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Broader Immune Repertoire for Neonates Exposed to Commensal Bacteria Antigens
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Broader Immune Repertoire for Neonates Exposed to Commensal Bacteria Antigens

Broader Immune Repertoire for Neonates Exposed to Commensal Bacteria Antigens
News

Broader Immune Repertoire for Neonates Exposed to Commensal Bacteria Antigens

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University of Alabama at BirminghamComputer model of the secondary structure of a immunoglobulin antibody molecule. This is the most abundant immunoglobulin and is found in all body fluids. Each Y-shaped molecule has two arms (top) that can bind to specific antigens, for instance bacterial or viral proteins. In doing this they mark the antigen for destruction by phagocytes, white blood cells that ingest and destroy foreign bodies. Antibodies can also kill some pathogens directly, and can neutralise toxins. The background shows a proteomic symbols, including part of a DNA molecule and protein gel spots. Proteomics is the study of the structure and function of all of the proteins in an organism. researchers have added fresh evidence that early exposure to vaccine-, bacterial- or microbiota-derived antigens has a dramatic effect on the diversity of antibodies an adult mammal will have to fight future infections by pathogens. This antibody diversity is called the clonal repertoire — basically different single cells with distinct antibody potential that can multiply into a large clone of cells, all producing that distinct antibody.

In a mouse study published in the journal Immunity, they looked at a group of immune cells called B-1 B cells. Although all B cells have the ability to develop into antibody-secreting cells to control pathogens, innate-like B-1 B cells originate from a developmental program that is distinct from conventional B cells.


The UAB researchers, led by first author J. Stewart New, Ph.D., and co-senior authors John Kearney, Ph.D., and R. Glenn King, Ph.D., UAB Department of Microbiology, looked at a subset of B-1 B cells that react to N-acetyl-D-glucosamine-containing Lancefield Group A carbohydrate, or GAC, a cell wall polysaccharide of the bacterial pathogen Streptococcus pyogenes.


They asked the question, how much will clonal diversity differ in mice grown under sterile germ-free conditions, versus mice with a normal gut microbiota from birth, or mice with a normal microbiota that are also vaccinated as neonates with GAC-bearing S. pyogenes. To answer, they sequenced the immunoglobulin heavy chain variable region, or IGHV region, for single B cells labeled with GAC. Single-cell sequencing has exploded in the past decade as a powerful research tool that takes biology to a new depth of understanding.


New, Kearney, King and colleagues found that environmental antigen-dependent selection events play a significant role to shape the GAC-reactive B-1 B cell clonal repertoire. New is a postdoctoral fellow, Kearney is a professor, and King is assistant professor of microbiology in the UAB School of Medicine.


In general, germ-free mice had a low IGHV clonal diversity, while both conventional mice and neonatal-vaccination mice had high clonal diversities. However, the conventional and neonatal-vaccination mice differed. Both showed that the establishment of IGHV region 6-3 GAC-reactive B cell clonal dominance was microbiota-dependent; but in addition, the neonatal immunization with S. pyogenes expanded the typically minor IGHV region 7-3 GAC-reactive clonotypes, compared to those clonotypes in the conventional mice.


The researchers found that colonization of adult germ-free mice promoted N-acetyl-D-glucosamine-reactive B-1 B cell development and led to clonally related immunoglobulin A-positive plasma cells in the small intestine. Plasma cells differentiate from B cells, and they are the ones that produce antibody. Immunoglobulin A secretion in the gut is beneficial because it helps constrain the composition and inflammatory activity of the normal microbiota in the small intestine.


Kearney says that understanding how exposure to microbial antigens in early life determines the clonality and ensuing antibody responses of the B-1 B cell repertoire has implications for vaccination approaches and schedules.


B-1 B cells also are known to produce natural immunoglobulin M. Deficiencies of immunoglobulin M have been associated with increased rates of autoimmunity and allergic diseases. The dramatic effect of early exposure to vaccine or bacteria for clonal diversity seen in the current research, Kearney said, “may provide an alternative mechanistic explanation for the influence of environmental antigens on the allergic and autoimmune disease susceptibility, which is often discussed in context of the hygiene hypothesis.”


The hygiene hypothesis suggests that a reduction in infections in Western countries — due to better hygiene — has led to an increase in autoimmune and allergic diseases.

Reference
Neonatal Exposure to Commensal-Bacteria-Derived Antigens Directs Polysaccharide-Specific B-1 B Cell Repertoire Development. J. Stewart New et al. Immunity, June 30, 2020, DOI:https://doi.org/10.1016/j.immuni.2020.06.006.

This article has been republished from the following materials. Note: material may have been edited for length and content. For further information, please contact the cited source.

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