Inhibition of Polyamine Biosynthesis Is a Broad-Spectrum Strategy against RNA Viruses

RNA viruses present an extraordinary threat to human health, given their sudden and unpredictable appearance, the potential for rapid spread among the human population, and their ability to evolve resistance to antiviral therapies. The recent emergence of chikungunya virus, Zika virus, and Ebola virus highlights the struggles to contain outbreaks. A significant hurdle is the availability of antivirals to treat the infected or protect at-risk populations. While several compounds show promise in vitro and in vivo, these outbreaks underscore the need to accelerate drug discovery. The replication of several viruses has been described to rely on host polyamines, small and abundant positively charged molecules found in the cell. Here, we describe the antiviral effects of two molecules that alter polyamine levels: difluoromethylornithine (DFMO; also called eflornithine), which is a suicide inhibitor of ornithine decarboxylase 1 (ODC1), and diethylnorspermine (DENSpm), an activator of spermidine/spermine N1-acetyltransferase (SAT1). We show that reducing polyamine levels has a negative effect on diverse RNA viruses, including several viruses involved in recent outbreaks, in vitro and in vivo. These findings highlight the importance of the polyamine biosynthetic pathway to viral replication, as well as its potential as a target in the development of further antivirals or currently available molecules, such as DFMO. Ed Rybicki’s insight:This is an important development in virology – because, while it has been known for many years that polyamines stabilise ssNAs, it was not obvious how to use this knowledge to combat virus infections. And now we do. Nice paper!See it on Scoop.it, via Viruses and Bioinformatics from Virology.uvic.ca
Inhibition of Polyamine Biosynthesis Is a Broad-Spectrum Strategy against RNA Viruses
Source: Viral Bioinformatics

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