Myristoylation of the arterivirus E protein: the fatty acid modification is not essential for membrane association but contributes significantly to virus infectivity

Thaa, Bastian; Kabatek, Aleksander; Zevenhoven-Dobbe, Jessika C.; Snijder, Eric J.; Herrmann, Andreas; Veit, Michael

doi:10.1099/vir.0.011957-0

Cited by 17 publications

(18 citation statements)

References 43 publications

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“…The E protein sequences of EAV, PRRSV and LDV contain a conserved N-terminal myristoylation site (Thaa et al, 2009). Inhibition of myristoylation during EAV replication decreased virus infectivity and plaque size but not the amount of extracellular virus suggesting that myristoylation of E is not required for virion budding or release but facilitates infectivity (Thaa et al, 2009). The SHFV E protein sequence contains the conserved N-terminal myristoylation site but the SHFV E′ protein sequence does not.…”

Section: Discussionmentioning

confidence: 99%

Each of the eight simian hemorrhagic fever virus minor structural proteins is functionally important

et al. 2014

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The simian hemorrhagic fever virus (SHFV) genome differs from those of other members of the family Arterivirus in encoding two adjacent sets of four minor structural protein open reading frames (ORFs). A stable, full-length, infectious SHFV-LVR cDNA clone was constructed. Virus produced from this clone had replication characteristics similar to those of the parental virus. A subgenomic mRNA was identified for the SHFV ORF previously identified as 2b. As an initial means of analyzing the functional relevance of each of the SHFV minor structural proteins, a set of mutant infectious clones was generated, each with the start codon of one minor structural protein ORF mutated. Different phenotypes were observed for each ortholog of the pairs of minor glycoproteins and all of the eight minor structural proteins were required for the production of infectious extracellular virus indicating that the duplicated sets of SHFV minor structural proteins are not functionally redundant.

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Section: Discussionmentioning

confidence: 99%

Each of the eight simian hemorrhagic fever virus minor structural proteins is functionally important

et al. 2014

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“…; Thepparit et al., ) to examine NMT1 gene expression in human dendritic cells at different time‐points postinfection. The results revealed the significant upregulation of NMT1 at 1, 12, and 36 hr, which might represent the time period of DENV infection, and which suggests NMT‐related membrane‐associated viral entry (Abou‐Jaoude, Molina, Maurel, & Sureau, ; Maurer‐Stroh & Eisenhaber, ; Thaa et al., ), transcription and endoplasmic reticulum involvement (Moriya et al., ), and viral exocytosis (Figure ).…”

Section: Discussionmentioning

confidence: 92%

Inhibition of N‐myristoyltransferase1 affects dengue virus replication

et al. 2019

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Dengue virus (DENV) causes dengue fever, a self‐limiting disease that could be fatal due to serious complications. No specific treatment is currently available and the preventative vaccine is only partially protective. To develop a potential drug target for dengue fever, we need to understand its biology and pathogenesis thoroughly. N‐myristoyltransferase (NMT) is an N‐terminal protein lipidation enzyme that catalyzes the covalent cotranslational attachment of fatty acids to the amino‐terminal glycine residue of a number of proteins, leading to the modulation of various signaling molecules. In this study, we investigated the interaction of dengue viral proteins with host NMT and its subsequent effect on DENV. Our bioinformatics, molecular docking, and far‐western blotting analyses demonstrated the interaction of viral envelope protein (E) with NMT. The gene expression of NMT was strongly elevated in a dependent manner during the viral replication phase in dendritic cells. Moreover, NMT gene silencing significantly inhibited DENV replication in dendritic cells. Further studies investigating the target cell types of other host factors are suggested.

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“…virus (12,28,45), Junín virus (88), lymphocytic choriomeningitis virus (62), and equine arteritis virus (75), have evolved to capitalize on the unique properties of myristate for efficient cell entry or membrane fusion. The viral membrane fusion protein(s) of VACV has yet to be identified, although the A17-A27 complex (41) and the EFC constituent H2 (50) have been proposed as candidates.…”

Section: Discussionmentioning

confidence: 99%

The Myristate Moiety and Amino Terminus of Vaccinia Virus L1 Constitute a Bipartite Functional Region Needed for Entry

Foo

Whitbeck

Ponce-de-León

et al. 2012

J Virol

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Vaccinia virus (VACV) L1 is a myristoylated envelope protein which is required for cell entry and the fusion of infected cells. L1 associates with members of the entry-fusion complex (EFC), but its specific role in entry has not been delineated. We recently demonstrated (Foo CH, et al., Virology 385:368 -382, 2009) that soluble L1 binds to cells and blocks entry, suggesting that L1 serves as the receptor-binding protein for entry. Our goal is to identify the structural domains of L1 which are essential for its functions in VACV entry. We hypothesized that the myristate and the conserved residues at the N terminus of L1 are critical for entry. To test our hypothesis, we generated mutants in the N terminus of L1 and used a complementation assay to evaluate their ability to rescue infectivity. We also assessed the myristoylation efficiency of the mutants and their ability to interact with the EFC. We found that the N terminus of L1 constitutes a region that is critical for the infectivity of VACV and for myristoylation. At the same time, the nonmyristoylated mutants were incorporated into mature virions, suggesting that the myristate is not required for the association of L1 with the viral membrane. Although some of the mutants exhibited altered structural conformations, two mutants with impaired infectivity were similar in conformation to wild-type L1. Importantly, these two mutants, with changes at A4 and A5, undergo myristoylation. Overall, our results imply dual differential roles for myristate and the amino acids at the N terminus of L1. We propose a myristoyl switch model to describe how L1 functions. P oxviruses are unique DNA viruses that replicate in the cytoplasm and employ a multifaceted form of morphogenesis (18). Vaccinia virus (VACV) is the prototype virus that has been used to study the replication of poxviruses (40, 48), and in an attenuated form the virus was deployed as a vaccine for the global eradication of smallpox (30,39). Multiple infectious forms of VACV are produced during viral replication. The majority of the infectious progeny virions are single-enveloped mature virions (MV), which form adjacent to virus replication sites and are released only by cell lysis.During the initial step of entry, the MV utilizes four envelope proteins, A27, H3, D8, and A26, to mediate attachment to a variety of cell surface molecules, such as heparan sulfate proteoglycan (HSPG) (16, 44), chondroitin sulfate proteoglycan (34), and the extracellular matrix protein laminin (15). After adsorption, the virion can use pH-dependent or pH-independent pathways to enter cells (6,14,47,60,83). The specific viral proteins responsible for receptor binding, virus internalization, the triggering of viruscell fusion, and membrane fusion itself are poorly defined. Components of a conserved, multiprotein entry-fusion complex (EFC) are proposed to perform certain nonredundant functions that are critical for entry (8, 11, 38, 52, 53, 61, 64-66, 76-78, 85). Eleven proteins have thus far been identified to form the massive complex ...

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Myristoylation of the arterivirus E protein: the fatty acid modification is not essential for membrane association but contributes significantly to virus infectivity

Cited by 17 publications

References 43 publications

Each of the eight simian hemorrhagic fever virus minor structural proteins is functionally important

Each of the eight simian hemorrhagic fever virus minor structural proteins is functionally important

Inhibition of N‐myristoyltransferase1 affects dengue virus replication

The Myristate Moiety and Amino Terminus of Vaccinia Virus L1 Constitute a Bipartite Functional Region Needed for Entry

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