Conserved Rotavirus NSP5 and VP2 Domains Interact and Affect Viroplasm

Overview

Journal J Virol

Publisher American Society for Microbiology

Date 2020 Jan 10

PMID 31915278

Citations 13

Authors

Antonino Buttafuoco

Kevin Michaelsen

Kurt Tobler

Mathias Ackermann

Cornel Fraefel

Catherine Eichwald

Affiliations

Soon will be listed here.

Abstract

One step of the life cycle common to all rotaviruses (RV) studied so far is the formation of viroplasms, membrane-less cytosolic inclusions providing a microenvironment for early morphogenesis and RNA replication. Viroplasm-like structures (VLS) are simplified viroplasm models consisting of complexes of nonstructural protein 5 (NSP5) with the RV core shell VP2 or NSP2. We identified and characterized the domains required for NSP5-VP2 interaction and VLS formation. VP2 mutations L124A, V865A, and I878A impaired both NSP5 hyperphosphorylation and NSP5/VP2 VLS formation. Moreover, NSP5-VP2 interaction does not depend on NSP5 hyperphosphorylation. The NSP5 tail region is required for VP2 interaction. Notably, VP2 L124A expression acts as a dominant-negative element by disrupting the formation of either VLS or viroplasms and blocking RNA synthesis. analyses revealed that VP2 L124, V865, and I878 are conserved among RV species A to H. Detailed knowledge of the protein interaction interface required for viroplasm formation may facilitate the design of broad-spectrum antivirals to block RV replication. Alternative treatments to combat rotavirus infection are a requirement for susceptible communities where vaccines cannot be applied. This demand is urgent for newborn infants, immunocompromised patients, adults traveling to high-risk regions, and even for the livestock industry. Aside from structural and physiological divergences among RV species studied before now, all replicate within cytosolic inclusions termed viroplasms. These inclusions are composed of viral and cellular proteins and viral RNA. Viroplasm-like structures (VLS), composed of RV protein NSP5 with either NSP2 or VP2, are models for investigating viroplasms. In this study, we identified a conserved amino acid in the VP2 protein, L124, necessary for its interaction with NSP5 and the formation of both VLSs and viroplasms. As RV vaccines cover a narrow range of viral strains, the identification of VP2 L124 residue lays the foundations for the design of drugs that specifically block NSP5-VP2 interaction as a broad-spectrum RV antiviral.

Citing Articles

Characterization of viroplasm-like structures by co-expression of NSP5 and NSP2 across rotavirus species A to J.

Lee M, Cosic A, Tobler K, Aguilar C, Fraefel C, Eichwald C J Virol. 2024; 98(9):e0097524.

PMID: 39194242 PMC: 11423710. DOI: 10.1128/jvi.00975-24.

Rotavirus NSP2: A Master Orchestrator of Early Viral Particle Assembly.

Nichols S, Haller C, Borodavka A, Esstman S Viruses. 2024; 16(6).

PMID: 38932107 PMC: 11209291. DOI: 10.3390/v16060814.

Emergence of a Novel G4P[6] Porcine Rotavirus with Unique Sequence Duplication in NSP5 Gene in China.

Zhou X, Hou X, Xiao G, Liu B, Jia H, Wei J Animals (Basel). 2024; 14(12).

PMID: 38929409 PMC: 11200575. DOI: 10.3390/ani14121790.

The Role of the Host Cytoskeleton in the Formation and Dynamics of Rotavirus Viroplasms.

Vetter J, Lee M, Eichwald C Viruses. 2024; 16(5).

PMID: 38793550 PMC: 11125917. DOI: 10.3390/v16050668.

The recruitment of TRiC chaperonin in rotavirus viroplasms correlates with virus replication.

Vetter J, Papa G, Tobler K, Rodriguez J, Kley M, Myers M mBio. 2024; 15(4):e0049924.

PMID: 38470055 PMC: 11005421. DOI: 10.1128/mbio.00499-24.

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