UTEP School of Pharmacy Developing COVID-19 Vaccine, Drug Treatments Using Supercomputing

Last Updated on April 08, 2020 at 12:00 AM

Originally published April 08, 2020

By UC Staff

UTEP Communications

EL PASO, Texas – Research is underway at The University of Texas at El Paso’s School of Pharmacy to develop vaccines and antiviral drugs to combat the novel coronavirus within 15 months to two years.

Suman Sirimulla, Ph.D., assistant professor of pharmaceutical sciences at UTEP, is leading a group of experimental researchers to virtually develop the molecular structure of a protease inhibitor that would target the coronavirus, which causes COVID-19, a respiratory illness that can spread from person to person. Photo: JR Hernandez / UTEP Communications

Suman Sirimulla, Ph.D., assistant professor of pharmaceutical sciences at UTEP, is leading a group of experimental researchers to virtually develop the molecular structure of a protease inhibitor that would target the coronavirus, which causes COVID-19, a respiratory illness that can spread from person to person.

“UTEP faulty members advance discovery of public value,” said UTEP President Heather Wilson. “We have high expectations for Dr. Sirimulla’s research and look forward to his development of therapies to combat the novel coronavirus infection.”

Sirimulla is collaborating with UTEP faculty members Md Nurunnabi, Ph.D., assistant professor of pharmaceutical sciences, and Manuel Llano M.D., Ph.D., associate professor in the Department of Biological Sciences; and Tudor I. Oprea, professor of medicine and chief of the Translational Informatics Division, Department of Internal Medicine at the University of New Mexico.

Using computational methods, Sirimulla is piecing together small molecules to create inhibitors of viral proteins – specifically, inhibitors that will bind to the coronavirus’s S-protein, or spike protein, and block it from attaching to and infecting healthy cells. He is also developing inhibitors of coronavirus main protease, which is an attractive target due to its essential role in processing the polyproteins that are translated from the viral RNA. Scientists will be able to use the new protease inhibitor to develop drugs effective against COVID-19.

“The coronavirus targets the respiratory cell’s ACE2 and TMPRSS2 enzymes and uses the spike protein to attach itself to them,” said Sirimulla, a computational chemist with more than 10 years of drug discovery research experience. “Once the virus gets into the cell, it begins to replicate. What we are trying to do is target the virus’ RNA-dependent RNA polymerases enzymes that are involved in replicating the virus.”

Sirimulla is running simulations through The University of Texas System's Texas Advanced Computing Center (TACC), which provides researchers with high-performance computing, scientific visualization and data storage systems. Sirimulla will simulate the interaction between the molecules and the viral proteins to better understand and refine the binding process. He also will employ artificial intelligence algorithms that will recommend which molecules to use.

The process for developing a new drug can take up to 10 years. However, because of the urgency to produce novel drug therapies to treat COVID-19, Sirimulla said they can have a vaccine or antiviral drug ready in 15 months to 2 years.

Virologists at UTEP and at other universities will validate Sirimulla’s findings through experimental procedures in their labs.

In the meantime, Llano said he will develop an assay that, in the absence of the virus, will allow them to test Sirimulla's predictions.

To speed up the design process, Sirimulla is screening large quantities of molecules – over a billion compounds – that can be readily synthesized and are available through online chemical libraries. His goal is to find molecules that contain compounds that will likely produce the appropriate biological response and inhibit the spread of the coronavirus.

Sirimulla also is enlisting the help of volunteers through BOINC@TACC, a project that integrates volunteer computing and TACC’s supercomputers. Volunteers who join BOINC@TACC will be able to run Sirimulla’s application on their computers and help him scour through billions of molecules available in online libraries.

The University of Texas at El Paso is a comprehensive research university of 25,000 students that has been recognized both as a community engaged institution and as a top tier research university by the Carnegie Foundation. With $108 million in total annual research expenditures, UTEP is ranked in the top 5% nationally and fourth in Texas for federal research expenditures at public universities, after UT Austin, Texas A&M and the University of Houston. UTEP is one of the largest and most successful Hispanic-serving institutions in the country, with a student body that is over 80% Hispanic.