The Impact of H1–H4 Receptor Antagonists on the Levels of Selected Oxidative Stress Markers in Liver and Muscle Tissue in an Animal Model of Colitis
Bartosz Bogielski, Katarzyna Michalczyk, Wojciech Gębski, Katarzyna Rozpędek, Elżbieta Szulińska, Bartosz Tempka, Aleksandra Zorychta, Elżbieta Chełmecka, Ewa Kaczmar, Piotr Głodek, Jakub John, Kamil Nikiel, Bronisława Skrzep-Poloczek, Jerzy Jochem, Katarzyna Kieć-Kononowicz

TL;DR
This study explores how blocking different histamine receptors affects oxidative stress in the liver and muscles of rats with colitis, finding that H2 receptor antagonists are most effective at reducing liver damage.
Contribution
The study identifies the specific effects of H1–H4 histamine receptor antagonists on oxidative stress markers in liver and muscle tissues during colitis.
Findings
H2 receptor antagonists reduced oxidative damage in the liver and enhanced antioxidant defenses in skeletal muscle.
H1 receptor antagonists increased catalase activity in colitis rats and altered glutathione metabolism in the liver.
H4 receptor antagonists increased glutathione levels but also elevated oxidative damage markers in the liver.
Abstract
Background/Objectives: The global prevalence and incidence of inflammatory bowel diseases have risen in the past two decades. Among them, Crohn’s disease and ulcerative colitis are still challenging to treat due to vascular and proliferative alterations. Studies in rats suggest that blocking histamine receptors (H1–H4) can improve colitis progression. However, the specific histamine receptor responsible for this effect remains debated. The experiment aimed to assess the role of specific histamine receptor subtypes in colitis development, focusing on oxidative stress markers in the liver and skeletal muscle. Methods: The study involved 60 adult male Wistar rats, divided into control and colitis experimental groups. Colitis was induced through intracolonic administration of 2,4,6-trinitrobenzenesulfonic acid. Animals in both experimental groups received intramuscular injections of NaCl…
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Taxonomy
TopicsMast cells and histamine · Hydrogen's biological and therapeutic effects · Polyamine Metabolism and Applications
