Abstract: This study aimed to investigate the effect of probiotic Lactobacillus rhamnosus LGA (L. rhamnosus LGA) on the βdefensin 9 (AvBD9) expression in cultured chicken small intestinal epithelial cells. L. rhamnosus LGA was selected to examine the timeand doseresponse of AvBD9 gene expression upon stimulation of chicken intestinal small epithelial cells with L. rhamnosus LGA. The AvBD9 mRNA expression was determined by fluorescence quantitative PCR (FQPCR). The results showed that AvBD9 expression was upregulated by stimulation of L. rhamnosus LGA at different concentrations (2×105, 2×106, 2×107 cfu·mL-1), and expression difference was observed between treatments at three bacterial concentrations. Heatinactivated L. rhamnosus LGA also stimulated the expression of AvBD9, and showed stronger induction response than live bacteria (P<0.05). The L. rhamnosus LGA promoted AvBD9 mRNA transcription in timedependent manner. The AvBD9 mRNA expression peaked at 12 h of incubation upon treatment of epithelial cells with lactobacillus. AvBD9 peptide was detected by Western blot in the supernatants of cultured epithelial cells treated with L. rhamnosus LGA, indicating that AvBD9 peptide releases into extracellular medium and exerts its biological actions. Probiotic L. rhamnosus LGA stimulates AvBD9 expression in the epithelial cells of chicken small intestine during lactobacillusepithelial cell interaction. This study reveals the new possible functional mechanism by which the probiotic Lactobacilli exert their beneficial effects to the host through the antimicrobial peptide expression in the small intestinal epithelium.