Duquesne Professors Conduct Research to Help Develop Antiviral Treatments for COVID-19

沙巴体育官网Two Duquesne University researchers are studying the genome of SARS-COV-2, the virus that causes COVID-19, to identify molecular switches that control the virus life cycle and help guide the development of antiviral treatments for the disease.

Dr. Mihaela Rita Mihailescu and Dr. Jeffrey Evanseck, chemistry and biochemistry professors at the University's Bayer School of Natural and Environmental Sciences, began their study after receiving a Rapid Response Research Grant from the National Science Foundation in April. 

By better understanding how the virus progresses through its life cycle to multiply and infect other cells, the researchers intend to identify molecular switches, which act as checkpoints in this progression, that could guide the development of treatments that can slow or stop the replication of the virus. 

沙巴体育官网"The ultimate goal of the virus is to replicate itself within the infected host cell to produce more virions which then leave the cell to infect other cells," Mihailescu said. "We know that the processes of making the viral proteins and replicating the RNA genome use the same RNA, so there must be some switches in the viral life cycle. The goal is to identify at least one of the molecular switches and find a way to prevent the virus from moving through the steps of its life cycle so that it can't multiply and infect other cells." 

沙巴体育官网Mihailescu and Evanseck have extensive experience in understanding RNA-RNA and RNA-protein interactions from their research on the Hepatitis C virus and ALS. Three years ago, they began collaborating on an ALS project to better understand how the RNA structure relates to function and pathology of the disease. When COVID-19 emerged, they realized that their work with other viral systems could be helpful in understanding the disease. 

沙巴体育官网"It helps that we have expertise in working with other viruses because we can use similar experimental methods to test our hypotheses," Mihailescu said. "That said, each virus is unique." 

沙巴体育官网"The key to our research strategy is to leverage our expertise and approach of experimental biochemistry with the theory and molecular dynamics simulations to bring a complementary and fresh new approach to this complex biochemical problem," Evanseck said. "It could also lead to the future development of new antivirals that target the genomic RNA, as opposed to other strategies that target the viral proteins." 

The research team also includes Duquesne graduate students Joshua Imperatore, Kendy Pellegrene-Guarinoni, Angel Tamez and Caylee Cunningham.

Duquesne University

Founded in 1878, Duquesne is consistently ranked among the nation's top Catholic universities for its award-winning faculty and tradition of academic excellence. Duquesne, a campus of nearly 9,500 graduate and undergraduate students, has been nationally recognized for its academic programs, community service and commitment to sustainability. Follow Duquesne University on , and .
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