Your search keyword '"Hogarth, P. Mark"' showing total 12 results

1. Anti-Influenza Hyperimmune Immunoglobulin Enhances Fc-Functional Antibody Immunity During Human Influenza Infection

Author

INSIGHT FLU005 Pilot Study Writing Group, Vanderven, Hillary A., Wragg, Kathleen, Ana-Sosa-Batiz, Fernanda, Kristensen, Anne B., Jegaskanda, Sinthujan, Wheatley, Adam K., Wentworth, Deborah, Wines, Bruce D., Hogarth, P. Mark, Rockman, Steve, and Kent, Stephen J.

Published

2018

2. Structural Basis for Evasion of IgA Immunity by Staphylococcus aureus Revealed in the Complex of SSL7 with Fc of Human IgA1

Author

Ramsland, Paul A., Willoughby, Natasha, Trist, Halina M., Farrugia, William, Hogarth, P. Mark, Fraser, John D., and Wines, Bruce D.

Published

2007

3. Fcγ receptors: Gene structure and receptor function

Author

Hogarth, P. Mark, Hulett, Mark D., and Osman, Narin

Published

1992

4. A Quantitative Approach to Unravel the Role of Host Genetics in IgG-FcγR Complex Formation After Vaccination.

Author

Lemke, Melissa M., Theisen, Robert M., Bozich, Emily R., McLean, Milla R., Lee, Christina Y., Lopez, Ester, Rerks-Ngarm, Supachai, Pitisuttithum, Punnee, Nitayaphan, Sorachai, Kratochvil, Sven, Wines, Bruce D., Hogarth, P. Mark, Kent, Stephen J., Chung, Amy W., and Arnold, Kelly B.

Subjects

GENETICS, FC receptors, AIDS vaccines, VACCINE trials, VACCINATION, HERD immunity, POST-translational modification

Abstract

Fc-mediated immune functions have been correlated with protection in the RV144 HIV vaccine trial and are important for immunity to a range of pathogens. IgG antibodies (Abs) that form complexes with Fc receptors (FcRs) on innate immune cells can activate Fc-mediated immune functions. Genetic variation in both IgGs and FcRs have the capacity to alter IgG-FcR complex formation via changes in binding affinity and concentration. A growing challenge lies in unraveling the importance of multiple variations, especially in the context of vaccine trials that are conducted in homogenous genetic populations. Here we use an ordinary differential equation model to quantitatively assess how IgG1 allotypes and FcγR polymorphisms influence IgG-FcγRIIIa complex formation in vaccine-relevant settings. Using data from the RV144 HIV vaccine trial, we map the landscape of IgG-FcγRIIIa complex formation predicted post-vaccination for three different IgG1 allotypes and two different FcγRIIIa polymorphisms. Overall, the model illustrates how specific vaccine interventions could be applied to maximize IgG-FcγRIIIa complex formation in different genetic backgrounds. Individuals with the G1m1,17 and G1m1,3 allotypes were predicted to be more responsive to vaccine adjuvant strategies that increase antibody FcγRIIIa affinity (e.g. glycosylation modifications), compared to the G1m-1,3 allotype which was predicted to be more responsive to vaccine boosting regimens that increase IgG1 antibody titers (concentration). Finally, simulations in mixed-allotype populations suggest that the benefit of boosting IgG1 concentration versus IgG1 affinity may be dependent upon the presence of the G1m-1,3 allotype. Overall this work provides a quantitative tool for rationally improving Fc-mediated functions after vaccination that may be important for assessing vaccine trial results in the context of under-represented genetic populations. [ABSTRACT FROM AUTHOR]

Published

2022

5. Fc Binding by FcγRIIa Is Essential for Cellular Activation by the Anti-FcγRIIa mAbs 8.26 and 8.2.

Author

Wines, Bruce D., Trist, Halina M., Esparon, Sandra, Impey, Rachael E., Mackay, Graham A., Andrews, Robert K., Soares da Costa, Tatiana P., Pietersz, Geoffrey A., Baker, Ross I., and Hogarth, P. Mark

Subjects

FC receptors, MONOCLONAL antibodies, BINDING sites, IMMUNE response, RECEPTOR antibodies, ANTIGENS

Abstract

FcγR activity underpins the role of antibodies in both protective immunity and auto-immunity and importantly, the therapeutic activity of many monoclonal antibody therapies. Some monoclonal anti-FcγR antibodies activate their receptors, but the properties required for cell activation are not well defined. Here we examined activation of the most widely expressed human FcγR; FcγRIIa, by two non-blocking, mAbs, 8.26 and 8.2. Crosslinking of FcγRIIa by the mAb F(ab')2 regions alone was insufficient for activation, indicating activation also required receptor engagement by the Fc region. Similarly, when mutant receptors were inactivated in the Fc binding site, so that intact mAb was only able to engage receptors via its two Fab regions, again activation did not occur. Mutation of FcγRIIa in the epitope recognized by the agonist mAbs, completely abrogated the activity of mAb 8.26, but mAb 8.2 activity was only partially inhibited indicating differences in receptor recognition by these mAbs. FcγRIIa inactivated in the Fc binding site was next co-expressed with the FcγRIIa mutated in the epitope recognized by the Fab so that each mAb 8.26 molecule can contribute only three interactions, each with separate receptors, one via the Fc and two via the Fab regions. When the Fab and Fc binding were thus segregated onto different receptor molecules receptor activation by intact mAb did not occur. Thus, receptor activation requires mAb 8.26 Fab and Fc interaction simultaneously with the same receptor molecules. Establishing the molecular nature of FcγR engagement required for cell activation may inform the optimal design of therapeutic mAbs. [ABSTRACT FROM AUTHOR]

Published

2021

6. Boosting of Markers of Fcγ Receptor Function in Anti-HIV Antibodies During Structured Treatment Interruption.

Author

Billings, Hugh, Wines, Bruce D., Dyer, Wayne B., Center, Robert J., Trist, Halina M., Kent, Stephen J., and Hogarth, P. Mark

Abstract

Anti-HIV envelope (Env) antibodies elicit important Fc receptor functions, including FcγRIIIa-mediated natural killer cell killing of opsonized infected targets. How these antibodies evolve during HIV infection and treatment remains poorly understood. We describe changes in anti-HIV Env IgG using longitudinal samples from seroconverter subjects treated soon after infection and later during periods of structured treatment interruption (STI). Our well-validated dimeric rsFcγR binding assays combine effects of opsonizing antibody subclasses, epitopes, and geometries to provide a measure of FcγR (Fcγ receptor)-mediated functionality. IgG1 anti-Env titers diminished rapidly during antiretroviral therapy (ART; t1/2 3.0 ± 0.8 months), while the dimeric rsFcγRIIIa activity persisted longer (t1/2 33 ± 11 months), suggesting that there is maintenance of functional antibody specificities within the diminished pool of anti-HIV Env Abs. The initial antibody response to infection in two subjects was characterized by approximately fivefold higher FcγRIIIa compared with FcγRIIa binding activity. Uncoupling of FcγRIIa and FcγRIIIa activities may be a distinct feature of the early antibody response that preferentially engages FcγRIIIa-mediated effector functions. Two to three STI cycles, even with low viremia, were sufficient to boost dimeric FcγR activity in these seroconverter subjects. We hypothesize that increased humoral immunity induced by STI is a desirable functional outcome potentially achievable by therapeutic immunization during ART. We conclude that controlled viral antigen exposure under the protection of suppressive ART may be effective in eliciting FcγR-dependent function in support of viral reactivation and kill strategies. [ABSTRACT FROM AUTHOR]

Published

2019

7. Anti-Influenza Hyperimmune Immunoglobulin Enhances Fc-Functional Antibody Immunity During Human Influenza Infection.

Author

Vanderven, Hillary A, Wragg, Kathleen, Ana-Sosa-Batiz, Fernanda, Kristensen, Anne B, Jegaskanda, Sinthujan, Wheatley, Adam K, Wentworth, Deborah, Wines, Bruce D, Hogarth, P Mark, Rockman, Steve, Kent, Stephen J, and INSIGHT FLU005 Pilot Study Writing Group

Subjects

INFLUENZA, IMMUNOGLOBULINS, ANTIBODY-dependent cell cytotoxicity, BLOOD, INFECTION

Abstract

Background: New treatments for severe influenza are needed. Passive transfer of influenza-specific hyperimmune pooled immunoglobulin (Flu-IVIG) boosts neutralizing antibody responses to past strains in influenza-infected subjects. The effect of Flu-IVIG on antibodies with Fc-mediated functions, which may target diverse influenza strains, is unclear.Methods: We studied the capacity of Flu-IVIG, relative to standard IVIG, to bind to Fcγ receptors and mediate antibody-dependent cellular cytotoxicity in vitro. The effect of Flu-IVIG infusion, compared to placebo infusion, was examined in serial plasma samples from 24 subjects with confirmed influenza infection in the INSIGHT FLU005 pilot study.Results: Flu-IVIG contains higher concentrations of Fc-functional antibodies than IVIG against a diverse range of influenza hemagglutinins. Following infusion of Flu-IVIG into influenza-infected subjects, a transient increase in Fc-functional antibodies was present for 1-3 days against infecting and noninfecting strains of influenza.Conclusions: Flu-IVIG contains antibodies with Fc-mediated functions against influenza virus, and passive transfer of Flu-IVIG increases anti-influenza Fc-functional antibodies in the plasma of influenza-infected subjects. Enhancement of Fc-functional antibodies to a diverse range of influenza strains suggests that Flu-IVIG infusion could prove useful in the context of novel influenza virus infections, when there may be minimal or no neutralizing antibodies in the Flu-IVIG preparation. [ABSTRACT FROM AUTHOR]

Published

2018

8. The high-affinity receptor for IgG, FcγRI, of humans and non-human primates.

Author

Chenoweth, Alicia M., Trist, Halina M., Tan, Peck-Szee, Wines, Bruce D., and Hogarth, P. Mark

Subjects

IMMUNOGLOBULIN G, FC receptors, IMMUNITY, GENETIC mutation, CRYSTALLOGRAPHY, AMINO acid sequence, ANIMAL models in research

Abstract

Non-human primate ( NHP) models, especially involving macaques, are considered important models of human immunity and have been essential in preclinical testing for vaccines and therapeutics. Despite this, much less characterization of macaque Fc receptors has occurred compared to humans or mice. Much of the characterization of macaque Fc receptors so far has focused on the low-affinity Fc receptors, particularly Fcγ RIIIa. From these studies, it is clear that there are distinct differences between the human and macaque low-affinity receptors and their interaction with human IgG. Relatively little work has been performed on the high-affinity IgG receptor, Fcγ RI, especially in NHPs. This review will focus on what is currently known of how Fcγ RI interacts with IgG, from mutation studies and recent crystallographic studies of human Fcγ RI, and how amino acid sequence differences in the macaque Fcγ RI may affect this interaction. Additionally, this review will look at the functional consequences of differences in the amino acid sequences between humans and macaques. [ABSTRACT FROM AUTHOR]

Published

2015

9. IgA receptors in health and disease.

Author

Wines, Bruce D. and Hogarth, P. Mark

Subjects

*IMMUNOGLOBULIN A, *IMMUNOGLOBULINS, *IGA glomerulonephritis, *EPITHELIAL cells, *CELL receptors, *KIDNEY diseases, *GENETICS

Abstract

The varied interaction of the Fc region of IgA with receptors confers this antibody class with many of its unique properties. The epithelial polymeric Ig receptor on mucosal epithelial cells transports polymeric immunoglobulin A (pIgA) produced by mucosal B cells to the mucosal surface where, in complex with the secretory component (SC), this secretory immunoglobulin A (SIgA) excludes the multitude of dietary, environmental, and microbial antigens that continuously bombard the mucosae. In health, this IgA-mediated exclusion not only forms the initial defence against infection, it also spares the systemic immune system from potentially deleterious responses to innocuous antigens which can otherwise culminate in inflammatory bowel disease or asthma. Beyond antigen exclusion, in closer encounters with antigens, IgA receptors play roles in protective immunity and disease. FcaRI is the principal myeloid IgA receptor and is responsible for differing IgA-mediated effector responses such as respiratory burst, degranulation, and phagocytosis variously by granulyoctes, monocytes, and macrophages. Furthermore an unknown IgA receptor specific for the secretory component (SC) elicits powerful effector responses from eosinophils. On dendritic cells, FcaRI participates in antigen presentation while on microfold cells, key cells in mucosal antigen presentation, another unknown IgA receptor functions in the transport of antigens across the mucosal epithelial barrier. The activity of another uncharacterized IgA1/IgD receptor on T cells may affect autoimmune disorders. The interplay of different IgA receptors affects immune complex deposition in the common renal disease immunoglobulin A nephropathy (IgAN). Finally, the therapeutic application of various IgA receptors has been sought in the areas of infectious disease, vaccines, and cancer. [ABSTRACT FROM AUTHOR]

Published

2006

10. Mouse Fcγ RI: identification and functional characterization of five new alleles.

Author

Gavin, Amanda L., Leiter, Edward H., and Hogarth, P. Mark

Subjects

AMINO acids, IMMUNOGLOBULIN G, IMMUNOGENETICS, EXONS (Genetics), NUCLEOTIDES

Abstract

The mouse Fcgr1 gene encoding the high-affinity IgG receptor (FcγRI) exists as two known alleles, FcγRI-BALB and FcγRI-NOD, and these alleles exhibit functional differences. To determine whether other alleles exist in mouse strains, Fcgr1 coding regions from 35 strains of mice were sequenced and a further five alleles were identified. The FcγRI-BALB and NOD alleles are now designated the "a" and "d" alleles, respectively. Analysis of the five new alleles revealed that although no polymorphisms were observed in the two leader exons, nucleotide and subsequent amino acid changes were observed in the exons encoding the extracellular domains, and transmembrane and cytoplasmic tail. The cDNA of the seven alleles (a–g) were isolated and transiently transfected into COS cells, and IgG-binding studies were performed. Receptors encoded by four of the five new alleles (b, c, f, g) bound IgG2a with high affinity, displaying IgG binding characteristics similar to the a allele (previously FcγRI-BALB). The d allele (previously FcγRI-NOD) and the e allele [derived from Mus spretus (SPRET/Ei)] encoded receptors which showed broader specificity by binding monomeric IgG2a, IgG2b, and IgG3. [ABSTRACT FROM AUTHOR]

Published

2000

11. Gain-of-function mutations in Fc?RI of NOD mice: implications for the evolution of the Ig superfamily.

Author

Gavin, Amanda L., Peck Szee Tan, and Hogarth, P. Mark

Subjects

FC receptors, LYMPHOCYTES, CELL receptors, MACROPHAGES, RETICULO-endothelial system, CONNECTIVE tissue cells, ANTIGEN presenting cells, PHAGOCYTES

Abstract

It has been postulated that, during evolution of the Ig superfamily, modifications of the function of individual receptors might occur by acquisition of exons and their subsequent modification, though evidence of this is lacking. Here we have analysed the interaction of mouse IgG subclasses with high-affinity FcRI (CD64) which contains three Ig-like domains and is important in innate and adaptive immunity. This analysis has identified a mechanism by which the postulated modification of newly acquired exons provides gains in function. Thus, the most widely distributed FcγRI allele in mice (e.g. BALB/c), bound only a single IgG subclass, IgG2a, with high affinity. However, non-obese diabetic (NOD) mice expressed a unique allele that exhibits broader specificity and, in addition to binding IgG2a, FcRI-NOD bound monomeric IgG3 and bound IgG2b with high affinity, an IgG subclass not bound by FcγRI of other mouse strains, either as monomer or multivalent immune complexes. Analysis of mutants of FcγRI wherein segments of the interdomain junctions were exchanged between FcγRI-BALB and FcγRI-NOD identified these regions as having major influence in ‘gain-of-function’ by the NOD form of FcγRI. Nucleotide sequence analysis of intron/exon boundaries encoding the interdomain junctions of the FcRI alleles showed these to have arisen by mutation to alter existing or create new mRNA splice donor/acceptor sites, resulting in generation of modified junctions. [ABSTRACT FROM AUTHOR]

Published

1998

12. Fc functional antibody responses to adjuvanted versus unadjuvanted seasonal influenza vaccination in community-dwelling older adults.

Author

Vanderven, Hillary A., Barr, Ian, Reynaldi, Arnold, Wheatley, Adam K., Wines, Bruce D., Davenport, Miles P., Hogarth, P. Mark, and Kent, Stephen J.

Subjects

*INFLUENZA vaccines, *SEASONAL influenza, *OLDER people, *ANTIBODY formation, *ANTIBODY-dependent cell cytotoxicity, *VIRAL vaccines, *H1N1 influenza

Abstract

Seasonal influenza vaccination with a standard trivalent influenza vaccine (TIV) induces a modest, and cross-reactive, Fc functional antibody response in older adults. Recent improvements to influenza vaccines include a quadrivalent influenza vaccine (QIV) and a TIV adjuvanted with the squalene-based oil-in-water emulsion MF59. Pre- and post-vaccination serum samples from older adults vaccinated with QIV (n = 27) and adjuvanted TIV (n = 44) were studied using hemagglutination inhibition (HAI) assays and dimeric Fc-gamma receptor IIIa binding ELISAs, as a surrogate of antibody-dependent cellular cytotoxicity (ADCC). We found that the unadjuvanted QIV elicited a stronger HAI response against the H1N1 vaccine virus than the adjuvanted TIV. Post-vaccination levels of HA-specific ADCC antibodies were similar for older adults vaccinated with QIV and adjuvanted TIV. The ADCC response to influenza vaccination was largely determined by pre-vaccination or baseline levels of these antibodies, with older adults with low baseline levels of ADCC activity demonstrating greater post-vaccination rises. In this cohort of community-dwelling older adults, the QIV was at least as good as the adjuvanted TIV in the induction of ADCC and HAI responses. Further studies on how these antibody responses translate to efficacy in preventing influenza infections are warranted. [ABSTRACT FROM AUTHOR]

Published

2020