Yi Liu scite author profile

Summary B cells produce a diverse antibody repertoire by undergoing gene rearrangements. Pathogen exposure induces the clonal expansion of B cells expressing antibodies that can bind the infectious agent. To assess human B cell responses to trivalent seasonal influenza and monovalent pandemic H1N1 vaccination, we sequenced gene rearrangements encoding the immunoglobulin heavy chain, a major determinant of epitope recognition. The magnitude of B cell clonal expansions correlates with an individual’s secreted antibody response to the vaccine and the expanded clones are enriched for those expressing influenza-specific mAbs. Additionally, B cell responses to pandemic influenza H1N1 vaccination and infection in different people show a prominent family of convergent antibody heavy chain gene rearrangements specific to influenza antigens. These results indicate that microbes can induce specific signatures of immunoglobulin gene rearrangements and that pathogen exposure can potentially be assessed from B cell repertoires.

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High-resolution antibody dynamics of vaccine-induced immune responses

Laserson

Vigneault

Gadala-Maria

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

183

219

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The adaptive immune system confers protection by generating a diverse repertoire of antibody receptors that are rapidly expanded and contracted in response to specific targets. Next-generation DNA sequencing now provides the opportunity to survey this complex and vast repertoire. In the present work, we describe a set of tools for the analysis of antibody repertoires and their application to elucidating the dynamics of the response to viral vaccination in human volunteers. By analyzing data from 38 separate blood samples across 2 y, we found that the use of the germ-line library of V and J segments is conserved between individuals over time. Surprisingly, there appeared to be no correlation between the use level of a particular VJ combination and degree of expansion. We found the antibody RNA repertoire in each volunteer to be highly dynamic, with each individual displaying qualitatively different response dynamics. By using combinatorial phage display, we screened selected VH genes paired with their corresponding VL library for affinity against the vaccine antigens. Altogether, this work presents an additional set of tools for profiling the human antibody repertoire and demonstrates characterization of the fast repertoire dynamics through time in multiple individuals responding to an immune challenge.next-generation sequencing | influenza | immunology T he immune system is able to rapidly sense and respond to a vast array of invading organisms. Its arsenal contains systems that are immediately effective against commonly seen patterns (innate immunity) and systems that are capable of responding to novel invaders (adaptive immunity). Given the acute nature and diversity of infections, the immune system must be capable of rapid recognition of a pathogen, amplification of the response, and subsequent contraction of the response after the resolution of the infection. Adaptive immune responses rely on the continuous selection and amplification of specific clones from an enormous library of immune receptors (antibodies and T cell receptors). Specifically, stimulation of B-cell immunity results in the synthesis of antibodies that are secreted into the blood stream or into the mucosa as well as the programming of B memory cells that play a crucial role in the generation of rapid protective responses upon reinfection.Currently, many immunology studies depend on characterizing lymphocyte subsets (e.g., assaying cell-surface receptors) and the ability to correlate them to encoded genetic information (1). Recent advances in next-generation sequencing (NGS) (2) have enabled any DNA-encodable assay to produce massive amounts of data. Indeed, NGS has enabled unprecedented views into the immune repertoire, as its immune receptor diversity is genetically encoded within a complex collection of lymphocytes (3-8).The present study set out to dissect the rapid dynamics of the complete human peripheral antibody response against a controlled immune challenge (vaccination), without the a priori notion of cell state markers or functions...

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Effects of Aging, Cytomegalovirus Infection, and EBV Infection on Human B Cell Repertoires

et al. 2014

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Elderly humans show decreased humoral immunity to pathogens and vaccines, yet the effects of aging on B cells are not fully known. Chronic viral infection by cytomegalovirus (CMV) is implicated as a driver of clonal T cell proliferations in some aging humans, but whether CMV or Epstein-Barr virus (EBV) infection contributes to alterations in the B cell repertoire with age is unclear. We have used high-throughput DNA sequencing of immunoglobulin heavy chain (IGH) gene rearrangements to study the B cell receptor repertoires over two successive years in 27 individuals ranging in age from 20 to 89 years. Some features of the B cell repertoire remain stable with age, but elderly subjects show increased numbers of B cells with long CDR3 regions, a trend toward accumulation of more highly mutated IgM and IgG immunoglobulin genes, and persistent clonal B cell populations in the blood. Seropositivity for CMV or EBV infection alters B cell repertoires, regardless of the individual's age: EBV infection correlates with the presence of persistent clonal B cell expansions, while CMV infection correlates with the proportion of highly mutated antibody genes. These findings isolate effects of aging from those of chronic viral infection on B cell repertoires, and provide a baseline for understanding human B cell responses to vaccination or infectious stimuli.

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Fetal alloantigen is responsible for the expansion of the CD4+CD25+ regulatory T cell pool during pregnancy

Zhao

Zeng

Liu

2007

Journal of Reproductive Immunology

139

134

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Single B-cell deconvolution of peanut-specific antibody responses in allergic patients

Hoh

Joshi

Liu

et al. 2016

Journal of Allergy and Clinical Immunology

121

101

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Background The frequencies, cellular phenotypes, epitope specificity and clonal diversity of allergen-specific B cells in food allergic patients are not fully understood, but are of major pathogenic and therapeutic significance. Objective To characterize peanut allergen-specific B cell populations, and the sequences and binding activities of their antibodies, before and during immunotherapy. Methods B cells binding fluorescently labeled Ara h 1 or Ara h 2 were phenotyped and isolated by flow cytometric sorting from 18 patients at baseline and 13 during therapy. 57 monoclonal antibodies derived from allergen-binding single B cells were evaluated by ELISA, Western blotting and peptide epitope mapping. Deep sequencing of B cell repertoires identified additional members of the allergen-specific B cell clones. Results Median allergen-binding B cell frequencies were 0.0097% (Ara h 1) or 0.029% (Ara h 2) of B cells in baseline allergic patient blood, and were approximately three-fold higher during immunotherapy. Five of 57 allergen-specific cells belonged to clones containing IgE-expressing members. Almost all allergen-specific antibodies were mutated, and binding to both conformational and linear allergen epitopes was detected. Increasing somatic mutation of IgG4 members of a clone was seen in immunotherapy, while IgE mutation levels in the clone did not increase. Conclusion Most peanut allergen-binding B cells isolated by antigen-specific flow sorting express mutated and isotype-switched antibodies. Immunotherapy increases their frequency in the blood, and even narrowly-defined allergen epitopes are recognized by numerous distinct B cell clones in a patient. The results also suggest that oral immunotherapy can stimulate somatic mutation of allergen-specific IgG4.

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Yi Liu

Human Responses to Influenza Vaccination Show Seroconversion Signatures and Convergent Antibody Rearrangements

High-resolution antibody dynamics of vaccine-induced immune responses

Effects of Aging, Cytomegalovirus Infection, and EBV Infection on Human B Cell Repertoires

Fetal alloantigen is responsible for the expansion of the CD4+CD25+ regulatory T cell pool during pregnancy

Single B-cell deconvolution of peanut-specific antibody responses in allergic patients

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