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Galectin-9 recognizes and exhibits antimicrobial activity toward microbes expressing blood group–like antigens

Anna V. Blenda, Nourine A. Kamili, Shang‐Chuen Wu, William Abel, Diyoly Ayona, Christian Gerner‐Smidt, Alex Ho, Guy M. Benian, Richard D. Cummings, Connie M. Arthur, Sean R. Stowell

2022Journal of Biological Chemistry32 citationsDOIOpen Access PDF

Abstract

While adaptive immunity recognizes a nearly infinite range of antigenic determinants, immune tolerance renders adaptive immunity vulnerable to microbes decorated in self-like antigens. Recent studies suggest that sugar-binding proteins galectin-4 and galectin-8 bind microbes expressing blood group antigens. However, the binding profile and potential antimicrobial activity of other galectins, particularly galectin-9 (Gal-9), has remained incompletely defined. Here, we demonstrate that while Gal-9 possesses strong binding preference for ABO(H) blood group antigens, each domain exhibits distinct binding patterns, with the C-terminal domain (Gal-9C) exhibiting higher binding to blood group B than the N-terminal domain (Gal-9N). Despite this binding preference, Gal-9 readily killed blood group B-positive Escherichia coli, whereas Gal-9N displayed higher killing activity against this microbe than Gal-9C. Utilization of microarrays populated with blood group O antigens from a diverse array of microbes revealed that Gal-9 can bind various microbial glycans, whereas Gal-9N and Gal-9C displayed distinct and overlapping binding preferences. Flow cytometric examination of intact microbes corroborated the microbial glycan microarray findings, demonstrating that Gal-9, Gal-9N, and Gal-9C also possess the capacity to recognize distinct strains of Providencia alcalifaciens and Klebsiella pneumoniae that express mammalian blood group-like antigens while failing to bind related strains that do not express mammalian-like glycans. In each case of microbial binding, Gal-9, Gal-9N, and Gal-9C induced microbial death. In contrast, while Gal-9, Gal-9N, and Gal-9C engaged red blood cells, each failed to induce hemolysis. These data suggest that Gal-9 recognition of distinct microbial strains may provide antimicrobial activity against molecular mimicry.

Topics & Concepts

AntimicrobialGalectin-3MicrobiologyGalectinAntigenBlood group antigensBiologyChemistryCell biologyImmunologyGalectins and Cancer BiologyToxin Mechanisms and ImmunotoxinsSignaling Pathways in Disease
Galectin-9 recognizes and exhibits antimicrobial activity toward microbes expressing blood group–like antigens | Litcius