Passive Immunity to &lt;em&gt;Vibrio cholerae&lt;/em&gt; O1 Afforded by a Human Monoclonal IgA1 Antibody Expressed in Milk

Baranova, Danielle; Chen, LiHow; Destrempes, Margaret M.; Meade, Harry; Mantis, Nicholas J.

doi:10.20411/pai.v5i1.370

Cited by 7 publications

(5 citation statements)

References 45 publications

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“… 29 − 31 While there are examples in which passively administered mouse IgA or SIgA has been shown to afford immunity against experimental shigellosis and cholera, the use of human SIgA is only beginning to be explored. 32 − 35 For example, we recently showed in a mouse model of invasive Salmonella infection that Sal4 IgA, an anti-lipopolysaccharide mouse mAb, was sufficient at reducing the invasion of Salmonella enterica serovar Typhimurium (STm) into Peyer’s patch tissues. 36 Sal4 SIgA was superior to Sal4 IgG.…”

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confidence: 99%

“…These unique attributes have garnered interest in SIgA as an alternative or supplement to antibiotic-based therapeutics for enteric diseases. Recent advancements in the generation of recombinant antibodies via multivector mammalian expression systems have enabled the production of SIgA monoclonal antibodies (mAbs). − While there are examples in which passively administered mouse IgA or SIgA has been shown to afford immunity against experimental shigellosis and cholera, the use of human SIgA is only beginning to be explored. − For example, we recently showed in a mouse model of invasive Salmonella infection that Sal4 IgA, an anti-lipopolysaccharide mouse mAb, was sufficient at reducing the invasion of Salmonella enterica serovar Typhimurium (STm) into Peyer’s patch tissues . Sal4 SIgA was superior to Sal4 IgG .…”

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confidence: 99%

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Recombinant Human Secretory IgA Induces Salmonella Typhimurium Agglutination and Limits Bacterial Invasion into Gut-Associated Lymphoid Tissues

et al. 2021

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As the predominant antibody type in mucosal secretions, human colostrum, and breast milk, secretory IgA (SIgA) plays a central role in safeguarding the intestinal epithelium of newborns from invasive enteric pathogens like the Gram-negative bacterium Salmonella enterica serovar Typhimurium (STm). SIgA is a complex molecule, consisting of an assemblage of two or more IgA monomers, joining (J)-chain, and secretory component (SC), whose exact functions in neutralizing pathogens are only beginning to be elucidated. In this study, we produced and characterized a recombinant human SIgA variant of Sal4, a well-characterized monoclonal antibody (mAb) specific for the O5-antigen of STm lipopolysaccharide (LPS). We demonstrate by flow cytometry, light microscopy, and fluorescence microscopy that Sal4 SIgA promotes the formation of large, densely packed bacterial aggregates in vitro . In a mouse model, passive oral administration of Sal4 SIgA was sufficient to entrap STm within the intestinal lumen and reduce bacterial invasion into gut-associated lymphoid tissues by several orders of magnitude. Bacterial aggregates induced by Sal4 SIgA treatment in the intestinal lumen were recalcitrant to immunohistochemical staining, suggesting the bacteria were encased in a protective capsule. Indeed, a crystal violet staining assay demonstrated that STm secretes an extracellular matrix enriched in cellulose following even short exposures to Sal4 SIgA. Collectively, these results demonstrate that recombinant human SIgA recapitulates key biological activities associated with mucosal immunity and raises the prospect of oral passive immunization to combat enteric diseases.

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Recombinant Human Secretory IgA Induces Salmonella Typhimurium Agglutination and Limits Bacterial Invasion into Gut-Associated Lymphoid Tissues

et al. 2021

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“…During the course of infection, class-switching to IgA and the secretion of antigen-specific secretory IgA (S-IgA) serves as the main means of protection by binding to V. cholerae and preventing pathogen access to epithelium, and neutralizing cholera toxin ( Apter et al., 1993 ). Recent studies have also indicated that anti-O-specific polysaccharide antibodies in sera from humans surviving cholera can agglutinate Vibrio and prevent motility ( Charles et al., 2020 ), and that expression of a monoclonal human anti-LPS IgA1 in mice can provide passive protection to infants from milk ( Baranova et al., 2020 ). For an up-to-date article of cholera immunity, please read Holmgren J, Trop.…”

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confidence: 99%

A dysbiotic gut microbiome suppresses antibody mediated-protection against Vibrio cholerae

Macbeth

Alavi

et al. 2021

iScience

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Summary Cholera is a severe diarrheal disease that places a significant burden on global health. Cholera’s high morbidity demands effective prophylactic strategies, but oral cholera vaccines exhibit variable efficacy in human populations. One contributor of variance in human populations is the gut microbiome, which in cholera-endemic areas is modulated by malnutrition, cholera, and non-cholera diarrhea. We conducted fecal transplants from healthy human donors and model communities of either human gut microbes that resemble healthy individuals or those of individuals recovering from diarrhea in various mouse models. We show microbiome-specific effects on host antibody responses against Vibrio cholerae , and that dysbiotic human gut microbiomes representative of cholera-endemic areas suppress the immune response against V. cholerae via CD4+ lymphocytes. Our findings suggest that gut microbiome composition at time of infection or vaccination may be pivotal for providing robust mucosal immunity, and suggest a target for improved prophylactic and therapeutic strategies for cholera.

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“…76 Alternative strategies such as transgenic animals that express human MAbs including human IgA in colostrum and breast milk are also worthy of investigation, especially considering their track record with other biologics. 77,78 While oral administration of MAbs and MAb cocktails has obvious benefits over intravenous and subcutaneous routes of delivery, the pharmacokinetics and stability of SIgA in the human gastric and intestinal environments remain unknown and need to be taken in consideration. 55,57 Within the context of the gut, the benefit of SIgA over IgG is obvious and is likely due to SIgA glycosylation and resistance to intestinal proteases.…”

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confidence: 99%

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

Richards

Baranova

Mantis

2021

Human Vaccines & Immunotherapeutics

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Eliminating diarrheal diseases as a leading cause of childhood morbidity and mortality in low-and middleincome countries (LMICs) will require multiple intervention strategies. In this review, we spotlight a series of preclinical studies investigating the potential of orally administered monoclonal secretory IgA (SIgA) antibodies (MAbs) to reduce disease associated with three enteric bacterial pathogens: Campylobacter jejuni, enterotoxigenic Escherichia coli (ETEC), and invasive Salmonella enterica serovar Typhimurium. IgA MAbs targeting bacterial surface antigens (flagella, adhesins, and lipopolysaccharide) were generated from mice, humanized mice, and human tonsillar B cells. Recombinant SIgA1 and/or SIgA2 derivates of those MAbs were purified from supernatants following transient transfection of 293 cells with plasmids encoding antibody heavy and light chains, J-chain, and secretory component (SC). When administered to mice by gavage immediately prior to (or admixed with) the bacterial challenge, SIgA MAbs reduced infection C. jejuni, ETEC, and S. Typhimurium infections. Fv-matched IgG1 MAbs by comparison were largely ineffective against C. jejuni and S. Typhimurium under the same conditions, although they were partially effective against ETEC. While these findings highlight future applications of orally administered SIgA, the studies also underscored the fundamental challenges associated with using MAbs as prophylactic tools against enteric bacterial diseases.

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Passive Immunity to <em>Vibrio cholerae</em> O1 Afforded by a Human Monoclonal IgA1 Antibody Expressed in Milk

Cited by 7 publications

References 45 publications

Recombinant Human Secretory IgA Induces Salmonella Typhimurium Agglutination and Limits Bacterial Invasion into Gut-Associated Lymphoid Tissues

Recombinant Human Secretory IgA Induces Salmonella Typhimurium Agglutination and Limits Bacterial Invasion into Gut-Associated Lymphoid Tissues

A dysbiotic gut microbiome suppresses antibody mediated-protection against Vibrio cholerae

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

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