While the World Health Organization has declared the end of the SARS-CoV-2 public health emergency, studies related to corona viruses are still under course. As of 2024, the severity of COVID-19 has diminished with current treatments and vaccinations. However, individuals can still face severe complications, highlighting the importance of ongoing research into innovative treatments for current and future coronavirus-related diseases. This study approaches the mechanism of viral entrance into the host cells and the current evidence on the use of sulfhydryl groups for the COVID-19 treatment. Certain thiol drugs, a key contributor to inflammatory processes, exhibit both viral inhibition properties and the potential to regulate cellular oxidative stress by scavenging free radicals. Herein, we developed biocompatible thiol-functionalized carbon dots (CDs) and investigated the correlation between the number of thiols and pseudo-SARS-CoV-2 inhibition, reactive oxygen species (ROS) scavenging, and anti-inflammatory response. The free-radical scavenging experiment and the ROS cellular assay indicate that thiolated CDs serve as effective reducing agents and potential regulators of cellular oxidative stress. The CDs also demonstrated good cell viability alongside significant antiviral capabilities, with inhibition levels up to 60.4%. Furthermore, the flow cytometry results suggest that in an inflammatory environment, the presence of thiolated CDs promotes an anti-inflammatory response. Overall, the results demonstrate a strong correlation between the number of thiols and the increased efficacy observed across experiments, presenting thiolated CDs as promising candidates to prevent and treat COVID-19 infection.
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