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...
Background: Avian influenza virus H5N1 is a major concern as a potential global pandemic. It is thought that multiple key events must take place before efficient human-to-human transmission of the virus occurs. The first step in overcoming host restriction is viral entry which is mediated by HA, responsible for both viral attachment and viral/host membrane fusion. HA binds to glycanscontaining receptors with terminal sialic acid (SA). It has been shown that avian influenza viruses preferentially bind to α2,3-linked SAs, while human influenza A viruses exhibit a preference for α2,6-linked SAs. Thus it is believed the precise linkage of SAs on the target cells dictate host
Objective: Steroidogenic acute regulatory (STAR) protein plays a crucial role in steroidogenesis, and mutations in the STAR gene cause congenital lipoid adrenal hyperplasia (CLAH). This study investigated the STAR mutation spectrum and functionally analyzed a novel STAR mutation in Korean patients with CLAH. Methods: Mutation analysis of STAR was carried out in 25 unrelated Korean CLAH patients. A region of STAR comprising exons 4-7 was cloned from human genomic DNA into an expression vector, followed by site-directed mutagenesis and transient expression in COS7 cells. The splicing pattern was analyzed by in vitro transcription, and each transcript was functionally characterized by measuring pregnenolone production in COS7 cells cotransfected with the cholesterol side chain cleavage system. Results: Mutation p.Q258X was identified in 46 of 50 alleles (92%); mutation c.653COT was detected in two alleles (4%); and mutations p.R182H and c.745-6_810del were found in one allele (2%). Reverse transcriptase-PCR products amplified from a patient heterozygous for compound c.653COT and c.745-6_810del mutation revealed multiple alternatively spliced mRNAs. In vitro expression analysis of a minigene consisting of exons 4-7 containing the c.653COT yielded two transcripts in which exon 6 or exons 5 and 6 were skipped. The encoded proteins exhibited defective pregnenoloneproducing ability. The c.745-6_810del mutation led to full and partial intron retention. Conclusions: p.Q258X is the most common STAR mutation in Korea. A previously reported c.653COT variant was found to cause aberrant splicing at the mRNA level, resulting in perturbation of STAR function. The c.745-6_810del mutation also resulted in aberrant splicing.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.