A novel long-galanin peptide from non-mammalian vertebrates mitigates the inflammatory response in IBD models via the biased GALR2/β-arrestin2 pathway.
Shanshan Lai, Xianglin Kong, Jingwen Xue, Kaili Ma, Amanullah Amanullah, Yuwei Chen, Na Yang, Ting Zhang, Kun Zheng, Tao Zeng, Xiaofei Yan, Chang Zhang, Shah Kamal, Najeeb Ullah, Chingwei Luo
Abstract
Open AccessGalanin, a neuropeptide, regulates immune and inflammatory responses via GALR1-3. GALRs have emerged as potential therapeutic targets for inflammatory bowel disease (IBD), yet their mechanistic roles remain unclear. Based on evolutionary analysis, we identified a long galanin isoform (GAL53), generated by alternative splicing in non-mammalian vertebrates. Here we show that the chicken ortholog cGAL53 is robustly expressed in colonic tissue but downregulated upon dextran sulfate sodium (DSS)-induced colitis. Administration of cGAL53 alleviates colitis-associated weight loss, colon shortening, bleeding, and inflammation in both chickens and mice. These effects are abolished in Galr2-deficient mice, highlighting receptor dependency. Moreover, epithelial cell-specific Arrb2 and Gnaq knockout models demonstrate that cGAL53 protects the gut barrier and reduces inflammation by activating β-arrestin2-biased GALR2 signaling. Our findings reveal a naturally occurring long galanin peptide with potent anti-inflammatory activity and propose evolutionary medicine-guided biased GALR2 agonism as a therapeutic strategy for IBD.