Mingjuan Du scite author profile

The ICP34.5 protein of herpes simplex virus type 1 is a neurovirulence factor that plays critical roles in viral replication and anti-host responses. One of its functions is to recruit protein phosphatase 1 (PP1) that leads to the dephosphorylation of the ␣ subunit of translation initiation factor eIF2 (eIF2␣), which is inactivated by infection-induced phosphorylation. As PP1 is a protein phosphatase with a wide range of substrates, the question remains to be answered how ICP34.5 directs PP1 to specifically dephosphorylate eIF2␣. Here we report that ICP34.5 not only binds PP1 but also associates with eIF2␣ by in vitro and in vivo assays. The binding site of eIF2␣ is identified at amino acids 233-248 of ICP34.5, which falls in the highly homologous region with human gene growth arrest and DNA damage 34. The interaction between ICP34.5 and eIF2␣ is independent of the phosphorylation status of eIF2␣ at serine 51. Deletion mutation of this region results in the failure of dephosphorylation of eIF2␣ by PP1 and, consequently, interrupts viral protein synthesis and replication. Our data illustrated that the binding between viral protein ICP34.5 and the host eIF2␣ is crucial for the specific dephosphorylation of eIF2␣ by PP1. We propose that herpes simplex virus protein ICP34.5 bridges PP1 and eIF2␣ via their binding motifs and thereby facilitates the protein synthesis and viral replication.Viral infection can activate a series of host immune responses. One of the essential responses is the interruption of the viral protein synthesis, which is executed by doublestranded RNA-dependent protein kinase (PKR) (1). PKR is induced and activated upon viral infection and leads to the phosphorylation of the ␣ subunit of translation initiation factor eIF2 (eIF2␣) 2 at serine 51 (2). The phosphorylation of eIF2␣ globally inhibits the synthesis of viral proteins and cellular proteins (3), thus halting the viral replication.Many viruses have evolved strategies to counteract the antiviral response of PKR (4). For example, PKR activity can be inhibited by HIV-encoded Tar (5), hepatitis C virus NS5A (6), influenza virus NS1 (7), and so forth. In addition to affecting PKR activation as mentioned above, HSV-1 adopted mechanisms not only inhibiting PKR by Us11 (8) but also reversing the biochemical reaction catalyzed by PKR with its neurovirulent factor ICP34.5 (9).ICP34.5 is encoded by the ␥ 1 34.5 gene of HSV-1 and HSV-2. The HSV-1(F) ICP34.5 consists of 263 amino acids and can be divided into three domains: an amino-terminal domain, a linker region of ATP (Ala-Thr-Pro) repeats, and a carboxyl-terminal domain (9, 10). The function of the amino-terminal domain is implicated in the control of TBK1-mediated signaling (11) and also related to autophagy (12). The linker region, with a varying number of the Ala-Thr-Pro repeats, may affect the protein localization (13). The carboxyl-terminal domain is a stretch of 84 amino acids containing a consensus binding motif (R/KVXF) for protein phosphatase 1 (PP1) followed by an Ala-Arg-rich motif and i...

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Characterization of a Self-renewing and Multi-potent Cell Population Isolated from Human Minor Salivary Glands

Lin

Du²,

Zhang

et al. 2015

Sci Rep

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Adult stem cells play an important role in maintaining tissue homeostasis. Although these cells are found in many tissues, the presence of stem cells in the human minor salivary glands is not well explored. Using the explant culture method, we isolated a population of cells with self-renewal and differentiation capacities harboring that reside in the human minor salivary glands, called human minor salivary gland mesenchymal stem cells (hMSGMSCs). These cells show embryonic stem cell and mesenchymal stem cell phenotypes. Our results demonstrate that hMSGMSCs have the potential to undergo mesodermal, ectodermal and endodermal differentiation in conditioned culture systems in vitro. Furthermore, in vivo transplantation of hMSGMSCs into SCID mice after partial hepatectomy shows that hMSGMSCs are able to survive and engraft, characterized by the survival of labeled cells and the expression of the hepatocyte markers AFP and KRT18. These data demonstrate the existence of hMSGMSCs and suggest their potential in cell therapy and regenerative medicine.

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Autocrine‐Based Selection of Drugs That Target Ion Channels from Combinatorial Venom Peptide Libraries

Zhang

Xie

et al. 2016

Angew Chem Int Ed

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Animal venoms represent a rich source of pharmacologically active peptides that interact with ion channels. However, a challenge to discovering drugs remains because of the slow pace at which venom peptides are discovered and refined. An efficient autocrine-based high-throughput selection system was developed to discover and refine venom peptides that target ion channels. The utility of this system was demonstrated by the discovery of novel Kv1.3 channel blockers from a natural venom peptide library that was formatted for autocrine-based selection. We also engineered a Kv1.3 blocker peptide (ShK) derived from sea anemone to generate a subtype-selective Kv1.3 blocker with a long half-life in vivo.

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Molecular deconvolution of the neutralizing antibodies induced by an inactivated SARS-CoV-2 virus vaccine

Wang

et al. 2021

Protein Cell

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A general Fc engineering platform for the next generation of antibody therapeutics

Chen

Zhao

et al. 2021

Theranostics

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Mingjuan Du

ICP34.5 Protein of Herpes Simplex Virus Facilitates the Initiation of Protein Translation by Bridging Eukaryotic Initiation Factor 2α (eIF2α) and Protein Phosphatase 1

Characterization of a Self-renewing and Multi-potent Cell Population Isolated from Human Minor Salivary Glands

Autocrine‐Based Selection of Drugs That Target Ion Channels from Combinatorial Venom Peptide Libraries

Molecular deconvolution of the neutralizing antibodies induced by an inactivated SARS-CoV-2 virus vaccine

A general Fc engineering platform for the next generation of antibody therapeutics

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