Alexey Nokel scite author profile

Innate immunity natural Abs (NAbs) execute a number of functions, including protection and surveillance. Despite active research, the stimuli that induce the formation of NAbs are still described only hypothetically. Here, we compared repertoires of anti-glycan Abs in the peripheral blood of mice that received per os various bacteria. The repertoires of Abs of mice primed in this way were compared using a microarray that included about 350 glycans, as well as 150 bacterial polysaccharides. Sterile mice did not possess anti-glycan Abs. Oral inoculation of a single strain or combination of two to four strains of bacteria, as well as putting the animals on short-term nutrition with non-sterile food, did not contribute significantly to the formation of Abs, whereas a single gavage of digested food of non-sterile mice induced the formation of a repertoire close to the natural ones. Interestingly, the priming with polysaccharide Ags (in a composition of the bacterial cell envelope), that is, dominant Ags of bacteria, led to the induction of Abs against typical glycans of mammalian glycoproteins and glycolipids (e.g. Abs of the ABH blood group system) that do not have a structural similarity to the polysaccharides. The results support the importance of early contact with a naïve immune system with microorganisms of the environment to form a normal NAbs repertoire.

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Printed Glycan Array: A Sensitive Technique for the Analysis of the Repertoire of Circulating Anti-carbohydrate Antibodies in Small Animals

Olivera-Ardid

Khasbiullina

Nokel³

et al. 2019

JoVE

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Are there specific antibodies against Neu5Gc epitopes in the blood of healthy individuals?

Obukhova

Tsygankova

Chinarev

et al. 2020

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Strong discrepancies in published data on the levels and epitope specificities of antibodies against the xenogenic N-glycolyl forms of sialoglycans (Hanganutziu-Deicher Neu5Gcɑ2-3Galβ1-4Glc and related antigens) in healthy donors prompted us to carry out a systematic study in this area using the printed glycan array and other methods. This article summarizes and discusses our published and previously unpublished data, as well as publicly available data from the Consortium for Functional Glycomics. As a result, we conclude that (1) the level of antibodies referred to as anti-Neu5Gc in healthy individuals is low; (2) there are antibodies that seem to interact with Neu5Gc-containing epitopes, but in fact they recognize internal fragments of Neu5Gc-containing glycans (without sialic acids), which served as antigens in the assays used and; (3) a population capable of interacting specifically with Neu5Gc (it does not bind the corresponding NAc analogs) does exist, but it binds the monosaccharide Neu5Gc better than the entire glycans containing it. In other words, in healthy donors, there are populations of antibodies capable of binding the Neu5Gc monosaccharide or the inner core -Galβ1-4Glc, but very few true anti-Neu5Gcɑ2-3Galβ1-4Glc antibodies, i.e., antibodies capable of specifically recognizing the entire trisaccharide.

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The Repertoire of Human Antiglycan Antibodies and Its Dynamics in the First Year of Life

Khasbiullina

Шилова

Navakouski

et al. 2019

Biochemistry Moscow

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Absorption spectra and structure of benzimidazoquinozalinone derivatives

et al. 2008

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Photogeneration of singlet molecular oxygen by components of hematoporphyrin IX derivative

SIu¹,

AIu²,

Aa³

et al. 1989

Bull Exp Biol Med

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Human antibodies eluted from ligand-free Sepharose capable of binding bacterial polysaccharides and sulfated glycans

Dobrochaeva

Khasbiullina

Шилова

et al. 2019

Molecular Immunology

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Specificity profile of αGal antibodies in αGalT KO mice as probed with comprehensive printed glycan array: Comparison with human anti‐Galili antibodies

Dobrochaeva

Khasbiullina

Шилова

et al. 2021

Xenotransplantation

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Background The α1,3‐galactosyltransferase gene‐knockout (GalT KO) mice are able to produce natural anti‐αGal antibodies apparently without any specific immunization. GalT KO mice are commonly used as a model immunological system for studying anti‐αGal responses to Gal‐positive xenografts in human. In this study, we compared the specificity of mouse and human αGal antibodies to realize the adequacy of the murine model. Methods Using hapten‐specific affinity chromatography antibodies against Galα1‐3Galβ1‐4GlcNAcβ epitope were isolated from both human and GalT KO mice blood sera. Specificity of isolated antibodies was determined using a printed glycan array (PGA) containing 400 mammalian glycans and 200 bacterial polysaccharides. Results The quantity of isolated specific anti‐Galα antibodies corresponds to a content of <0.2% of total Ig, which is an order of magnitude lower than that generally assumed for both human and murine peripheral blood immunoglobulin, with a high predominance of IgM over IgG (95% vs 5%). Analysis using a printed glycan array has demonstrated that (a) antibodies from both species bind not only the Galα1‐3Galβ1‐4GlcNAcβ epitope, but also unrelated glycans; (b) particularly, for human (but not mouse) antibodies the best binders appear to be bacterial polysaccharides; (c) the profile of mouse antibodies is broader, it is noteworthy that they recognize a variety of human blood group B epitopes and even glycans without the α‐galactosyl residue. Conclusions We believe that the mouse model should be used cautiously in xenotransplantation experiments when the fine epitope specificity of antibodies is critical.

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Alexey Nokel

Repertoire of Abs primed by bacteria in gnotobiotic mice

Printed Glycan Array: A Sensitive Technique for the Analysis of the Repertoire of Circulating Anti-carbohydrate Antibodies in Small Animals

Are there specific antibodies against Neu5Gc epitopes in the blood of healthy individuals?

The Repertoire of Human Antiglycan Antibodies and Its Dynamics in the First Year of Life

Absorption spectra and structure of benzimidazoquinozalinone derivatives

Photogeneration of singlet molecular oxygen by components of hematoporphyrin IX derivative

Human antibodies eluted from ligand-free Sepharose capable of binding bacterial polysaccharides and sulfated glycans

Specificity profile of αGal antibodies in αGalT KO mice as probed with comprehensive printed glycan array: Comparison with human anti‐Galili antibodies

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