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Changes in complementarity-determining regions significantly alter IgG binding to the neonatal Fc receptorPiche-Nicholas, Nicole Melissa 22 January 2016 (has links)
A large body of data exists demonstrating the key role of FcRn in extending the half-life of therapeutic antibodies by rescuing them from lysosomal degradation. This led to the widely accepted hypothesis that FcRn binding of an IgG via the CH2-CH3 interface of Fc correlates with IgG half-life. Several studies have demonstrated that in vivo half-life can be modified by changing the binding affinity of IgG to FcRn. These modifications were generated by mutating the coding sequence for the Fc region that resulted in enhanced or reduced FcRn binding at endosomal pH without enhancing binding at neutral pH. In contrast to this, we have observed that the half-lifes of IgG molecules that had showed no target-mediated disposition or off-target binding varies widely, even when they share identical Fc domains. This led us to hypothesize that domains of IgG molecules other than Fc could contribute to the modulation of FcRn binding and affect in vivo half-life. This hypothesis was strengthened by recent publications by other groups showing a correlation between antibody charge and the FcRn affinity and/or in vivo half-life.
In this study we explored the role of IgG domains other than the FcRn binding domain in altering the affinity between IgG and FcRn and its relation to the in vivo half-life. Here we describe a surface plasmon resonance (SPR) based assay developed to examine the steady-state binding affinity (KD) of IgG molecules to FcRn. We systematically dissected the contributions of IgG variable domain regions in modulating the affinity between FcRn and IgG. Through analysis of a broad collection of therapeutic antibodies containing more than 100 unique IgG molecules against more than 25 different therapeutic targets we have demonstrated that variable domains and in particular CDRs significantly alter binding affinity to FcRn, by 10 to 80-fold, whereas heavy and light chain isotypes do not. Because CDRs modulate the affinity between IgG and FcRn in our in vitro studies, it is important to understand the role they play in modulation of IgG half-life in vivo as this would have far-reaching implications in the half-life optimization efforts of IgG therapeutics.
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Development of a topical antibody-based contraceptive: determining Fc functions in the female reproductive tractMausser, Emilie Brigid 14 September 2023 (has links)
The development of antibody-based drugs is continuing to expand at a rapid pace, especially for use at mucosal surfaces to prevent or treat infectious diseases and other conditions. A better understanding of how the Fc region of antibodies interacts with Fc-binding proteins at mucosal sites can inform an optimal design for antibody-based drugs. The Human Contraception Antibody (HCA) is a human IgG1 monoclonal antibody currently under development as a topical vaginal contraceptive. HCA binds to sperm via its Fab domains and causes rapid agglutination with other sperm in close proximity resulting in near complete immobilization of sperm over a wide area. In order to determine whether HCA participates in Fc-mediated functions in the female reproductive tract (FRT), we assessed the activity of HCA and engineered variants in three assays of Fc-mediated functions: complement-dependent cytotoxicity (CDC), antibody-dependent cellular phagocytosis (ADCP), and mucus trapping. The physiological relevance of CDC was confirmed by characterizing complement levels and activity in cervical mucus. Finally, we described the activity of a novel Fc receptor expressed by vaginal epithelium. With complement, HCA significantly reduced sperm motility and increased the number of lysed sperm via CDC. Additionally, human cervical mucus was found to have sufficient levels of complement to induce the classical complement cascade. HCA-opsonized sperm associated with macrophages and were phagocytosed via ADCP. HCA also trapped sperm in ovulatory human cervical mucus, significantly reducing their progression. Variants of HCA with mutated or obstructed Fc domains had decreased abilities to perform these Fc functions, while multivalent IgM-like and IgA variants of HCA were very effective in both sperm agglutination and Fc assays. We also investigated the novel expression of Fc alpha RI (CD89) by human vaginal epithelium and provide evidence that this Fc receptor may transport IgA through the mucosa. Basal application of IgA resulted in IgA in apical supernatants which was significantly reduced following treatment with a CD89 blocker. In summary, these studies provide an improved understanding of the possible Fc functions of HCA and other antibodies in the human FRT, including interactions with complement, cervical mucus, and Fc receptors. Determining which interactions can occur in vivo and which are desired for a specific indication can inform the design of mucosally applied antibody-based drugs like HCA, a much-needed novel contraceptive antibody.
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Immunoglobulin Gamma Subclasses and Corresponding Fc Receptors in Rhesus Macaques: Genetic Characterization and Engineering of Recombinant MoleculesNguyen, Doan C 05 May 2012 (has links)
Rhesus macaques represent a valuable model in biomedical research and in development of vaccines and therapeutics. Due to the lack of reagents, the general properties of IgG and corresponding cellular receptors (FcγR) in this species are poorly characterized. We engineered recombinant IgGs containing each of the four rhesus macaque heavy constant region (CH) subclasses. To define FcγRs that mediate IgGs, we identified and characterized three FcγR classes, and generated recombinant cDNA constructs. cDNA IgH constructs were created by fusing – by sequence overlap extension PCRs – a gene segment encoding the murine variable heavy domain specific for the hapten NIP, an established specificity system for assessing antibody effector functions, with rhesus macaque CH fragments. The complete IgH constructs were transfected into J558L cells, a murine IgH-lost myeloma cell line expressing anti-NIP light chain. Secretion of engineered IgGs was determined by ELISAs using NIP-BSA and anti-monkey IgG-specific antibodies. Molecular cloning methods were applied to identify and clone FcγR genes, and recombinant FcγR cDNA constructs were created by the recombinant DNA method. Four engineered IgH cDNA constructs were successfully created. Recombinant IgGs, in the intact Ig form and retaining the original anti-NIP specificity, were successfully produced. Compared to those in humans, FcγRs in rhesus macaques share high homology, yet also feature a relatively high level of intra-species polymorphism and possess different N-linked glycosylation patterns. FcγR constructs and expression vectors were successfully generated. The chimeric recombinant IgGs are powerful tools for defining IgG functional properties and studying CH structure/function relationship. These molecules can also be used as immunogens for generation of antibodies capable of unequivocally detecting individual IgG subclasses. The findings on FcγRs validate rhesus macaques as a model for studying antibody responses, and underscore the need to take into account of the genetic heterogeneity. The FcγR constructs and vectors serve as a tool for further studies of IgG/FcγR interactions.
We also reported here our findings from a separate study that the main female hormone, 17β-estradiol, is capable of restoring antibody responses to an influenza vaccine in a postmenopausal mouse model, suggesting that immunogenicity and efficacy of influenza vaccines should be evaluated in postmenopausal women.
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Molecular regulation and effector functions of the high affinity IgE receptor (FcεRI) in human airway smooth muscle cellsRedhu, Naresh Singh January 2009 (has links)
The prevalence and economic burden of chronic airway disorders such as asthma is on the rise annually. Allergic asthma is characterized by chronic airway inflammation, airway hyper-responsiveness (AHR), and structural airway remodeling due to increased smooth muscle mass. Most allergic asthma occurs due to the overproduction of immunoglobulin E (IgE) antibodies against common allergens. Classically, IgE has been shown to modulate airway smooth muscle (ASM) contraction/relaxation which is believed to be the underlying cause of airway hyperreactivity. However, the molecular mechanisms underlying IgE effects on ASM cell are not established.
Recently, the high-affinity Fc receptor for IgE (FcεRI) has been identified in human ASM cells in vitro and in vivo within bronchial biopsies of allergic asthma patients. However, it is unknown whether FcεRI activation on ASM can modulate the immune response within the airways. We hypothesized that the IgE-FcεRI interaction plays a key role in inducing phenotypic and functional changes in ASM cells that eventually contributes to the establishment of airway inflammation, AHR, and remodeling. We sought to investigate the regulation, effector functions, and underlying mechanisms of FcεRI activation in ASM cells. Our work shows that the proinflammatory tumor necrosis factor (TNF) and T helper type 2 (Th2) cytokine interleukin (IL)-4 enhanced the FcεRI abundance and amplified the IgE-induced chemokine (eotaxin-1/CCL11, RANTES/CCL5, IL-8/CXCL8, and IP-10/CXCL10) release in ASM cells via transcriptional mechanisms. Both TNF and IgE induced a novel, Th2-favoring cytokine thymic stromal lymphopoietin (TSLP) through the activation of spleen tyrosine kinase (Syk), and nuclear factor kappa B (NF-κB) and activator protein-1 (AP-1). In addition, IgE induced de novo DNA synthesis and ASM cell proliferation via mitogen-activated protein kinases (MAPKs) and signal-transducer and activator of transcription 3 (STAT3) activation. Collectively, our data suggest that the IgE-induced FcεRI activation leads to the expression of multiple chemokines in ASM which may indirectly recruit inflammatory cells and promote allergic airway inflammation; IgE induces TSLP which can promote the Th2 immune responses within the airways; and IgE may potentially induce airway remodeling by directly inducing ASM cell proliferation. Therefore, targeting the IgE-FcεRI network on ASM may offer a novel therapeutic strategy in allergic asthma.
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Molecular regulation and effector functions of the high affinity IgE receptor (FcεRI) in human airway smooth muscle cellsRedhu, Naresh Singh January 2009 (has links)
The prevalence and economic burden of chronic airway disorders such as asthma is on the rise annually. Allergic asthma is characterized by chronic airway inflammation, airway hyper-responsiveness (AHR), and structural airway remodeling due to increased smooth muscle mass. Most allergic asthma occurs due to the overproduction of immunoglobulin E (IgE) antibodies against common allergens. Classically, IgE has been shown to modulate airway smooth muscle (ASM) contraction/relaxation which is believed to be the underlying cause of airway hyperreactivity. However, the molecular mechanisms underlying IgE effects on ASM cell are not established.
Recently, the high-affinity Fc receptor for IgE (FcεRI) has been identified in human ASM cells in vitro and in vivo within bronchial biopsies of allergic asthma patients. However, it is unknown whether FcεRI activation on ASM can modulate the immune response within the airways. We hypothesized that the IgE-FcεRI interaction plays a key role in inducing phenotypic and functional changes in ASM cells that eventually contributes to the establishment of airway inflammation, AHR, and remodeling. We sought to investigate the regulation, effector functions, and underlying mechanisms of FcεRI activation in ASM cells. Our work shows that the proinflammatory tumor necrosis factor (TNF) and T helper type 2 (Th2) cytokine interleukin (IL)-4 enhanced the FcεRI abundance and amplified the IgE-induced chemokine (eotaxin-1/CCL11, RANTES/CCL5, IL-8/CXCL8, and IP-10/CXCL10) release in ASM cells via transcriptional mechanisms. Both TNF and IgE induced a novel, Th2-favoring cytokine thymic stromal lymphopoietin (TSLP) through the activation of spleen tyrosine kinase (Syk), and nuclear factor kappa B (NF-κB) and activator protein-1 (AP-1). In addition, IgE induced de novo DNA synthesis and ASM cell proliferation via mitogen-activated protein kinases (MAPKs) and signal-transducer and activator of transcription 3 (STAT3) activation. Collectively, our data suggest that the IgE-induced FcεRI activation leads to the expression of multiple chemokines in ASM which may indirectly recruit inflammatory cells and promote allergic airway inflammation; IgE induces TSLP which can promote the Th2 immune responses within the airways; and IgE may potentially induce airway remodeling by directly inducing ASM cell proliferation. Therefore, targeting the IgE-FcεRI network on ASM may offer a novel therapeutic strategy in allergic asthma.
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Characterization of Fc receptor family proteins in vaginal and endocervical epitheliaGubbala, Supreetha 22 January 2016 (has links)
In the age of highly active antiretroviral therapy (HAART), patients infected with Human Immunodeficiency Virus Type 1 (HIV-1) are now living significantly healthier and longer lives. However, HIV prevention and cure still remain significant challenges. Globally, women face specific barriers to using and accessing both female and male condoms, the primary method recommended by the World Health Organization (WHO) to prevent sexual transmission of HIV-1. Although HAART treatment as prevention (TasP) of HIV has shown promising preliminary results, poor economic feasibility of the method in resource poor settings has yet to be resolved. Since women carry over 50% of the disease burden, there is a significant need for the development of a female-controlled method of prevention. One such approach is the reformulation of topical vaginal microbicides. Our laboratory is developing HIV-targeted microbicide formulations that utilize highly specific, broadly neutralizing anti-HIV antibodies (bNAbs).
The purpose of my research project was to characterize Fc receptor expression in epithelial cell models of the lower female genital tract with a particular focus on the neonatal Fc receptor (FcRn). Fc receptors are a large family of proteins that bind to the Fc region of immunoglobulins (Igs) and function in Ig transport and effector functions. These receptors could function in enhancing the delivery of bNAbs in microbicide formulations or potentially serve as a mechanism of delivering HIV to target cells in tissues via transport of HIV-antibody complexes. Thus, this thesis assesses Fc receptor expression in human vaginal and endocervical organotypic cultures via microarray, quantitative RT-PCR, immunohistology and preliminary functional assays.
Microarray results revealed significant expression of Fc receptor family genes in the epithelial cells of the lower female reproductive tract (FRT). The polymeric immunoglobulin receptor (pIgR), a well-characterized receptor that transports secretory IgA across mucosal epithelia, was abundantly expressed and hormonally regulated in epithelial cells of the vagina and endocervix. FcRn, a receptor originally characterized in the placenta and gut where it confers passive immunity from mother-to-child via bidirectional IgG transcytosis, was expressed in both tissue models. Moreover, several members of the novel FC receptor-like (FCRL) family were detected by microarray in both models.
Immunohistological staining revealed pIgR protein in the endocervical mucosal epithelium, confirming current literature describing its expression in the FRT and role in local production of cervicovaginal secretions. FcRn protein expression was detected in the basal cell layer of the stratified squamous vaginal epithelium and in the columnar cells of the endocervix. Preliminary functional assays did not observe FcRn-specific transcytosis of human IgG across vaginal or endocervical epithelia by ELISA or immunohistology. VRCO1, a monoclonal antibody in development for application in microbicide formulation, crossed the epithelium, but was likely not transcytosed via FcRn because immunohistology revealed the presence of antibody between epithelial cells rather than the expected intracellular localization of IgG utilized in the FcRn mechanism.
These preliminary findings indicate that Fc receptors, pIgR and Fc receptor-like proteins may play an important role in antibody-mediated immune responses in the FRT. Further research is require to determine whether FcRn functions in HIV-antibody complex-mediated HIV transmission or monoclonal antibody transcytosis.
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Immunoglobulins and Immunoglobulin Fc Receptors in Nonhuman Primates Commonly Used in Biomedical ResearchRogers, Kenneth Alton 26 May 2006 (has links)
Antibodies neutralize and eliminate pathogens, malignancies, and toxins by acting either alone or in association with Fc receptors which, once engaged, activate the elimination mechanisms of phagocytic cells. Based on structural differences, antibodies are divided into functionally distinct classes (IgM, IgD, IgG, IgE and IgA). Structure-function relationships within these classes are not well characterized. In addition, animal models for the assessment of potential therapeutic strategies for the modulation of the interaction between antibodies and Fc receptors are not established. Nonhuman primates are widely used to model human diseases and, represent excellent in vivo systems for this assessment. Therefore, we have studied nonhuman primate IgD as well as IgG and IgA specific Fc receptors in rhesus macaques, cynomolgus macaques, baboons and sooty mangabeys. IgD genes had not been identified in nonhuman primates nor the IgD receptors characterized in any species. We characterized IgD genes of the four monkey species, as well as chimpanzees and dogs. In contrast to other antibody classes, the IgD hinge regions are highly conserved between human and nonhuman primates, thus indicating a role in Fc receptor binding. In humans, Fc receptors CD16a (natural killer cells) and CD16b (neutrophils) bind IgG1 and IgG3, and CD89 (myeloid cells) binds IgA. To assess ligand binding and glycosylation properties of nonhuman primate CD16a, CD16b, and CD89, we sequenced, cloned, and generated recombinant molecules in a mammalian expression system. Our results verify the presence of CD16a, but not CD16b in nonhuman primates. CD16a is expressed on monocytes and a subpopulation of lymphocytes. In sooty mangabeys, CD16 is also expressed on neutrophils. Recombinant sooty mangabey/baboon CD16a binds to human IgG1 and IgG2, but not IgG3 and IgG4. Monkey CD89 has the same peripheral blood leukocyte expression profiles as humans, and binds human and recombinant macaque IgA. Blocking of N-glycans inhibited expression of CD89, but only marginally CD16a expression. Although extensive similarities of antibody/Fc receptor interactions exist between human and nonhuman primates, several differences must be considered when evaluating therapeutic strategies. However, these differences can be exploited to further characterize the structure-function relationships existing within antibody molecules and respective receptors.
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Expressão dos receptores FC de imunoglobulina A em fagócitos do sangue de pacientes com bacteremia. / Expression of immunoglobulin a FC receptors on blood phagocytes of patients with gram-negative bacteremia.Chiamolera, Murilo 21 March 2001 (has links)
Expressão aumentada do receptor Fc de IgA (CD89) e da cadeia g associada, avaliadas respectivamente por citometria de fluxo e por immunobloting", foram encontradas em fagócitos do sangue de pacientes com bacteremia por germes gram-negativos, em comparação com controles e pacientes com bacteremia por gram-positivos. A Mr do CD89 avaliada por SDS-PAGE estava diminuída, com núcleo protéico de 32kDa, sugerindo alteração de glicosilação. O aumento da expressão do CD89 correlacionou-se com aumento dos níveis séricos de IL-6. A cadeia g estava fosforilada nos neutrófilos, sugerindo participação do CD89 na sepsis por gram-negativos. / The expression and function of FcaRI (CD89) were analyzed on blood monocytes and neutrophils of patients with gram-positive and gram-negative bacteremia. Eighteen patients with gram-positive bacteremia, sixteen patients with gram-negative bacteremia and twenty healthy individuals were studied. CD89 expression were analyzed by flow cytometry using specific stained antibodies. Analysis of the surface iodinated CD89 molecules by SDS-PAGE and of the CD89 g-associated chain by immunoblotting also were performed. A marked increase in expression of the a and g subunits of the FcaRI were found on both types of cells in patients with gram-negative bacteremia, but not in patients with gram-positive bacteremia. This increase was independent of serum IgA levels. FcaRI Mr was lower on cells from gram negative patients than on cells from controls (50-65 kDa vs 55-75 kDa) despite of similar 32 kDa backbone, indicating altered glycosylation. Increased levels of FcaRI on blood phagocytes correlated with enhanced serum IL-6 levels, but not with IFN-g or TNF-a levels. The CD89 g-associated chain was phosphorylated on neutrophils, suggesting an engagement of CD89 during gram negative sepsis.
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Characterisation of the effect and functional significance of Fcγ receptor crosslinking on metabolic processes in macrophagesJing, Chenzhi January 2018 (has links)
The metabolic state of an immune cell directly influences its ability to function and differentiate, ultimately affecting immunity, inflammation and tolerance. Different immune cell subsets have differing metabolic requirements. Macrophages, as the frontline, tissue-resident cells of the innate immune system, undergo profound metabolic reprogramming in response to environmental stimuli. To date, there has been little consideration how macrophage metabolism might be affected by humoral immunity. IgG antibodies are the soluble effector molecules of the adaptive humoral immune system. Fcγ receptors (FcγRs) mediate the cellular functions of IgG antibodies and are expressed on most immune cells including macrophages. FcγR cross-linking induced by IgG immune complexes (ICs) is important for defence against some infections but can also play a pathogenic role in autoimmunity. Here, I studied the metabolic reprogramming induced in macrophages by IgG IC ligation of FcγRs. I first investigated how FcγRs cross-linking might impact glucose metabolism. We show that macrophages undergo a switch to glycolysis in response to IgG IC stimulation. FcγR-associated glycolysis was dependent on the mammalian target of rapamycin (mTOR) and hypoxia-inducible factor (HIF)1α. Moreover, this glycolytic switch was required to generate a number of pro-inflammatory mediators and cytokines. Inhibition of glycolysis, or genetic depletion of HIF1α in macrophages resulted in the attenuation of IL1β and other inflammatory mediators produced in response to IgG IC in vitro. To determine the relevance of these observations to responses to IgG IC in vivo and, in particular, to IC-associated tissue inflammation in autoimmune diseases such as system lupus erythematosus (SLE), I developed three models to interrogate tissue macrophages. Following administration of IC to peritoneal macrophages, I observed IL1β-associated neutrophil recruitment that was abrogated by inhibiting glycolysis, or in the presence of HIF-1a deficiency. Similarly, following administration of intravenous IC, or nephrotoxic serum, kidney macrophage activation was abrogated by glycolysis inhibition or by myeloid HIF-1a deficiency. Together my data reveal the cellular molecular mechanisms required for FcγR-mediated metabolic reprogramming in macrophages and define a novel therapeutic strategy in autoantibody-induced inflammation. In the final part of the thesis I identified additional metabolic pathways that were altered by FcγR ligation, including cholesterol biosynthesis and fatty acid biosynthesis. This has important implications for protective immune responses and autoimmune susceptibility, since a number of intermediates in these pathways can directly regulate and contribute to immune responses. In summary, I have demonstrated the metabolic alterations triggered by FcγR ligation, reveal the cellular molecular mechanisms required for FcγR-mediated cellular respiration reprogramming in macrophages and define a potential therapeutic target in autoimmunity.
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Expressão dos receptores FC de imunoglobulina A em fagócitos do sangue de pacientes com bacteremia. / Expression of immunoglobulin a FC receptors on blood phagocytes of patients with gram-negative bacteremia.Murilo Chiamolera 21 March 2001 (has links)
Expressão aumentada do receptor Fc de IgA (CD89) e da cadeia g associada, avaliadas respectivamente por citometria de fluxo e por immunobloting, foram encontradas em fagócitos do sangue de pacientes com bacteremia por germes gram-negativos, em comparação com controles e pacientes com bacteremia por gram-positivos. A Mr do CD89 avaliada por SDS-PAGE estava diminuída, com núcleo protéico de 32kDa, sugerindo alteração de glicosilação. O aumento da expressão do CD89 correlacionou-se com aumento dos níveis séricos de IL-6. A cadeia g estava fosforilada nos neutrófilos, sugerindo participação do CD89 na sepsis por gram-negativos. / The expression and function of FcaRI (CD89) were analyzed on blood monocytes and neutrophils of patients with gram-positive and gram-negative bacteremia. Eighteen patients with gram-positive bacteremia, sixteen patients with gram-negative bacteremia and twenty healthy individuals were studied. CD89 expression were analyzed by flow cytometry using specific stained antibodies. Analysis of the surface iodinated CD89 molecules by SDS-PAGE and of the CD89 g-associated chain by immunoblotting also were performed. A marked increase in expression of the a and g subunits of the FcaRI were found on both types of cells in patients with gram-negative bacteremia, but not in patients with gram-positive bacteremia. This increase was independent of serum IgA levels. FcaRI Mr was lower on cells from gram negative patients than on cells from controls (50-65 kDa vs 55-75 kDa) despite of similar 32 kDa backbone, indicating altered glycosylation. Increased levels of FcaRI on blood phagocytes correlated with enhanced serum IL-6 levels, but not with IFN-g or TNF-a levels. The CD89 g-associated chain was phosphorylated on neutrophils, suggesting an engagement of CD89 during gram negative sepsis.
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