Uyanga Chuluunbaatar scite author profile

All viruses require cellular ribosomes to translate their mRNAs. Viruses producing methyl-7 (m 7 ) GTP-capped mRNAs, like Herpes Simplex Virus-1 (HSV-1), stimulate cap-dependent translation by activating mTORC1 to inhibit the translational repressor 4E-binding protein 1 (4E-BP1). Here, we establish that the HSV-1 kinase Us3 masquerades as Akt to activate mTORC1. Remarkably, Us3 displays no sequence homology with the cellular kinase Akt, yet directly phosphorylates tuberous sclerosis complex 2 (TSC2) on the same sites as Akt. TSC2 depletion rescued Us3-deficient virus replication, establishing that Us3 enhances replication by phosphorylating TSC2 to constitutively activate mTORC1, effectively bypassing S6K-mediated feedback inhibition. Moreover, Us3 stimulated Akt substrate phosphorylation in infected cells, including FOXO1 and GSK3. Thus, HSV-1 encodes an Akt surrogate with overlapping substrate specificity to activate mTORC1, stimulating translation and virus replication. This establishes Us3 as a unique viral kinase with promising drug development potential.[Keywords: Translational control; herpesvirus replication; viral kinase; mTOR activation; Akt signaling] Supplemental material is available at http://www.genesdev.org.

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Suppression of Extracellular Signal-Regulated Kinase Activity in Herpes Simplex Virus 1-Infected Cells by the Us3 Protein Kinase

Chuluunbaatar

Roller

Mohr

2012

J Virol

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A herpesvirus kinase that masquerades as Akt

Chuluunbaatar

Mohr

2011

Cell Cycle

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The cellular protein synthesis machinery is tightly regulated and capable of rapid reaction to a variety of physiological inputs critical in stress-response, cell cycle control, cancer biology, and virus infection. One important strategy for stimulating protein synthesis involves the ser/thr kinase Akt, which subsequently triggers inactivation of the cap-dependent translational repressor 4E-BP1 by an mTOR-containing protein complex (mTORC1). A recent paper demonstrated that herpes simplex virus utilizes a remarkable tactic to activate mTOR in infected cells. Instead of using the cellular Akt, the virus produces a ser / thr kinase called Us3 that doesn't look like Akt, but masquerades as Akt. By making the Akt-like protein unrecognizable, this disguise allows it to bypass the strict limits normally imposed on the real cellular Akt. Importantly, preventing the virus Akt-imposter from triggering mTORC1 inhibited viral growth, suggesting a new way to block herpes simplex virus. This study also raises the possibility that other Akt-impersonators may lurk hidden in our own genomes, possibly contributing to diseases ranging from diabetes to cancer.

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