2021
DOI: 10.3390/v13112201
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Monoclonal Human Antibodies That Recognise the Exposed N and C Terminal Regions of the Often-Overlooked SARS-CoV-2 ORF3a Transmembrane Protein

Abstract: ORF3a has been identified as a viroporin of SARS-CoV-2 and is known to be involved in various pathophysiological activities including disturbance of cellular calcium homeostasis, inflammasome activation, apoptosis induction and disruption of autophagy. ORF3a-targeting antibodies may specifically and favorably modulate these viroporin-dependent pathological activities. However, suitable viroporin-targeting antibodies are difficult to generate because of the well-recognized technical challenge associated with is… Show more

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Cited by 4 publications
(3 citation statements)
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“…This topology is supported by the positive-inside rule, which describes the tendency of loops between transmembrane helices to face the cytosol when they contain positively charged residues (Arg and Lys) because of the negative potential of the cytosol relative to the extracellular space [43]. However, ORF3a localizes not only to the plasma membrane but also to intracellular membranes (lysosomes, endosomes, Golgi, endoplasmic reticulum) [9,11,13,[44][45][46][47], and while there is experimental evidence to support the proposed ORF3a topology at the plasma membrane [48], it is unclear whether its orientation in intracellular membranes is the same. Additionally, ORF3a has been reported to disrupt and reorganize membrane structures in infected cells or when overexpressed [11,15,18,19].…”
Section: Discussionmentioning
confidence: 97%
“…This topology is supported by the positive-inside rule, which describes the tendency of loops between transmembrane helices to face the cytosol when they contain positively charged residues (Arg and Lys) because of the negative potential of the cytosol relative to the extracellular space [43]. However, ORF3a localizes not only to the plasma membrane but also to intracellular membranes (lysosomes, endosomes, Golgi, endoplasmic reticulum) [9,11,13,[44][45][46][47], and while there is experimental evidence to support the proposed ORF3a topology at the plasma membrane [48], it is unclear whether its orientation in intracellular membranes is the same. Additionally, ORF3a has been reported to disrupt and reorganize membrane structures in infected cells or when overexpressed [11,15,18,19].…”
Section: Discussionmentioning
confidence: 97%
“…The best binder, G7 scFv, specifically bound to CD20 expressed on Raji cells with an estimated affinity of ~64 nM. Similarly, Glumac and co-workers panned a naïve human scFv phage library against the extracellular N terminal (amino acids 1-34) and C-terminal (amino acid 126-275) domains of SARS-CoV-2 ORF3a transmembrane protein, obtaining N3aB02 and 3aCA03 single-chain antibodies that were able to bind the full-length ORF3a in transfected cells [34]. Despite these successes, it is worth noting that many multi-pass transmembrane proteins have small extracellular loops that are dependent on the transmembrane region for proper folding, and as such are not suitable targets for affinity selection using this method.…”
Section: Soluble Extracellular Loop Fragmentmentioning
confidence: 99%
“…transmembrane protein, obtaining N3aB02 and 3aCA03 single-chain antibodies that were able to bind the full-length ORF3a in transfected cells [34]. Despite these successes, it is worth noting that many multi-pass transmembrane proteins have small extracellular loops that are dependent on the transmembrane region for proper folding, and as such are not suitable targets for affinity selection using this method.…”
Section: Soluble Extracellular Loop Fragmentmentioning
confidence: 99%