Emergent SARS-CoV-2 variants: comparative replication dynamics and high sensitivity to thapsigargin

The struggle to control the COVID-19 pandemic is made challenging by the emergence of virulent SARS-CoV-2 variants. To gain insight into their replication dynamics, emergent Alpha (A), Beta (B) and Delta (D) SARS-CoV-2 variants were assessed for their infection performance in single variant- and co-...

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Veröffentlicht in:	Virulence 2021-12, Vol.12 (1), p.2946-2956
Hauptverfasser:	Al-Beltagi, Sarah, Goulding, Leah V., Chang, Daniel K.E., Mellits, Kenneth H., Hayes, Christopher J., Gershkovich, Pavel, Coleman, Christopher M., Chang, Kin-Chow
Format:	Artikel
Sprache:	eng
Schlagworte:	Alpha antiviral Antiviral Agents - pharmacology Antiviral Agents - therapeutic use Beta co-infection Coinfection COVID-19 - drug therapy Delta emergent variants Humans Pandemics replication synergy Research Paper SARS-CoV-2 SARS-CoV-2 - drug effects syncytia thapsigargin Thapsigargin - pharmacology Thapsigargin - therapeutic use
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container_title	Virulence
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creator	Al-Beltagi, Sarah Goulding, Leah V. Chang, Daniel K.E. Mellits, Kenneth H. Hayes, Christopher J. Gershkovich, Pavel Coleman, Christopher M. Chang, Kin-Chow
description	The struggle to control the COVID-19 pandemic is made challenging by the emergence of virulent SARS-CoV-2 variants. To gain insight into their replication dynamics, emergent Alpha (A), Beta (B) and Delta (D) SARS-CoV-2 variants were assessed for their infection performance in single variant- and co-infections. The effectiveness of thapsigargin (TG), a recently discovered broad-spectrum antiviral, against these variants was also examined. Of the 3 viruses, the D variant exhibited the highest replication rate and was most able to spread to in-contact cells; its replication rate at 24 h post-infection (hpi) based on progeny viral RNA production was over 4 times that of variant A and 9 times more than the B variant. In co-infections, the D variant boosted the replication of its co-infected partners at the expense of its own initial performance. Furthermore, co-infection with AD or AB combination conferred replication synergy where total progeny (RNA) output was greater than the sum of corresponding single-variant infections. All variants were highly sensitive to TG inhibition. A single pre-infection priming dose of TG effectively blocked all single-variant infections and every combination (AB, AD, BD variants) of co-infection at greater than 95% (relative to controls) at 72 hpi. Likewise, TG was effective in inhibiting each variant in active preexisting infection. In conclusion, against the current backdrop of the dominant D variant that could be further complicated by co-infection synergy with new variants, the growing list of viruses susceptible to TG, a promising host-centric antiviral, now includes a spectrum of contemporary SARS-CoV-2 viruses.
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A single pre-infection priming dose of TG effectively blocked all single-variant infections and every combination (AB, AD, BD variants) of co-infection at greater than 95% (relative to controls) at 72 hpi. Likewise, TG was effective in inhibiting each variant in active preexisting infection. 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To gain insight into their replication dynamics, emergent Alpha (A), Beta (B) and Delta (D) SARS-CoV-2 variants were assessed for their infection performance in single variant- and co-infections. The effectiveness of thapsigargin (TG), a recently discovered broad-spectrum antiviral, against these variants was also examined. Of the 3 viruses, the D variant exhibited the highest replication rate and was most able to spread to in-contact cells; its replication rate at 24 h post-infection (hpi) based on progeny viral RNA production was over 4 times that of variant A and 9 times more than the B variant. In co-infections, the D variant boosted the replication of its co-infected partners at the expense of its own initial performance. Furthermore, co-infection with AD or AB combination conferred replication synergy where total progeny (RNA) output was greater than the sum of corresponding single-variant infections. All variants were highly sensitive to TG inhibition. 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To gain insight into their replication dynamics, emergent Alpha (A), Beta (B) and Delta (D) SARS-CoV-2 variants were assessed for their infection performance in single variant- and co-infections. The effectiveness of thapsigargin (TG), a recently discovered broad-spectrum antiviral, against these variants was also examined. Of the 3 viruses, the D variant exhibited the highest replication rate and was most able to spread to in-contact cells; its replication rate at 24 h post-infection (hpi) based on progeny viral RNA production was over 4 times that of variant A and 9 times more than the B variant. In co-infections, the D variant boosted the replication of its co-infected partners at the expense of its own initial performance. Furthermore, co-infection with AD or AB combination conferred replication synergy where total progeny (RNA) output was greater than the sum of corresponding single-variant infections. All variants were highly sensitive to TG inhibition. A single pre-infection priming dose of TG effectively blocked all single-variant infections and every combination (AB, AD, BD variants) of co-infection at greater than 95% (relative to controls) at 72 hpi. Likewise, TG was effective in inhibiting each variant in active preexisting infection. 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subjects	Alpha antiviral Antiviral Agents - pharmacology Antiviral Agents - therapeutic use Beta co-infection Coinfection COVID-19 - drug therapy Delta emergent variants Humans Pandemics replication synergy Research Paper SARS-CoV-2 SARS-CoV-2 - drug effects syncytia thapsigargin Thapsigargin - pharmacology Thapsigargin - therapeutic use
title	Emergent SARS-CoV-2 variants: comparative replication dynamics and high sensitivity to thapsigargin
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