Abstract
Poliovirus (PV)-specific intestinal IgAs are important for cessation of PV shedding in the gastrointestinal tract following an acute infection with wild type or vaccine-derived PV strains. We sought to produce IgA monoclonal antibodies (mAbs) with PV neutralizing activity. We first performed de novo IgA discovery from primary human B cells using a hybridoma method that allows assessment of mAb binding and expression on the hybridoma surface: On-Cell mAb Screening (OCMS™). Six IgA1 mAbs were cloned by this method; three potently neutralized type 3 Sabin and wt PV strains. The hybridoma mAbs were heterogeneous, expressed in monomeric, dimeric, and aberrant forms. We also used recombinant methods to convert two high-potency anti-PV IgG mAbs into dimeric IgA1 and IgA2 mAbs. Isotype switching did not substantially change their neutralization activities. To purify the recombinant mAbs, Protein L binding was used, and one of the mAbs required a single amino acid substitution in its κ LC in order to enable protein L binding. Lastly, we used OCMS to assess IgA expression on the surface of hybridomas and transiently transfected, adherent cells. These studies have generated potent anti-PV IgA mAbs, for use in animal models, as well as additional tools for the discovery and production of human IgA mAbs.
Highlights
The oral attenuated poliovirus vaccine (OPV) is the most effective vaccine for eradicating wild PolioVirus (PV)
IgA antibodies are important for overcoming intestinal infections, shaping the microbiome, IgA antibodies are important for overcoming intestinal infections, shaping the microbiome, and and preventing autoimmunity, but the therapeutic potential of IgA monoclonal antibodies (mAbs) is relatively unexplored, preventing autoimmunity, but the therapeutic potential of IgA mAbs is relatively unexplored, in part in part due to technical challenges [45,46]
In PV infection, an anti-PV mucosal IgA response correlates due to technical challenges [45,46]
Summary
The oral attenuated poliovirus vaccine (OPV) is the most effective vaccine for eradicating wild PolioVirus (PV). The oral attenuated poliovirus vaccine (OPV) is the most effective vaccine for eradicating wild Polio. OPV can give rise to circulating Vaccine Derived Polio Viruses (cVDPV), which have genetically reverted to and are clinically indistinguishable from wild PV. Polio Eradication Initiative (GPEI) has planned a staged substitution of OPV with the inactivated poliovirus vaccine (IPV). Because type 2 wild PV has been eradicated, the first phase of this transition involved a switch to a bivalent OPV (types 1, 3) combined with a trivalent IPV boost [1]. CVDPVs can infect the intestines of IPV-immune individuals, be shed in the stool, and pass asymptomatically
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