Herpes Simplex Virus Uses MicroRNA to Hide Out in Cells
Herpes Treatment
'Although miRNAs encoded by cellular genes are known to be an important mechanism for controlling gene expression, this is one of the first miRNA found to be encoded by a viral genome,' says Fraser. 'Our study helps show how HSV-1 can maintain a latent infection for the lifetime of an infected individual.'
The LAT gene was discovered by Fraser and colleagues in 1984, but a protein product from this gene has never been found. This caused Fraser and his research team to hypothesize that LAT may work through an miRNA molecule, which is a small piece of the LAT gene. It interferes with the translation of two cell proteins that are required for cell death: TGF-b and SMAD-3. The LAT miRNA binds to specific sequences of messenger RNA from these two genes and causes them to be degraded. Thus, the amount of TGF-b and SMAD-3 protein is reduced in the cell and apoptosis is prevented. Because the latent virus is not producing any viral proteins the immune system of the infected individual cannot detect the infected cell.
Latent HSV-1 infections form in neuronal cells of the peripheral nervous system. When a latent infection is reactivated (by stress of many kinds), HSV-1 proteins are synthesized and new infectious virus particles are formed. These virus particles migrate along the neuronal axons to the epithelial cells of the skin. Viral growth in the skin, or other mucous membranes where nerves are found, causes cell damage and an immune reaction that results in a painful sore. Although the latency-to-reactivation process is not fully understood, it is known to involve stress, such as physical damage, ultraviolet light, hormones, or even fever.
Fraser is currently testing whether HSV-2, a relative of HSV-1 that causes genital herpes, also encodes an miRNA molecule in its LAT gene. 'MiRNA may be a more general mechanism that latent viruses use to remain alive in the host cell,' suggests Fraser.
Present treatments of HSV-1 rely on acyclovir-based drugs that target the viral polymerase and inhibit viral DNA replication during the acute infection. However, they do not target the latent infection, and thus cold sores return throughout the lifetime of the infected individual. Finding an miRNA that interacts with the cellular TGF-b pathway during latency offers the first target against the latent infection and offers a profoundly different approach to treatment, concludes Fraser.
The study co-authors are Ananya Gupta, Jarred J. Garner, Praveen Sethupathy, and Artemis G. Hatzigeorgiou, all from Penn. The study was funded in part by grants from the National Institutes of Health.
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