Specificity Enhancement of Glutenase Bga1903 toward Celiac Disease-Eliciting Pro-Immunogenic Peptides via Active-Site Modification

Celiac disease is an autoimmune disease triggered by oral ingestion of gluten, with certain gluten residues resistant to digestive tract enzymes. Within the duodenum, the remaining peptides incite immunogenic responses, including the generation of autoantibodies and inflammation, leading to irrevers...

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Veröffentlicht in:	International journal of molecular sciences 2023-12, Vol.25 (1), p.505
Hauptverfasser:	Liu, Yu-You, Ye, Rui-Ling, Meng, Menghsiao
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Sprache:	eng
Schlagworte:	Amino acids Antigens Autoantibodies Autoimmune Diseases Autoimmunity B cells Biopsy Catalytic Domain Celiac Disease Crystals Enzymes Gastrointestinal Agents Gluten Glutens Humans Immune response Investigations Mutation Peptides Small intestine Structure
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description	Celiac disease is an autoimmune disease triggered by oral ingestion of gluten, with certain gluten residues resistant to digestive tract enzymes. Within the duodenum, the remaining peptides incite immunogenic responses, including the generation of autoantibodies and inflammation, leading to irreversible damage. Our previous exploration unveiled a glutenase called Bga1903 derived from the Gram-negative bacterium . The cleavage pattern of Bga1903 indicates its moderate ability to mitigate the toxicity of pro-immunogenic peptides. The crystal structure of Bga1903, along with the identification of subsites within its active site, was determined. To improve its substrate specificity toward prevalent motifs like QPQ within gluten peptides, the active site of Bga1903 underwent site-directed mutagenesis according to structural insights and enzymatic kinetics. Among the double-site mutants, E380Q/S387L exhibits an approximately 34-fold increase in its specificity constant toward the QPQ sequence, favoring glutamines at the P1 and P3 positions compared to the wild type. The increased specificity of E380Q/S387L not only enhances its ability to break down pro-immunogenic peptides but also positions this enzyme variant as a promising candidate for oral therapy for celiac disease.
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subjects	Amino acids Antigens Autoantibodies Autoimmune Diseases Autoimmunity B cells Biopsy Catalytic Domain Celiac Disease Crystals Enzymes Gastrointestinal Agents Gluten Glutens Humans Immune response Investigations Mutation Peptides Small intestine Structure
title	Specificity Enhancement of Glutenase Bga1903 toward Celiac Disease-Eliciting Pro-Immunogenic Peptides via Active-Site Modification
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