Abstract
This study investigated the acute blockade of endogenous melatonin (MLT) using Luzindole with or without systemic lipopolysaccharide (LPS) challenge and evaluated changes in inflammatory and oxidative stress markers in the mouse jejunum. Luzindole is an MT1/MT2 MLT receptor antagonist. Both receptors occur in the small intestine. Swiss mice were treated with either saline (0.35 mg/kg, ip), Luzindole (0.35 mg/kg, ip), LPS (1.25 mg/kg, ip), or Luzindole+LPS (0.35 and 1.25 mg/kg, ip, respectively). Jejunum samples were evaluated regarding intestinal morphometry, histopathological crypt scoring, and PAS-positive villus goblet cell counting. Inflammatory Iba-1, interleukin (IL)-1β, tumor necrosis factor (TNF)-α, nuclear factor (NF)-kB, myeloperoxidase (MPO), and oxidative stress (NP-SHs, catalase, MDA, nitrate/nitrite) markers were assessed. Mice treated with Luzindole, LPS, and Luzindole+LPS showed villus height shortening. Crypt damage was worse in the LPS group. Luzindole, LPS, and Luzindole+LPS reduced the PAS-goblet cell labeling and increased Iba-1-immunolabelled cells compared to the saline group. Immunoblotting for IL-1β, TNF-α, and NF-kB was greater in the Luzindole group. The LPS-challenged group showed higher MPO activity than the saline and Luzindole groups. Catalase was reduced in the Luzindole and Luzindole+LPS groups compared to saline. The Luzindole group showed an increase in NP-SHs, an effect related to compensatory GSH activity. The acute blockade of endogenous MLT with Luzindole induced early changes in inflammatory markers with altered intestinal morphology. The other non-detectable deleterious effects of Luzindole may be balanced by the unopposed direct action of MLT in immune cells bypassing the MT1/MT2 receptors.
Highlights
Melatonin (5 methoxy-N-acetyltryptamine, MLT) is an ancestral indoleamine, widely present in mammals and other living beings as plants
This study addressed whether early blocking of endogenous MLT by Luzindole, an MT1/MT2 inhibitor, compromises intestinal homeostasis, thereby, evaluating the MT1/MT2-dependent constitutive role of MLT on the small intestine
Endogenous MLT in the intestine may be essential for the prevention or treatment of diseases, such as colorectal cancer, ulcerative colitis, gastric ulcers, irritable bowel syndrome, and childhood enteric infections
Summary
Melatonin (5 methoxy-N-acetyltryptamine, MLT) is an ancestral indoleamine, widely present in mammals and other living beings as plants. Its widespread presence suggests an important role in tissue homeostasis. MLT was first identified in the brain, being produced primarily by the pineal gland, with its secretion being regulated by the medial geniculate body [1]. MLT is produced by enterochromaffin cells of the digestive mucosa, and previous evidence has indicated a higher concentration of MLT in the gastrointestinal tract (about 400 times greater) than in the pineal gland. That tissue can be one of the main sites responsible for maintaining the plasma levels of MLT. MLT plays an important role in regulation of motility and anti-inflammatory responses [2]
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