Enterotoxigenic Escherichia coli–blood group A interactions intensify diarrheal severity
Pardeep Kumar, F. Matthew Kuhlmann, Subhra Chakraborty, A. Louis Bourgeois, Jennifer Foulke-Abel, Brunda Tumala, Tim J. Vickers, David A. Sack, Barbara DeNearing, Clayton D. Harro, W. Shea Wright, Jeffrey C. Gildersleeve, Matthew A. Ciorba, Srikanth Santhanam, Chad K. Porter, Ramiro L. Gutierrez, Michael G. Prouty, Mark S. Riddle, Alexander Polino, Alaullah Sheikh, Mark Donowitz, James M. Fleckenstein
Pardeep Kumar, F. Matthew Kuhlmann, Subhra Chakraborty, A. Louis Bourgeois, Jennifer Foulke-Abel, Brunda Tumala, Tim J. Vickers, David A. Sack, Barbara DeNearing, Clayton D. Harro, W. Shea Wright, Jeffrey C. Gildersleeve, Matthew A. Ciorba, Srikanth Santhanam, Chad K. Porter, Ramiro L. Gutierrez, Michael G. Prouty, Mark S. Riddle, Alexander Polino, Alaullah Sheikh, Mark Donowitz, James M. Fleckenstein
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Research Article Infectious disease

Enterotoxigenic Escherichia coli–blood group A interactions intensify diarrheal severity

Abstract

Enterotoxigenic Escherichia coli (ETEC) infections are highly prevalent in developing countries, where clinical presentations range from asymptomatic colonization to severe cholera-like illness. The molecular basis for these varied presentations, which may involve strain-specific virulence features as well as host factors, has not been elucidated. We demonstrate that, when challenged with ETEC strain H10407, originally isolated from a case of cholera-like illness, blood group A human volunteers developed severe diarrhea more frequently than individuals from other blood groups. Interestingly, a diverse population of ETEC strains, including H10407, secrete the EtpA adhesin molecule. As many bacterial adhesins also agglutinate red blood cells, we combined the use of glycan arrays, biolayer inferometry, and noncanonical amino acid labeling with hemagglutination studies to demonstrate that EtpA is a dominant ETEC blood group A–specific lectin/hemagglutinin. Importantly, we have also shown that EtpA interacts specifically with glycans expressed on intestinal epithelial cells from blood group A individuals and that EtpA-mediated bacterial-host interactions accelerate bacterial adhesion and effective delivery of both the heat-labile and heat-stable toxins of ETEC. Collectively, these data provide additional insight into the complex molecular basis of severe ETEC diarrheal illness that may inform rational design of vaccines to protect those at highest risk.

Authors

Pardeep Kumar, F. Matthew Kuhlmann, Subhra Chakraborty, A. Louis Bourgeois, Jennifer Foulke-Abel, Brunda Tumala, Tim J. Vickers, David A. Sack, Barbara DeNearing, Clayton D. Harro, W. Shea Wright, Jeffrey C. Gildersleeve, Matthew A. Ciorba, Srikanth Santhanam, Chad K. Porter, Ramiro L. Gutierrez, Michael G. Prouty, Mark S. Riddle, Alexander Polino, Alaullah Sheikh, Mark Donowitz, James M. Fleckenstein

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Figure 4

EtpA is a dominant blood group A–binding partner of ETEC H10407.

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EtpA is a dominant blood group A–binding partner of ETEC H10407. (A) Blo...
(A) Blood group A antigen far-Western blot with subcellular fractions of ETEC H10407 including supernatant (S), outer membrane (OM), and inner membrane (IM) demonstrates binding of biotinylated blood group A to high molecular weight protein in concentrated culture supernatant. (B) Coomassie-stained gel of supernatant proteins from H10407 (WT), etpA mutant jf1668, etpA mutant complemented with the etpBAC locus plasmid pJY019 (etpA(P+); etpA(P–)) equals mutant complemented with cloning vector alone. (C) EtpA immunoblot confirming the presence of EtpA in culture supernatants from H10407 and the complemented mutant. (D) Far-Western blot of culture supernatants shown in B and C shows binding of biotinylated blood group A only in the presence of EtpA. (E) EtpA is the dominant A blood group–specific interacting partner among ETEC proteins from ANL-labeled bacteria. Shown is a fluorescence image of ANL-labeled proteins from ETEC H10407 that interact with erythrocyte ghosts from A1, A2, B, and O blood groups (middle, RBCs/ANL). RBC ghosts alone are shown at left, and input protein (ANL) from H10407 and the etpA deletion mutant (jf1668) are shown at right. The migration of EtpA is indicated by the arrow, and TAMRA-labeled rEtpA is shown at far right as a positive control. Each image is representative of 3 experimental replicates.