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Repeat modules and N-linked glycans define structure and antigenicity of a critical enterotoxigenic . | LitMetric

AI Article Synopsis

  • * The adhesive protein EtpA plays a crucial role in ETEC's ability to attach to intestinal cells, and it has been shown to trigger strong immune responses in infected individuals, making it a target for vaccine development.
  • * Research involving mutations of EtpA, antibody isolation, and advanced imaging techniques revealed important insights into how EtpA interacts with blood group A glycans and promotes immune responses, which could guide the creation of effective vaccine subunits. *

Article Abstract

Enterotoxigenic (ETEC) cause hundreds of millions of cases of infectious diarrhea annually, predominantly in children from low-middle income regions. Notably, in children, as well as human volunteers challenged with ETEC, diarrheal severity is significantly increased severity in blood group A (bgA) individuals. EtpA, is a secreted glycoprotein adhesin that functions as a blood group A lectin to promote critical interactions between ETEC and blood group A glycans on intestinal epithelia for effective bacterial adhesion and toxin delivery. EtpA is highly immunogenic resulting in robust antibody responses following natural infection and experimental challenge of human volunteers with ETEC. To understand how EtpA directs ETEC-blood group A interactions and stimulates adaptive immunity, we mutated EtpA, mapped its glycosylation by mass-spectrometry (MS), isolated polyclonal (pAbs) and monoclonal antibodies (mAbs) from vaccinated mice and ETEC-infected human volunteers, and determined structures of antibody-EtpA complexes by cryo-electron microscopy. Both bgA and mAbs that inhibited EtpA-bgA interactions and ETEC adhesion, bound to the C-terminal repeat domain highlighting this region as crucial for ETEC pathogen-host interaction. MS analysis uncovered extensive and heterogeneous N-linked glycosylation of EtpA and cryo-EM structures revealed that mAbs directly engage these unique glycan containing epitopes. Finally, electron microscopy-based polyclonal epitope mapping revealed antibodies targeting numerous distinct epitopes on N and C-terminal domains, suggesting that EtpA vaccination generates responses against neutralizing and decoy regions of the molecule. Collectively, we anticipate that these data will inform our general understanding of pathogen-host glycan interactions and adaptive immunity relevant to rational vaccine subunit design.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11100705PMC
http://dx.doi.org/10.1101/2024.05.08.593125DOI Listing

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