LPS-Induced Neuroinflammation Increases Serotonin-Evoked Activity of Trigeminal Afferents and Aggravates Mechanical Allodynia and Photophobic Behavior in Rat Migraine Model.
Svetlana Svitko, Elisaveta Ermakova, Karina Gilizhdinova, Ksenia Bogatova, Nazgul Gaifutdinova, Dinara Nurmieva, Egor Nevsky, Anton Ananev, Olga Yakovleva, Albert Sufianov, Galina Z Sufianova, Artyom Baev, Kseniia Shaidullova, Albert Rizvanov, Aliya Yakubova
Abstract
Open AccessMigraine is characterized by severe pain and somatic symptoms like allodynia and photophobia, driven by neuroinflammation that sensitizes the trigeminal vascular system (TVS). This study investigated how neuroinflammation induced by systemic lipopolysaccharide (LPS) affects migraine-related nociceptive signaling. Using a chronic migraine model in rats with nitroglycerin (NTG), we compared prenatal and acute postnatal LPS administration. Rats with prenatal LPS exhibited lower mechanical thresholds and enhanced allodynia and photophobia after NTG. Acute LPS also increased allodynia, but not photophobia. Both LPS groups showed increased mast cell degranulation in the dura mater. Plasma CGRP after NTG administration was elevated in the acute LPS group. Electrophysiology revealed enhanced trigeminal afferent responses to serotonin in both acutely and prenatally LPS-treated rats. Calcium imaging demonstrated increased neuronal responses to serotonin and capsaicin, suggesting an upregulation of serotonin and TRPV1 receptors. Our findings show that LPS-induced neuroinflammation, whether prenatal or acute, promotes sensitization of peripheral and central nociceptive pathways, involving serotoninergic mechanisms.