2021Advanced Science16 citationsDOIOpen Access PDF

Abstract

Stroke is the second leading cause of death and disability worldwide. Current treatments, such as pharmacological thrombolysis or mechanical thrombectomy, reopen occluded arteries but do not protect against ischemia-induced damage that occurs before reperfusion or neuronal damage induced by ischemia/reperfusion. It has been shown that disrupting the conversion of glyoxal to glycolic acid (GA) results in a decreased tolerance to anhydrobiosis in Caenorhabditis elegans dauer larva and that GA itself can rescue this phenotype. During the process of desiccation/rehydration, a metabolic stop/start similar to the one observed during ischemia/reperfusion occurs. In this study, the protective effect of GA is tested in different ischemia models, i.e., in commonly used stroke models in mice and swine. The results show that GA, given during reperfusion, strongly protects against ischemic damage and improves functional outcome. Evidence that GA exerts its effect by counteracting the glutamate-dependent increase in intracellular calcium during excitotoxicity is provided. These results suggest that GA treatment has the potential to reduce mortality and disability in stroke patients.

Topics & Concepts

ExcitotoxicityIschemiaGlutamate receptorGlycolic acidCalcium in biologyThrombolysisStroke (engine)CalciumNeuroprotectionPharmacologyIntracellularMedicineApoptosisCell biologyChemistryBiologyBiochemistryInternal medicineLactic acidEngineeringBacteriaMyocardial infarctionMechanical engineeringGeneticsReceptorGenetics, Aging, and Longevity in Model OrganismsThermoregulation and physiological responsesSpaceflight effects on biology
A Primeval Mechanism of Tolerance to Desiccation Based on Glycolic Acid Saves Neurons in Mammals from Ischemia by Reducing Intracellular Calcium‐Mediated Excitotoxicity | Litcius