Stability Engineering of Recombinant Secretory IgA.

Stability Engineering of Recombinant Secretory IgA.

Publication date: Jun 22, 2024

Secretory IgA (SIgA) presents a promising avenue for mucosal immunotherapy yet faces challenges in expression, purification, and stability. IgA exists in two primary isotypes, IgA1 and IgA2, with IgA2 further subdivided into two common allotypes: IgA2m(1) and IgA2m(2). The major differences between IgA1 and IgA2 are located in the hinge region, with IgA1 featuring a 13-amino acid elongation that includes up to six O-glycosylation sites. Furthermore, the IgA2m(1) allotype lacks a covalent disulfide bond between heavy and light chains, which is present in IgA1 and IgA2m(2). While IgA1 demonstrates superior epitope binding and pathogen neutralization, IgA2 exhibits enhanced effector functions and stability against mucosal bacterial degradation. However, the noncovalent linkage in the IgA2m(1) allotype raises production and stability challenges. The introduction of distinct single mutations aims to facilitate an alternate disulfide bond formation to mitigate these challenges. We compare four different IgA2 versions with IgA1 to further develop secretory IgA antibodies against SARS-CoV-2 for topical delivery to mucosal surfaces. Our results indicate significantly improved expression levels and assembly efficacy of SIgA2 (P221R) in Nicotiana benthamiana. Moreover, engineered SIgA2 displays heightened thermal stability under physiological as well as acidic conditions and can be aerosolized using a mesh nebulizer. In summary, our study elucidates the benefits of stability-enhancing mutations in overcoming hurdles associated with SIgA expression and stability.

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Concepts Keywords
Bacterial aerosolization
Common antibody engineering
Hurdles COVID-19
Iga2m2 Humans
Immunotherapy IgA
Immunoglobulin A, Secretory
Immunoglobulin A, Secretory
monoclonal antibody
Nicotiana
plant molecular pharming
protein assembly
Protein Engineering
Protein Stability
protein stability
Recombinant Proteins
Recombinant Proteins
SARS-CoV-2
secretory immunoglobulin A

Semantics

Type Source Name
disease IDO pathogen
disease IDO production
disease MESH Infection
pathway REACTOME Immune System
disease MESH influenza
disease VO Viruses
drug DRUGBANK Coenzyme M
disease IDO process
disease VO passive immunization
disease MESH COVID 19
drug DRUGBANK L-Asparagine
disease VO effective
disease IDO cell
drug DRUGBANK L-Cysteine
disease VO viability
drug DRUGBANK Spinosad
disease IDO susceptibility
disease IDO site
drug DRUGBANK Sodium lauryl sulfate
drug DRUGBANK L-Aspartic Acid
drug DRUGBANK Proline
drug DRUGBANK L-Arginine
drug DRUGBANK Serine
drug DRUGBANK Albendazole
drug DRUGBANK Etodolac
drug DRUGBANK L-Isoleucine
drug DRUGBANK Ibuprofen
disease VO ANOVA
disease VO USA
drug DRUGBANK Thyroglobulin
drug DRUGBANK Ethanol
drug DRUGBANK Citric Acid
disease VO volume
drug DRUGBANK Aspartame
disease VO efficiency
disease VO Bacteria
disease MESH IgA nephropathy
disease MESH renal failure
disease MESH dissociation
drug DRUGBANK Pepsin
drug DRUGBANK Polysorbate 20
disease MESH infectious diseases
drug DRUGBANK Rifampicin
drug DRUGBANK Kanamycin
drug DRUGBANK Magnesium sulfate
drug DRUGBANK Phosphate ion
drug DRUGBANK Glycine
drug DRUGBANK Tromethamine
drug DRUGBANK Cefoxitin
disease VO time
drug DRUGBANK Medical air
drug DRUGBANK Ademetionine
disease IDO facility
disease VO vaccine
disease MESH viral infection
disease MESH respiratory diseases
disease VO efficient
disease VO gene
disease MESH tuberculosis
pathway KEGG Tuberculosis

Original Article

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