Project description:Protein disulfide isomerases (PDIs) aid protein folding and assembly by catalyzing formation and shuffling of cysteine disulfide bonds in the endoplasmic reticulum (ER). Many members of the PDI family are expressed in mammals but the roles of specific PDIs in vivo are poorly understood. A recent homology-based search for additional PDI family members identified anterior gradient homolog 2 (AGR2), a protein originally presumed to be secreted by intestinal epithelial cells, but the function of AGR2 has been obscure. Here we show that AGR2 is expressed in the ER of secretory cells and is essential for in vivo production of intestinal mucin, a large cysteine-rich glycoprotein that forms the protective mucus gel lining the intestine. A cysteine residue within the AGR2 thioredoxin-like domain forms mixed disulfide bonds with MUC2, consistent with a direct role for AGR2 in mucin processing. Despite a complete absence of intestinal mucin, mice lacking AGR2 appeared healthy but were highly susceptible to dextran sodium sulfate-induced experimental colitis, indicating a critical role for AGR2 in protection from environmental insults. We conclude that AGR2 is a unique member of the PDI family that has a specialized and non-redundant role in intestinal mucus production. Keywords: small intestine and colon gene expression profiles for Agr2-/- and littermate control mice
Project description:Protein disulfide isomerases (PDIs) aid protein folding and assembly by catalyzing formation and shuffling of cysteine disulfide bonds in the endoplasmic reticulum (ER). Many members of the PDI family are expressed in mammals but the roles of specific PDIs in vivo are poorly understood. A recent homology-based search for additional PDI family members identified anterior gradient homolog 2 (AGR2), a protein originally presumed to be secreted by intestinal epithelial cells, but the function of AGR2 has been obscure. Here we show that AGR2 is expressed in the ER of secretory cells and is essential for in vivo production of intestinal mucin, a large cysteine-rich glycoprotein that forms the protective mucus gel lining the intestine. A cysteine residue within the AGR2 thioredoxin-like domain forms mixed disulfide bonds with MUC2, consistent with a direct role for AGR2 in mucin processing. Despite a complete absence of intestinal mucin, mice lacking AGR2 appeared healthy but were highly susceptible to dextran sodium sulfate-induced experimental colitis, indicating a critical role for AGR2 in protection from environmental insults. We conclude that AGR2 is a unique member of the PDI family that has a specialized and non-redundant role in intestinal mucus production. Keywords: small intestine and colon gene expression profiles for Agr2-/- and littermate control mice DNA miocroarrays were used to analyze small intenstine and colon mRNA expression of AGR2 KO and littermate control mice. The experiment incorporated a 1 color design and used Agilent arrays that contained roughly 44,00 60mer probes that provide complete coverage of the mouse genome. 12 arrays were hybridized and represent 8 small intestine samples ( 4 each KO and WT) and 4 colon samples (2 each KO and WT)
Project description:The de novo Autism Spectrum Disorder RELN R2290C Mutation Reduces Reelin Secretion and Increases Protein Disulfide Isomerase Expression
Project description:To describe the protein profile in hippocampus, colon and ileum tissue’ changing after the old faeces transplants, we adopted a quantitative label free proteomics approach.
Project description:A mucus layer covers and protects the intestinal epithelial cells from direct contact with microbes. This mucus layer not only prevents inflammation but also plays an essential role in microbiota colonization, indicating the complex interplay between mucus composition-microbiota and intestinal health. However, it is unknown whether the mucus layer is influenced by age or sex and whether this contributes to reported differences in intestinal diseases in males and females or with ageing. Therefore, in this study we investigated the effect of age on mucus thickness, intestinal microbiota composition and immune composition in relation to sex. The ageing induced shrinkage of the colonic mucus layer was associated with bacterial penetration and direct contact of bacteria with the epithelium in both sexes. Additionally, several genes involved in the biosynthesis of mucus were downregulated in old mice, especially in males, and this was accompanied by a decrease in abundances of various Lactobacillus species and unclassified Clostridiales type IV and XIV and increase in abundance of the potential pathobiont Bacteroides vulgatus. The changes in mucus and microbiota in old mice were associated with enhanced activation of the immune system as illustrated by a higher percentage of effector T cells in old mice. Our data contribute to a better understanding of the interplay between mucus-microbiota-and immune responses and ultimately may lead to more tailored design of strategies to modulate mucus production in targeted groups.