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TEMPLE RESEARCHERS: HIV Drug Stops Zika Virus Infection

 Same Strategy Could Halt Infections
Caused by Related Viruses, Temple Researchers Report Good News

 

(Philadelphia, PA) – Like an adjustable wrench that becomes the “go-to” tool because it is effective and can be used for a variety of purposes, an existing drug that can be adapted to halt the replication of different viruses would greatly expedite the treatment of different infectious diseases. Such a strategy would prevent thousands of deaths each year from diseases like dengue and Ebola, but whether it can be done has been unclear. Now, in new work, researchers at the Lewis Katz School of Medicine at Temple University (LKSOM) show that repurposing an existing drug to treat viral diseases is in fact possible – potentially bypassing the decades needed to develop such a broad-spectrum drug from scratch.

 

In a new study published in the journal Molecular Therapy, the Temple researchers report that a drug used in the treatment of HIV also suppresses Zika virus infection. In cell and animal models, they show that the drug, called rilpivirine, stops Zika virus by targeting enzymes that both HIV and Zika virus depend on for their replication. These enzymes occur in other viruses closely related to Zika, including the viruses that cause dengue, yellow fever, West Nile fever, and hepatitis C.

 

“HIV and Zika virus are distinct types of RNA viruses,” explained Kamel Khalili, PhD, Laura H. Carnell Professor and Chair of the Department of Neuroscience, Director of the Center for Neurovirology, and Director of the Comprehensive NeuroAIDS Center at LKSOM. “By discovering that rilpivirine blocks Zika virus replication by binding to an RNA polymerase enzyme common to a family of RNA viruses, we've opened the way to potentially being able to treat multiple RNA virus infections using the same strategy.”

 

Dr. Khalili, a senior investigator on the new study, attributed the breakthrough work to a productive collaboration with Temple University colleagues, including Dr. Michael L. Klein, FRS, Laura H. Carnell Professor of Science and Dean of the College of Science and Technology at Temple; and Ilker K. Sariyer, DVM, PhD, and Jennifer Gordon, PhD, Associate Professors of Neuroscience at Temple's Center for Neurovirology.

 

Historically rare and isolated to parts of Africa and Asia, Zika virus is now present throughout the Americas and occurs in multiple other regions of the world. It has attracted increasing attention in recent years, owing to its damaging effects to the brain and nervous system. The virus is transmitted to humans by mosquitoes. Once in the body, it infects cells and replicates, typically taking up residence in cells in neural tissues. In severe cases, Zika virus infection can cause an autoimmune condition known as Guillain-Barré syndrome, which culminates in muscle paralysis. Infants born to mothers infected during pregnancy may experience delays in neurological development and may be affected by microcephaly (abnormal smallness of the head).

 

To replicate inside cells, Zika virus requires an enzyme called non-structural protein 5 RNA-dependent RNA polymerase (NS5 RdRp). In the new study, Dr. Sariyer showed that rilpivirine suppresses Zika virus infection in cells by blocking viral replication. Using structural biology and computational studies, Eleonora Gianti, PhD, a research assistant professor in Dr. Klein's laboratory, was able to show that rilpivirine prevents viral replication by binding specifically to the NS5 domain.

 

Dr. Gordon's team carried out experiments in mice, in which animals were infected with Zika virus through their footpads, similar to the way a person becomes infected through a mosquito bite. Mice that become infected with Zika virus normally become very sick within about a week and eventually die. “We found, however, that when treated with rilpivirine, the animals survived,” Dr. Gordon said. “Our conclusion is that rilpivirine disrupted the virus's usual course of infection.”

 

Rilpivirine is one of several non-nucleoside reverse transcriptase inhibitor (NNRTI) drugs that have been developed for the treatment of HIV infection. Experiments in which the Temple researchers tested two other NNRTIs in Zika-infected cells revealed similar effects on viral replication, with the drugs specifically inhibiting NS5 activity.

 

“We now have a clear path forward,” Dr. Khalili said. “We have a starting point from which we can find ways to make these drugs even more potent and more effective against flaviviruses.” The researchers plan to soon step up their studies to develop ways to improve the effectiveness of NNRTIs in blocking infection with Zika virus and other flaviviruses.

 

Epidemics involving flavivirus infections, particularly HIV, Zika, dengue, and hepatitis C, frequently overlap geographically and temporally. “The potential applications of this work are huge,” Dr. Klein added. 

 

Other researchers contributing to the study include Tricia H. Burdo, Hassen Wollebo, Martina Donadoni, Anna Bellizzi, Stephanie Cicalese, Regina Loomis, and Jake A. Robinson, Department of Neuroscience and Center for Neurovirology, Lewis Katz School of Medicine at Temple University; Shohreh Amini, Department of Neuroscience and Center for Neurovirology, Lewis Katz School of Medicine at Temple University and Department of Biology, College of Science and Technology, Temple University; Eleonora Gianti and Vincenzo Carnevale, Department of Chemistry, Institute for Computational Molecular Science, College of Science and Technology, Temple University; Joseph Steiner, Translational Neuroscience Center National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethseda, MD; Mehmet H. Ozdener, Monell Chemical Senses Center, Philadelphia, PA; and Andrew D. Miller, College of Veterinary Medicine, Cornell University.

 

The research was supported in part by National Science Foundation grant 1625061, by the US Army Research Laboratory, contract number W911NF-16-2-0189, and by services provided by core facilities of the Comprehensive NeuroAIDS Center (CNAC) funded by National Institutes of Health grant P30MH092177.

 

About Temple Health
Temple University Health System (TUHS) is a $2.1 billion academic health system dedicated to providing access to quality patient care and supporting excellence in medical education and research. The Health System consists of Temple University Hospital (TUH); TUH-Episcopal Campus; TUH-Northeastern Campus; The Hospital of Fox Chase Cancer Center and Affiliates, an NCI-designated comprehensive cancer center; Jeanes Hospital, a community-based hospital offering medical, surgical and emergency services; Temple Transport Team, a ground and air-ambulance company; Temple Physicians, Inc., a network of community-based specialty and primary-care physician practices; and Temple Faculty Practice Plan, Inc., TUHS’s physician practice plan comprised of more than 500 full-time and part-time academic physicians in 20 clinical departments. TUHS is affiliated with the Lewis Katz School of Medicine at Temple University.

 

Temple Health refers to the health, education and research activities carried out by the affiliates of Temple University Health System (TUHS) and by the Katz School of Medicine.  TUHS neither provides nor controls the provision of health care. All health care is provided by its member organizations or independent health care providers affiliated with TUHS member organizations. Each TUHS member organization is owned and operated pursuant to its governing documents.

 

It is the policy of Temple University Health System that there shall be no exclusion from, or participation in, and no one denied the benefits of, the delivery of quality medical care on the basis of race, ethnicity, religion, sexual orientation, gender, gender identity/expression, disability, age, ancestry, color, national origin, physical ability, level of education, or source of payment.

 

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