Project description:Anti-interleukin-10 effects on chicken jejunal bacterial communities during coccidiosis or necrotic enteritis

Project description:Anti-interleukin-10 effects on chicken jejunal bacterial metatranscriptome during coccidiosis or necrotic enteritis

Project description:Purpose: Analyze gene expression of necrotic enteritis C. perfringens in intestinal chicken loops comparing with in vitro conditions

Project description:Purpose: Analyze gene expression during C. perfringens colonization in the chicken Transcriptomic profile of mRNA from C. perfrinegns from in vivo and in vitro conditions were determined in biological duplicates by RNA-Seq using Illumina HiSeq 2500 Comparison of gene expression through RNA sequencing of necrotic enteritis C. perfrinegns type A of in vivo (chicken loops) and in vitro (lab culture)

Project description:Dietary anti-interleukin-4 effects on chicken cecal bacterial communities during coccidiosis

Project description:Jejunal bacterial communities of broiler chickens affected with subclinical and clinical necrotic enteritis

Project description:Probiotics and Necrotic Enteritis

Project description:Characterization of intestinal microbiota associated with severity of chicken necrotic enteritis

Project description:Group 3 innate lymphoid cells (ILC3s) produce interleukin (IL)-22 and, together with other cells in the gut, orchestrate to mount productive host immunity against bacterial infection. However, the role of ILC3s in Salmonella enterica serovar Typhimurium (S. Typhimurium) infection, which causes foodborne enteritis in humans, remains elusive. Here, we show that S. Typhimurium exploit ILC3-produced IL-22 to promote its infection. Specifically, S. Typhimurium secrete flagellin through activation of the TLR5-Myd88-IL-23 signaling pathway in antigen presenting cells (APCs) to selectively enhance IL-22 production by ILC3s, but not T cells. Deletion of ILC3s but not T cells in mice led to better control of S. Typhimurium infection. We also show that S. Typhimurium can invade ILC3s directly and cause caspase-1-mediated ILC3 pyroptosis independently of flagellin. Genetic ablation of Casp1 in mice leads to increased ILC3 survival and IL-22 production, and enhanced S. Typhimurium infection. Collectively, our data suggest a key host defense mechanism against S. Typhimurium infection via induction of ILC3 death to limit intracellular bacteria and reduce IL-22 production.

Project description:Case of necrotic enteritis associated with campylobacteriosis and coccidiosis in an adult Indian peacock (Pavo cristatus)