The prospect of orally administered monoclonal secretory IgA (SIgA) antibodies to prevent enteric bacterial infections

Richards, Angelene F.; Baranova, Danielle; Mantis, Nicholas J.

doi:10.1080/21645515.2021.1964317

Cited by 9 publications

(8 citation statements)

References 84 publications

(115 reference statements)

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“…S9). The above results demonstrate that our hybridoma-produced IgA antibodies, at least for the tested clones, are dimeric in structure, are resistant to digestive and bacterial enzyme degradation, and retain binding capability after passing through the gastrointestinal tract, which may be used potentially for therapeutic purposes ( 5 , 7 , 40 ).…”

Section: Resultsmentioning

confidence: 63%

“…Our results also demonstrate that the hybridoma-derived IgAs can transit through the harsh environment of the gastrointestinal tract and retain binding capability against bacterial antigens. This observation implies the potential usage of in vitro engineered IgA antibodies as therapeutics (40,(50)(51)(52). Compared with naturally secreted IgA antibodies, those hybridoma-derived IgAs lack the bound secretory component, which may ultimately compromise their stability to bacterial proteases in the gut lumen (53,54).…”

Section: Discussionmentioning

confidence: 99%

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Immunoglobulin A antibody composition is sculpted to bind the self gut microbiome

et al. 2022

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Despite being the most abundantly secreted immunoglobulin isotype, the pattern of reactivity of immunoglobulin A (IgA) antibodies toward each individual’s own gut commensal bacteria still remains elusive. By colonizing germ-free mice with defined commensal bacteria, we found that the binding specificity of bulk fecal and serum IgA toward resident gut bacteria resolves well at the species level and has modest strain-level specificity. IgA hybridomas generated from lamina propria B cells of gnotobiotic mice showed that most IgA clones recognized a single bacterial species, whereas a small portion displayed cross-reactivity. Orally administered hybridoma-produced IgAs still retained bacterial antigen binding capability, implying the potential for a new class of therapeutic antibodies. Species-specific IgAs had a range of strain specificities. Given the distinctive bacterial species and strain composition found in each individual’s gut, our findings suggest the IgA antibody repertoire is shaped uniquely to bind “self” gut bacteria.

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Section: Resultsmentioning

confidence: 63%

Section: Discussionmentioning

confidence: 99%

Immunoglobulin A antibody composition is sculpted to bind the self gut microbiome

et al. 2022

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“…The data suggests that the rabbit Ca15 hinge can be an interesting alternative for a long hinge that remains resistant to IgA protease cleavage, raising new possibilities for therapeutic IgA antibodies engineered with improved functions, an area of increasing biotechnological interest (7). This hinge allows binding with equal efficiency to small antigens, and does not affect the Fc-mediated effector function, while remaining resistant to some IgA proteases.…”

Section: Discussionmentioning

confidence: 99%

“…The characteristics of IgA antibodies and their functions have been attracting significant attention in recent years for use as therapeutic antibodies. These can be administered via the oral or nasal pathways, delivering to mucosal organs including the lungs and gastrointestinal tract, with clear benefits over intravenous and subcutaneous routes of delivery, and have been shown to be more effective than IgG in neutralizing several viruses such as HIV, rotavirus, influenza virus and SARS-CoV2, as well as bacterial pathogens most frequently associated with diarrheal diseases (1,(3)(4)(5)(6)(7). Design considerations for IgA mAb development have included the limitation of a relatively short serum half-life, and methodologies to aid retention in the protective mucus barrier and gut, and optimization for protease resistance (1,6).…”

Section: Introductionmentioning

confidence: 99%

Rabbit IgA Hinges That Resist IgA1 Protease Action Provide Options for Improved IgA-Based Therapeutic Agents

et al. 2022

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Immunoglobulin A provides a major line of defence against pathogens and plays a key role in the maintenance of the commensal microbiota in the intestinal tract. Having been shown to be more effective at tumour cell killing than IgG and strongly active against pathogens present in the mucosae, IgA antibodies have been attracting significant attention in recent years for use as therapeutic antibodies. To improve their therapeutic potential, bioengineered IgA forms with increased serum half-life and neutralizing abilities have been developed but the IgA hinge, which impacts susceptibility to bacterial proteases and ability to bridge between target and effector cells, has not yet been explored. The European rabbit has 15 IgA subclasses with exclusive hinge region motifs and varying lengths, constituting a unique model to evaluate the functional capabilities offered by incorporation of longer IgA hinges into immunoglobulins. Hinge regions from rabbit IgAs, featuring different lengths and sequences, were inserted into human IgA1 heavy chain to substitute the IgA1 hinge. These hinges did not appear to affect antigen binding nor the ability of the engineered chimeric IgA1 to bind and trigger FcαRI, as detected by IgA-mediated cell agglutination and release of superoxide by neutrophils. All rabbit hinge-human IgA1 hybrids were resistant to Clostridrum ramosum IgA protease enzyme digestion, as predicted by the lack of the cleavage site in the rabbit hinges. Some IgA1s featuring long rabbit hinges were cleaved by Neisseria meningitidis IgA1 protease cleavage type 1 or 2 enzymes, despite the lack of the predicted cleavage sites. More interestingly, the hybrid featuring the rabbit IgA15 hinge was not affected by any of the IgA proteases. The IgA15 hinge is longer than that found in human IgA1 and is composed by a unique motif with a stretch of nine consecutive Ser residues. These characteristics allow the preservation of a long hinge, with associated ability to bridge distantly spaced antigens and provide higher avidity binding, while remaining resistant to IgA protease degradation. The data suggest that the rabbit Cα15 hinge represents an interesting alternative hinge sequence for therapeutic human IgA antibodies that remains resistant to proteolytic cleavage.

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“…Nicholas Mantis discusses the use of transgenic mice to test passive immune protection against GI tract pathogens, and methods for efficient delivery of sIgA to the gut. 29 As has long been known to mucosal immunologists, most bacteria in the gut are restricted to the luminal surface of the mucus coat by the apparent viscidity (stickiness) of mucus and now as revealed by the trapping actions of secreted antibodies. The predominant antibody in GI tract secretions, sIgA, is especially well designed for trapping in mucus gel since the pair of Fc moieties as well as the SC moiety increase the dwell-time of the antibody with the mucus gel.…”

Section: Introductionmentioning

confidence: 99%

Special focus issue: passive immunization

Zeitlin

Cone

2022

Human Vaccines & Immunotherapeutics

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The prospect of orally administered monoclonal secretory IgA (SIgA) antibodies to prevent enteric bacterial infections

Cited by 9 publications

References 84 publications

Immunoglobulin A antibody composition is sculpted to bind the self gut microbiome

Immunoglobulin A antibody composition is sculpted to bind the self gut microbiome

Rabbit IgA Hinges That Resist IgA1 Protease Action Provide Options for Improved IgA-Based Therapeutic Agents

Special focus issue: passive immunization

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