It’s peak cold and flu season in the northern hemisphere. These respiratory viruses and other infectious pathogens are spread through close contact and/or touching contaminated surfaces. Many people disinfect their homes to slow viral transmission or take antivirals to improve the recovery process if they get sick. Four papers published in ACS journals provide insights into novel antiviral compounds and methods to inactivate infectious viral particles and bacteria. Reporters can request access to these papers by emailing newsroom@acs.org.
1. Antarctic fungus produces anti-RSV compounds. Researchers reporting in ACS’ Organic Letters found that a fungus from Antarctica, Aspergillus ochraceopetaliformis, generates antiviral metabolites. The study identified the structures of four metabolites that exhibited anti-RSV (respiratory syncytial virus) activity in cell culture experiments. Further work revealed that the most active compound prevented infection by keeping viral particles from entering cells. The authors say that this compound could be developed into a safe, effective antiviral agent.
2. UV light or ozone gas effectively inactivates SARS-CoV-2 virus. Results published in ACS Applied Materials & Interfaces reinforce prior findings that UV-C light (275 nanometers) and ozone gas are potent against the virus that causes COVID-19. The authors found that UV-C light exposure for as little as 3 minutes and up to 30 minutes reduced virus infectivity by 99%. Ozone gas exposure reduced infectivity by 90% following 10 minutes of treatment; however, within the first 5 minutes, SARS-CoV-2 particles became rougher and damaged, cutting their cell-binding ability in half. Additionally, ozone was more effective to treat viruses on glass than on plastic, which the researchers say could provide insights for choosing productive disinfection practices.
3. Bleach or ethanol solutions remove >99% of mpox virus. Infectious mpox virus can be transmitted through contaminated surfaces. So, researchers compared the effectiveness of six common disinfectants applied to stainless steel, glass, plastic, latex, ceramic and wood surfaces infused with mpox virus. The researchers recommend in ACS' Environmental Science & Technology to clean with either 0.05% bleach or 70% ethanol solutions. These disinfectants inactivated more than 99.4% of infectious mpox virus from all the surfaces tested.
4. New class of disinfectants for health care settings. Pseudomonas aeruginosa, a pathogen responsible for pneumonia, urinary tract infections and other common illnesses in hospitals, is becoming resistant to disinfectants and drugs. Now, a study published in ACS Infectious Diseases describes a new class of quaternary phosphonium compounds that disarm pathogens by disrupting the inner membrane of their cell walls. In experiments, the biocides were highly effective against multiple P. aeruginosa strains, including those that are multidrug-resistant.
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Journal
Organic Letters