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Discovery of norovirus replication hubs gives new antiviral targets


norovirus
Cluster of norovirus virions. Credit: CDC

Human norovirus, a positive-strand RNA virus that’s the main reason behind viral gastroenteritis accounting for an estimated 685 million instances and roughly 212,000 deaths globally per 12 months, has no accredited vaccines or antivirals.

Paving the best way for improved drug therapies, researchers at Baylor College of Medicine and the University of Texas, MD Anderson Cancer Center report in Science Advances the invention of replication hubs for human norovirus, which may result in designing antiviral medication to stop, management or deal with these infections.

“When viruses infect cells, they often create specialised compartments—replication factories—the place they kind new viruses that infect extra cells inflicting the illness,” mentioned first creator Dr. Soni Kaundal, postdoctoral affiliate within the Verna and Marrs McLean Department of Biochemistry and Molecular Pharmacology at Baylor within the lab of Dr. B.V. Venkataram Prasad, corresponding creator of the work.

“However, little is thought about norovirus’s replication factories.”

Increasing proof exhibits that some replication factories usually aren’t separated from their environment by a membrane. Instead, they’re biomolecular condensates, constructions resembling a bubble fashioned by liquid-liquid part separation. These condensates selectively incorporate proteins and different supplies wanted for viral replication.

Liquid-like condensates as replication factories have been extensively studied in different viruses, together with the rabies and measles viruses. In this examine, the researchers investigated whether or not norovirus types biomolecular condensates that function replication hubs.

“We knew that these condensates are sometimes initiated by a single viral protein able to binding genetic materials, having a versatile area and forming oligomers, molecules fabricated from small numbers of repeating items,” Kaundal mentioned.

The crew started their investigation by making use of bioinformatic evaluation to establish norovirus proteins that will current the traits most definitely resulting in the formation of liquid condensates.

“Working with the human norovirus pandemic pressure GII.4, the one chargeable for inflicting most instances of gastroenteritis all over the world, we discovered that the RNA-dependent RNA polymerase has the very best propensity to kind biomolecular condensates,” Kaundal mentioned.

“This protein has a versatile area, can kind oligomers, binds RNA, the norovirus’s genetic materials, and performs an important function throughout viral replication, making copies of the viral RNA. All these traits prompted us to experimentally take a look at whether or not the GII.4 RNA polymerase drives the formation of biomolecular condensates conducive to viral replication.”

“Our experimental research present that GII.4 RNA polymerase certainly types extremely dynamic liquid-like condensates at physiologically related situations within the lab and that the versatile area of this protein is crucial for this course of,” mentioned Prasad, professor of molecular virology and microbiology and Alvin Romansky Chair in Biochemistry at Baylor.

Prasad can also be a member of Baylor’s Dan L Duncan Comprehensive Cancer Center. “Furthermore, the condensates are extremely dynamic constructions: a number of can merge, forming a bigger construction, or they will divide into smaller ones; additionally they transfer contained in the cell, exchanging supplies with their environment.”

Next, the researchers investigated whether or not these liquid-like condensates are additionally fashioned in human norovirus-infected human intestinal cells.

Until not too long ago, learning how norovirus replicates inside cells has been troublesome as a result of researchers lacked an efficient organic system during which to develop the virus within the lab. But in 2016, the lab of Dr. Mary Estes at Baylor and colleagues succeeded at cultivating human norovirus strains in human intestinal enteroid cultures.

Also referred to as mini-guts, these cultures are a laboratory mannequin of the human gastrointestinal tract that recapitulates its mobile complexity, variety and physiology. Human enteroids mimic strain-specific host-virus an infection patterns, making them a perfect system to dissect human norovirus an infection, as within the present examine, to establish strain-specific progress necessities and develop and take a look at therapies and vaccines.

“We confirmed that liquid-like condensates are fashioned in human norovirus-infected human intestinal enteroid cultures in addition to within the HEK293T human cell line grown within the lab. We suggest that these condensates are replication hubs for human norovirus, a chic answer to the puzzling query of how ribosome-assisted translation of the viral genome is segregated from its replication by the viral polymerase in positive-strand RNA viruses,” Prasad mentioned.

“Our bioinformatics evaluation additionally confirmed that the RNA polymerases of virtually all of the norovirus strains have a excessive propensity to kind these replication factories, suggesting that this can be a standard phenomenon of most noroviruses.”

“This is a outstanding paper, and I used to be glad we may validate the findings in virus-infected cells utilizing our human intestinal enteroids cultivation system for human norovirus,” mentioned Estes, Distinguished Service Professor and Cullen Foundation Endowed Chair of molecular virology and microbiology at Baylor.

Estes is also the co-director of the Gastrointestinal Experimental Model Systems core on the Texas Medical Center Digestive Diseases Center and a member of Baylor’s Dan L Duncan Comprehensive Cancer Center.

The findings not solely present new perception into human norovirus replication but in addition open new targets for designing antivirals for human norovirus infections, which stay a critical menace in kids and immunocompromised sufferers.

Other contributors to this work embrace Ramakrishnan Anish, B. Vijayalakshmi Ayyar, Sreejesh Shanker, Gundeep Kaur, Sue E. Crawford, Jeroen Pollet and Fabio Stossi.

More data:
Soni Kaundal et al, RNA-dependent RNA polymerase of predominant human norovirus types liquid-liquid part condensates as viral replication factories, Science Advances (2024). DOI: 10.1126/sciadv.adp9333. www.science.org/doi/10.1126/sciadv.adp9333

Provided by
Baylor College of Medicine

Citation:
Discovery of norovirus replication hubs gives new antiviral targets (2024, December 20)
retrieved 22 December 2024
from https://medicalxpress.com/information/2024-12-discovery-norovirus-replication-hubs-antiviral.html

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Ella Bennet
Ella Bennet
Ella Bennet brings a fresh perspective to the world of journalism, combining her youthful energy with a keen eye for detail. Her passion for storytelling and commitment to delivering reliable information make her a trusted voice in the industry. Whether she’s unraveling complex issues or highlighting inspiring stories, her writing resonates with readers, drawing them in with clarity and depth.
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