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The Slow-Releasing and Mitochondria-Targeted Hydrogen Sulfide (H2S) Delivery Molecule AP39 Induces Brain Tolerance to Ischemia

Bartosz Pomierny, Weronika Krzyżanowska, Jakub Jurczyk, Alicja Skórkowska, Beata Strach, Małgorzata Szafarz, Katarzyna Przejczowska‐Pomierny, Roberta Torregrossa, Matthew Whiteman, Monika Marcinkowska, Joanna Pera, Bogusława Budziszewska

2021International Journal of Molecular Sciences52 citationsDOIOpen Access PDF

Abstract

Ischemic stroke is the third leading cause of death in the world, which accounts for almost 12% of the total deaths worldwide. Despite decades of research, the available and effective pharmacotherapy is limited. Some evidence underlines the beneficial properties of hydrogen sulfide (H2S) donors, such as NaSH, in an animal model of brain ischemia and in in vitro research; however, these data are ambiguous. This study was undertaken to verify the neuroprotective activity of AP39, a slow-releasing mitochondria-targeted H2S delivery molecule. We administered AP39 for 7 days prior to ischemia onset, and the potential to induce brain tolerance to ischemia was verified. To do this, we used the rat model of 90-min middle cerebral artery occlusion (MCAO) and used LC-MS/MS, RT-PCR, LuminexTM assays, Western blot and immunofluorescent double-staining to determine the absolute H2S levels, inflammatory markers, neurotrophic factor signaling pathways and apoptosis marker in the ipsilateral frontal cortex, hippocampus and in the dorsal striatum 24 h after ischemia onset. AP39 (50 nmol/kg) reduced the infarct volume, neurological deficit and reduced the microglia marker (Iba1) expression. AP39 also exerted prominent anti-inflammatory activity in reducing the release of Il-1β, Il-6 and TNFα in brain areas particularly affected by ischemia. Furthermore, AP39 enhanced the pro-survival pathways of neurotrophic factors BDNF-TrkB and NGF-TrkA and reduced the proapoptotic proNGF-p75NTR-sortilin pathway activity. These changes corresponded with reduced levels of cleaved caspase 3. Altogether, AP39 treatment induced adaptative changes within the brain and, by that, developed brain tolerance to ischemia.

Topics & Concepts

NeuroprotectionIschemiaPharmacologyNeurotrophic factorsMicrogliaNeurotrophinMedicineBrain-derived neurotrophic factorHippocampusWestern blotInternal medicineChemistryBiochemistryReceptorInflammationGeneSulfur Compounds in BiologyOlfactory and Sensory Function StudiesRenin-Angiotensin System Studies