scholarly journals Plasma Disinfection: Cold Atmospheric Pressure Plasma Attenuates SARS-CoV-2 Spike Protein Binding to ACE2 Protein and the RNA

Author(s):  
Rakesh Ruchel Khanikar ◽  
Monalisa Kalita ◽  
Parismita Kalita ◽  
Bhaswati Kashyap ◽  
Santanu Das ◽  
...  

Abstract Cold atmospheric pressure (CAP) plasma has a profound effect on protein-protein interactions. In this work, we have highlighted the deactivation of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) Spike protein by CAP plasma treatment. Complete deactivation of spike protein binding to the human ACE2 protein was observed within exposure time of 5 minutes and which is correlated to the higher concentration of hydrogen peroxide formation due to the interaction with the reactive oxygen species present in the plasma. On the other hand, it is established that CAP plasma is also capable of degrading RNA of SARS-CoV-2 virus which is also linked to hydrogen peroxide concentration. Results of this work could be useful in designing plasma-based disinfection systems over those based on environmentally hazardous chemicals-based disinfections.

Author(s):  
B. Dodet ◽  
E. Odic ◽  
A. Goldman ◽  
M. Goldman ◽  
D. Renard

AbstractHydrogen peroxide production was studied in an atmospheric pressure dielectric barrier discharge device. The discharge atmosphere was an argon/oxygen gas mixture of variable ratio with water vapor adjunction; H


Author(s):  
Kenneth A. Cornell ◽  
Amanda White ◽  
Adam Croteau ◽  
Jessica Carlson ◽  
Zeke Kennedy ◽  
...  

2021 ◽  
Vol 22 (11) ◽  
pp. 5548
Author(s):  
Yan Li ◽  
Tianyu Tang ◽  
Haejune Lee ◽  
Kiwon Song

Cold atmospheric pressure plasma (CAP) and plasma-activated medium (PAM) induce cell death in diverse cancer cells and may function as powerful anti-cancer agents. The main components responsible for the selective anti-cancer effects of CAP and PAM remain elusive. CAP or PAM induces selective cell death in hepatocellular carcinoma cell lines Hep3B and Huh7 containing populations with cancer stem cell markers. Here, we investigated the major component(s) of CAP and PAM for mediating the selective anti-proliferative effect on Hep3B and Huh7 cells. The anti-proliferative effect of CAP was mediated through the medium; however, the reactive oxygen species scavenger N-acetyl cysteine did not suppress PAM-induced cell death. Neither high concentrations of nitrite or nitrite/nitrate nor a low concentration of H2O2 present in the PAM containing sodium pyruvate affected the viability of Hep3B and Huh7 cells. Inhibitors of singlet oxygen, superoxide anions, and nitric oxide retained the capacity of PAM to induce anti-cancer effects. The anti-cancer effect was largely blocked in the PAM prepared by placing an aluminum metal mesh, but not a dielectric PVC mesh, between the plasma source and the medium. Hence, singlet oxygen, hydrogen peroxide, nitric oxide, and nitrite/nitrate are not the main factors responsible for PAM-mediated selective death in Hep3B and Huh7 cells. Other factors, such as charged particles including various ions in CAP and PAM, may induce selective anti-cancer effects in certain cancer cells.


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