Yeu Khai Choong scite author profile

The 2019 coronavirus pandemic is still a major public health concern. Neutralizing antibodies (nAbs) represent a cutting-edge antiviral strategy. Here, we focus on SARS-CoV-2 and SARS-CoV and discuss the current antibody research progress against rampant SARS-CoV-2 infections. We provide a perspective on the mechanisms of SARS-CoV-2-derived nAbs, comparing these with existing SARS-CoV-derived antibodies. We offer insight into how these antibodies cross-react and cross-neutralize by analyzing available S-glycoprotein-antibody complex structures. We also propose ways of adopting antibody-based strategies -- such as cocktail antibody therapeutics against SARS-CoV-2-- to overcome the possible resistance of currently identified mutations, and to mitigate possible antibody-dependent enhancement pathologies. Overall, this review provides a platform for the progression of antibody and vaccine design against SARS-CoV-2 and possibly, future coronavirus pandemics.

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Structural basis for endotoxin neutralisation and anti-inflammatory activity of thrombin-derived C-terminal peptides

Saravanan

Holdbrook

Petrlová

et al. 2018

Nat Commun

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Thrombin-derived C-terminal peptides (TCPs) of about 2 kDa are present in wounds, where they exert anti-endotoxic functions. Employing a combination of nuclear magnetic resonance spectroscopy (NMR), biophysical, mass spectrometry and cellular studies combined with in silico multiscale modelling, we here determine the bound conformation of HVF18 (HVFRLKKWIQKVIDQFGE), a TCP generated by neutrophil elastase, in complex with bacterial lipopolysaccharide (LPS) and define a previously undisclosed interaction between TCPs and human CD14. Further, we show that TCPs bind to the LPS-binding hydrophobic pocket of CD14 and identify the peptide region crucial for TCP interaction with LPS and CD14. Taken together, our results demonstrate the role of structural transitions in LPS complex formation and CD14 interaction, providing a molecular explanation for the previously observed therapeutic effects of TCPs in experimental models of bacterial sepsis and endotoxin shock.

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Thrombin and Plasmin Alter the Proteome of Neutrophil Extracellular Traps

et al. 2018

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Neutrophil extracellular traps (NETs) consist of a decondensed DNA scaffold decorated with neutrophil-derived proteins. The proteome of NETs, or “NETome,” has been largely elucidated in vitro. However, components such as plasma and extracellular matrix proteins may affect the NETome under physiological conditions. Here, using a reductionistic approach, we explored the effects of two proteases active during injury and wounding, human thrombin and plasmin, on the NETome. Using high-resolution mass spectrometry, we identified a total of 164 proteins, including those previously not described in NETs. The serine proteases, particularly thrombin, were also found to interact with DNA and bound to NETs in vitro. Among the most abundant proteins were those identified previously, including histones, neutrophil elastase, and antimicrobial proteins. We observed reduced histone (H2B, H3, and H4) and neutrophil elastase levels upon the addition of the two proteases. Analyses of NET-derived tryptic peptides identified subtle changes upon protease treatments. Our results provide evidence that exogenous proteases, present during wounding and inflammation, influence the NETome. Taken together, regulation of NETs and their proteins under different physiological conditions may affect their roles in infection, inflammation, and the host response.

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Structural Basis of SARS-CoV-2– and SARS-CoV–Receptor Binding and Small-Molecule Blockers as Potential Therapeutics

Sivaraman

Choong

et al. 2021

Annu. Rev. Pharmacol. Toxicol.

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Over the past two decades, deadly coronaviruses have caused major challenges to public health, with the most recent being the severe acute respiratory syndrome-related coronavirus-2 (SARS-CoV-2, 2019) pandemic. The path for virus invasion into humans and other hosts is mediated by “host-pathogen” interactions, specifically, virus-receptor binding. An in-depth understanding of the virus-receptor binding mechanism is a prerequisite for the discovery of vaccines, antibodies, and/or small-molecule inhibitors that can interrupt this interaction and prevent or cure infection. In this review, we discuss the viral entry mechanism, the known structural aspects of virus-receptor interactions (SARS-CoV-2 S/humanACE2, SARS-CoV S/humanACE2, and MERS-CoV S/humanDPP4), the key protein domains and amino acid residues involved in binding, and the small-molecule inhibitors and other drugs that have (as of June, 2020) exhibited therapeutic potential. Specifically, we review the potential clinical utility of two transmembrane serine protease 2 (TMPRSS2)-targeting protease inhibitors, nafamostat mesylate and camostat mesylate, as well as two novel potent fusion inhibitors and the repurposed Ebola drug, remdesivir, which is specific to RdRp, against human coronaviruses, including SARS-CoV-2. This article has been accepted for publication on June 23, 2020. Changes may still occur before final publication. Expected final online publication date for the Annual Review of Pharmacology and Toxicology, Volume 61 is January 8, 2021. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

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Proteolytic signatures define unique thrombin-derived peptides present in human wound fluid in vivo

Saravanan

Adav

Choong

et al. 2017

Sci Rep

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The disease burden of failing skin repair and non-healing ulcers is extensive. There is an unmet need for new diagnostic approaches to better predict healing activity and wound infection. Uncontrolled and excessive protease activity, of endogenous or bacterial origin, has been described as a major contributor to wound healing impairments. Proteolytic peptide patterns could therefore correlate and “report” healing activity and infection. This work describes a proof of principle delineating a strategy by which peptides from a selected protein, human thrombin, are detected and attributed to proteolytic actions. With a particular focus on thrombin-derived C-terminal peptides (TCP), we show that distinct peptide patterns are generated in vitro by the human S1 peptidases human neutrophil elastase and cathepsin G, and the bacterial M4 peptidases Pseudomonas aeruginosa elastase and Staphylococcus aureus aureolysin, respectively. Corresponding peptide sequences were identified in wound fluids from acute and non-healing ulcers, and notably, one peptide, FYT21 (FYTHVFRLKKWIQKVIDQFGE), was only present in wound fluid from non-healing ulcers colonized by P. aeruginosa and S. aureus. Our result is a proof of principle pointing at the possibility of defining peptide biomarkers reporting distinct proteolytic activities, of potential implication for improved diagnosis of wound healing and infection.

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Yeu Khai Choong

Structural Basis of SARS-CoV-2 and SARS-CoV Antibody Interactions

Structural basis for endotoxin neutralisation and anti-inflammatory activity of thrombin-derived C-terminal peptides

Thrombin and Plasmin Alter the Proteome of Neutrophil Extracellular Traps

Structural Basis of SARS-CoV-2– and SARS-CoV–Receptor Binding and Small-Molecule Blockers as Potential Therapeutics

Proteolytic signatures define unique thrombin-derived peptides present in human wound fluid in vivo

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