Nickita Mehta scite author profile

Antibodies are the primary correlate of protection for most licensed vaccines; however, their mechanisms of protection may vary, ranging from physical blockade to clearance via the recruitment of innate immunity. Here, we uncover striking functional diversity in vaccine-induced antibodies that is driven by immunization site and is associated with reduced risk of SIV infection in nonhuman primates. While equivalent levels of protection were observed following intramuscular (IM) and aerosol (AE) immunization with an otherwise identical DNA prime-Ad5 boost regimen, reduced risk of infection was associated with IgG-driven antibody-dependent monocyte-mediated phagocytosis in the IM vaccinees, but with vaccine-elicited IgA-driven neutrophil-mediated phagocytosis in AE-immunized animals. Thus, although route-independent correlates indicate a critical role for phagocytic Fc-effector activity in protection from SIV, the site of immunization may drive this Fc activity via distinct innate effector cells and antibody isotypes. Moreover, the same correlates predicted protection from SHIV infection in a second nonhuman primate vaccine trial using a disparate IM canarypox prime-protein boost strategy, analogous to that used in the first moderately protective human HIV vaccine trial. These data identify orthogonal functional humoral mechanisms, initiated by distinct vaccination routes and immunization strategies, pointing to multiple, potentially complementary correlates of immunity that may support the rational design of a protective vaccine against HIV.

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A versatile high-throughput assay to characterize antibody-mediated neutrophil phagocytosis

Karsten

Mehta

Shin

et al. 2019

Journal of Immunological Methods

127

113

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Neutrophils, the most abundant white blood cell, play a critical role in anti-pathogen immunity via phagocytic clearance, secretion of enzymes and immunomodulators, and the release of extracellular traps. Neutrophils non-specifically sense infection through an array of innate immune receptors and inflammatory sensors, but are also able to respond in a pathogen/antigen-specific manner when leveraged by antibodies via Fc-receptors. Among neutrophil functions, antibody-dependent neutrophil phagocytosis (ADNP) results in antibody-mediated opsonization, enabling neutrophils to sense and respond to infection in a pathogen-appropriate manner. Here, we describe a high-throughput flow cytometric approach to effectively visualize and quantify ADNP and its downstream consequences. The assay is easily adaptable, supporting both the use of purified neutrophils or white blood cells, the use of purified Ig or serum, and the broad utility of any target antigen. Thus, this ADNP assay represents a high-throughput platform for the in-depth characterization of neutrophil function.

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Multi-isotype Glycoproteomic Characterization of Serum Antibody Heavy Chains Reveals Isotype- and Subclass-Specific N-Glycosylation Profiles

Chandler

Mehta

Leon

et al. 2019

Molecular & Cellular Proteomics

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A method to study immunoglobulin (Ig) isotype-and site-specific N-glycosylation using nLC-MS/MS with stepped-energy higher energy collisional dissociation (HCD) has been established. This method empowers characterization of N-glycosylation microheterogeneity from human serum-derived IgG1, IgG4, IgA1, IgA2 and IgM, including sequence and glycosylation-site variants. This multi-isotype approach is a crucial step toward developing a platform to define disease-specific N-glycan signatures for different isotypes and thus help tune antibodes to induce protection.

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Upper and lower respiratory tract correlates of protection against respiratory syncytial virus following vaccination of nonhuman primates

Zohar

Hsiao

Mehta

et al. 2022

Cell Host & Microbe

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Mass Spectrometric Quantification of N-Linked Glycans by Reference to Exogenous Standards

Mehta¹,

Porterfield²,

Struwe

et al. 2016

J. Proteome Res.

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Environmental and metabolic processes shape the profile of glycoprotein glycans expressed by cells, whether in culture, developing tissues, or mature organisms. Quantitative characterization of glycomic changes associated with these conditions has been achieved historically by reductive coupling of oligosaccharides to various fluorophores following release from glycoprotein and subsequent HPLC or capillary electrophoretic separation. Such labeling-based approaches provide a robust means of quantifying glycan amount based on fluorescence yield. Mass spectrometry, on the other hand, has generally been limited to relative quantification in which the contribution of the signal intensity for an individual glycan is expressed as a percent of the signal intensity summed over the total profile. Relative quantification has been valuable for highlighting changes in glycan expression between samples; sensitivity is high, and structural information can be derived by fragmentation. We have investigated whether MS-based glycomics is amenable to absolute quantification by referencing signal intensities to well-characterized oligosaccharide standards. We report the qualification of a set of N-linked oligosaccharide standards by NMR, HPLC, and MS. We also demonstrate the dynamic range, sensitivity, and recovery from complex biological matrices for these standards in their permethylated form. Our results indicate that absolute quantification for MS-based glycomic analysis is reproducible and robust utilizing currently available glycan standards. Graphical Abstract *Corresponding Authors:

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Phosphatidic acid phospholipase A1 mediates ER–Golgi transit of a family of G protein–coupled receptors

Govind

Yuan

Parthibane

et al. 2014

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Mucosal Therapy of Multi-Drug Resistant Tuberculosis With IgA and Interferon-γ

et al. 2020

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Antibody effector functions are associated with protection from respiratory syncytial virus

Bartsch

Cizmeci

Kang

et al. 2022

Cell

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Nickita Mehta

Route of immunization defines multiple mechanisms of vaccine-mediated protection against SIV

A versatile high-throughput assay to characterize antibody-mediated neutrophil phagocytosis

Multi-isotype Glycoproteomic Characterization of Serum Antibody Heavy Chains Reveals Isotype- and Subclass-Specific N-Glycosylation Profiles

Upper and lower respiratory tract correlates of protection against respiratory syncytial virus following vaccination of nonhuman primates

Mass Spectrometric Quantification of N-Linked Glycans by Reference to Exogenous Standards

Phosphatidic acid phospholipase A1 mediates ER–Golgi transit of a family of G protein–coupled receptors

Mucosal Therapy of Multi-Drug Resistant Tuberculosis With IgA and Interferon-γ

Antibody effector functions are associated with protection from respiratory syncytial virus

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