Differential requirements for baculovirus late expression factor genes in two cell lines.

A plasmid library of 18 late expression factor (LEF) genes (LEF library) from the baculovirus Autographa californica nuclear polyhedrosis virus (AcMNPV) supports transient expression from a late viral promoter in the SF-21 cell line, derived from Spodoptera frugiperda. We found, however, that this LEF library was unable to support expression from the same promoter in the TN-368 cell line, derived from Trichoplusia ni, which is also permissive for AcMNPV replication. To identify the additional factor(s) required for expression in TN-368 cells, we cotransfected the LEF library with clones representing portions of the AcMNPV genome not represented in the LEF library. A single additional gene was identified; this gene corresponded to ORF70 of the complete AcMNPV sequence and potentially encodes a 34-kDa cysteine-rich polypeptide. Because of its differential effect on late gene expression in the two cell lines, we renamed ORF70 hcf-1 (for host cell-specific factor 1). hcf-1 was involved in expression from reporter plasmids under late and very late but not early promoter control, indicating that it was also a LEF gene. Plasmid DNA replication assays indicated that HCF-1 was involved in virus origin-specific DNA replication in TN-368 cells. Three LEF genes, ie-2, lef-7, and p35, required for optimal virus origin-specific plasmid DNA replication or stability in SF-21 cells had little or no influence in TN-368 cells. Thus, as determined by transient-expression assays, cell line-specific and potentially host-specific factors are required for origin-specific DNA replication or stability.     

棉铃虫单核衣壳核多角体病毒(HaSNPV)Hind III-L片段的序列分析

本文报道了棉铃虫单核衣壳核多角体病毒 (Helicoverpaarmigerasingle nucleocapsidnucleopolyhedrovirus,HaSNPV)基因组的HindIII L片段的全序列。该片段全长 2 6 35bp ,包括 5个有意义的开放阅读框 :HaSNPVORF2 2 7,晚期表达因子 10基因 (lef10 ) ,vp10 5 4基因 ,Ac5 5 (AcMNPVORF5 5的同源基因 ) ,Ac5 6 (AcMNPVORF5 6的同源基因 )。与其它 6种杆状病毒的氨基酸序列比较表明 ,HaSNPV的lef10基因与甜菜夜蛾核型多角体病毒 (SeMNPV)的同源性最高 ,为6 4 % ,与冷杉毒蛾核型多角体病毒 (OpMNPV)的同源性最低 ,为 4 3% ;HaSNPV的vp10 5 4基因与SeMNPV的同源性最高 ,为 6 5 % ,与OpMNPV的同源性最低 ,为 4 9%。序列比较表明 ,HaSNPV的LEF10与VP10 5 4蛋白与其它 6种杆状病毒具有相同的保守区和亮氨酸拉链 (leucinezipper)     

Reconstructing the replication complex of AcMNPV.

Baculoviruses are well known for their large, circular, double-stranded DNA genomes. The type member, AcMNPV, is the best characterized and undergoes a succession of early, late and very late gene expression during its infection cycle. The viral genes involved in DNA replication have previously been identified and their products are required for the activation of late gene expression. In this study, we FLAG- and HA-tagged the replication late expression factors of AcMNPV, examined their expression and functional activities by CAT assay and Western blot analysis, and determined their subcellular localization in transfected cells by subcellular fractionation and immunofluorescent microscopy. We found that all replication LEFs with the exception of P143 and P35 resided in the nucleus of transfected cells. We further investigated the interactions among various replication LEFs using both yeast two-hybrid and coprecipitation strategies. A summary of the interactive properties of the replication LEFs is presented and a model for a putative AcMNPV replication complex is offered.     

ORF390 of white spot syndrome virus genome is identified as a novel anti-apoptosis gene

Apoptosis serves as an important defense strategy employed by host cells against viral invasion. Many viruses contain the anti-apoptotic genes to block the defense-by-death response of host cells. In this study, we tried to identify the putative anti-apoptotic genes in white spot syndrome virus (WSSV) genome. We confirmed that actinomycin D could induce apoptosis of shrimp primary cells. However, the apoptosis triggered by actinomycin D was inhibited by WSSV infection. As mutants of Autographa californica nucleopolyhedrovirus (AcMNPV), AcMNPVDelta35k/pol+ lacks a functional P35 gene undergoing apoptosis and its infection could induce Sf9 cell apoptosis. To identify the putative apoptotic suppressor gene of WSSV, overlapping cosmid clones representing the entire WSSV genome were individually cotransfected along with genome DNA of AcMNPVDeltaP35k/pol+. Using this marker rescue assay, a WSSV DNA fragment that was able to rescue AcMNPVDeltaP35k/pol+ infection in Sf9 cells was isolated. By further sequence analysis and rescue assay, the ORF390 was identified as a novel anti-apoptotic gene. The ORF displays two putative caspase9 cleavage sites LLVETDGPS, VKLEHDGSK, and a caspase3 cleavage site EEDEVDGVP. The ORF was cloned into the pIE1 vector and then the recombinant vector was transfected into Sf9 cells. The Sf9 cells did not show obvious characteristics of apoptosis when infected with AcMNPVDeltaP35k/pol+. And the transient expression of ORF390 allowed AcMNPVDeltaP35k/pol+ replication in Sf9 cells and resulted in the formation of polyhedra successfully. The results indicate that function of ORF390 in WSSV is a kind of apoptotic suppressor like P35 in AcMNPV.     

斜纹夜蛾核多角体病毒几丁质酶基因上游4.0kb的序列分析

本文报道了斜纹夜蛾核多角体病毒几丁质酶基因(chiA)上游约4.0 kb范围内的序列,它包括了六个读码框(ORF1～6),其长度分别为156 bp、297 bp、540 bp、369 bp、1281 bp和228 bp,可编码的氨基酸长度分别为51、98、179、122、426和75个,分子量分别为6.15?kD、11.46 kD、21.70 kD、14.69 kD、47.59 kD和9.09 kD。在ORF1、ORF2、ORF3起始密码前分别有一个、二个及一个杆状病毒早期启动子基序CAGT;在ORF4、ORF5起始密码前各有一个及二个杆状病毒晚期启动子基序TAAG。在ORF1、ORF4、ORF5终止密码下游有真核生物mRNA转录poly(A)加尾信号。ORF4为AcMNPVORF53、BmNPVORF42、OpMNPVORF56、LdMNPVORF54的同源基因。ORF1、ORF2、ORF6与已知的杆状病毒基因没有同源性,可能为三个新的基因。     

Insecticidal activity of the chitinase from the Spodoptera litura nucleopolyhedrovirus

Baculovirus chitinase gene (chiA) is a late gene essential for liquefying the host insect at a late stage of infection for its hydrolyzing chitin function. In a previous report, baculovirus ChiA has been shown to offer many interesting new opportunities for pest control. Recently, a putative chiA gene was identified in the Korean isolate of the Spodoptera litura nucleopolyhedorvirus (SpliMNPV‐K1) genome. The open reading frame (ORF) contains 1692 nucelotides and encodes a protein of 563 amino acids with a predicted molecular weight of about 62.6 kDa. To study the insecticidal activity of ChiA from SpliMNPV‐K1, we constructed a recombinant AcMNPV, Ap‐SlChiA, which is designed to express the ChiA under the control of a polyhedrin promoter. Western blot analysis indicated that ChiA was successfully expressed by this recombinant virus. Chitinase assay revealed that the chitobiosidase and endochitinase activity of the recombinant virus was 2.5‐ and 3.9‐flods higher than those of wild‐type AcMNPV, respectively. In addition, the recombinant virus showed higher evident insecticidal activity against 3rd instar larvae of Spodotera exigua than that of the AcMNPV. These results suggest that the chiA gene from SpliMNPV‐K1 could be successfully applied to improve pathogenicity of baculoviruses.     

Responses of insect cells to baculovirus infection: protein synthesis shutdown and apoptosis.

Protein synthesis is globally shut down at late times postinfection in the baculovirus Autographa californica M nuclear polyhedrosis virus (AcMNPV)-infected gypsy moth cell line Ld652Y. A single gene, hrf-1, from another baculovirus, Lymantria dispar M nucleopolyhedrovirus, is able to preclude protein synthesis shutdown and ensure production of AcMNPV progeny in Ld652Y cells (S. M. Thiem, X. Du, M. E. Quentin, and M. M. Berner, J. Virol. 70:2221-2229, 1996; X. Du and S. M. Thiem, Virology 227:420-430, 1997). AcMNPV contains a potent antiapoptotic gene, p35, and protein synthesis arrest was reported in apoptotic insect cells induced by infection with AcMNPV lacking p35. In exploring the function of host range factor 1 (HRF-1) and the possible connection between protein synthesis shutdown and apoptosis, a series of recombinant AcMNPVs with different complements of p35 and hrf-1 were employed in apoptosis and protein synthesis assays. We found that the apoptotic suppressor AcMNPV P35 was translated prior to protein synthesis shutdown and functioned to prevent apoptosis. HRF-1 prevented protein synthesis shutdown even when the cells were undergoing apoptosis, but HRF-1 could not functionally substitute for P35. The DNA synthesis inhibitor aphidicolin could block both apoptosis and protein synthesis shutdown in Ld652Y cells infected with p35 mutant AcMNPVs but not the protein synthesis shutdown in wild-type AcMNPV-infected Ld652Y cells. These data suggest that protein synthesis shutdown and apoptosis are separate responses of Ld652Y cells to AcMNPV infection and that P35 is involved in inducing a protein synthesis shutdown response in the absence of late viral gene expression in Ld652Y cells. A model was developed for these responses of Ld652Y cells to AcMNPV infection.     

AcMNPVie—1基因诱导的斜纹夜蛾细胞凋亡

苜蓿丫纹夜蛾核多角体病毒 (Autographacalifornicamulticapsidnucleopolyhedrovirus,AcMNPV)感染可诱导斜纹夜蛾 (Spodopteralitura)离体细胞Sl zsu 1发生典型的细胞凋亡。通过细胞松弛素 (cytochalasinD)和NH4Cl的抑制实验 ,分别排除病毒粒子结合细胞受体蛋白 ,和病毒在核内体运输过程启动细胞凋亡信号发生的可能性。RT PCR实验证实 ,病毒基因组进入了细胞核 ,极早期基因ie 1开始了转录 ;而DNA聚合酶抑制剂 (芽栖菌素 )的存在对病毒诱导的细胞凋亡程度与进程均没有明显的影响。这说明细胞凋亡的信号是先于病毒晚期复制事件启动的。单独转染AcMNPV极早期基因ie 1可诱导斜纹夜蛾离体细胞系Sl zsu 1细胞发生部分凋亡 ,转染 2 4h后出现凋亡小体 ,4 8h达到高峰。提取转染细胞的总DNA电泳 ,可检测到典型的DNA梯形条带 (DNAladder)。另外 ,AcMNPV的ie 1基因温度敏感突变株tsB82 1在非受纳温度感染细胞时 ,细胞不发生凋亡。这些结果暗示 ,在AcMNPV感染诱导的Sl zsu 1细胞凋亡中 ,ie 1基因是一个凋亡信号的直接或间接诱导因子。     

RNA interference as a metabolic engineering tool: potential for in vivo control of protein expression in an insect larval model

Many ex vivo factors influence the yield of recombinant protein produced via AcMNPV (Autographa californica multiple nucleocapsid nuclear polyhedrosis virus) in Trichoplusia ni (T. ni) larvae. Among these are: the method of infection, the time of infection, the virus load, and the time of harvest. In vivo strategies, however, that attempt to manipulate host function in this and other expression systems have largely been ignored. In this work, RNA interference (RNAi) is shown as an effective metabolic engineering controller to downregulate targeted gene expression. Specifically, RNAi was made to virus-encoded gfp(uv) and was found to inhibit the production of GFPuv in larvae when injected within an 18-h window (before and after) of baculovirus infection. The level of inhibition was found to depend, both in duration and extent, on the concentration of injected RNAi. That relatively low levels of RNAi can inhibit protein synthesis driven by the strong polyhedrin (polh) promoter of AcMNPV, suggests that RNAi will find utility as an in vivo metabolic controller in metabolic engineering studies such as this one pertaining to protein expression.     

Analysis of Genes Expression of Spodoptera exigua Larvae upon AcMNPV Infection

Background

The impact of Autographa californica multicapsid nucleopolyhedrovirus (AcMNPV) infection on host gene expression in Spodoptera exigua 4th instar larvae was investigated through the use of 454 sequencing-based RNA-seq of cDNA libraries developed from insects challenged with active AcMNPV or heat-inactivated AcMNPV.

Methodology/Principal Findings

By comparing the two cDNA libraries, we show that 201 host genes are significantly up-regulated and 234 genes are significantly down-regulated by active AcMNPV infection. Down-regulated host genes included genes encoding antimicrobial peptides, namely three gloverin isoforms and an attacin, indicating that the viral infection actively repressed the expression of a portion of the host immune gene repertoire. Another interesting group of down-regulated host genes included genes encoding two juvenile hormone binding proteins and a hexamerin, all of which are involved in juvenile hormone regulation. The expression of these genes was enhanced by the topical application of Juvenile Hormone III (JHIII) in the insects challenged with heat-inactivated AcMNPV. However, infection with the active virus strongly suppresses the expression of these three genes, regardless of the absence or presence of JHIII.

Conclusions/Significance

Using RNA-seq, we have identified groups of immune-regulated and juvenile hormone-regulated genes that are suppressed by infection with active AcMNPV. This information and further studies on the regulation of host gene expression by AcMNPV will provide the tools needed to enhance the utility of the virus as an effective protein expression system and as an insecticide.     

The apoptotic suppressor P35 is required early during baculovirus replication and is targeted to the cytosol of infected cells.

The p35 gene of Autographa californica nuclear polyhedrosis virus (AcMNPV) is required to block virus-induced apoptosis. The trans-dominant activity of p35 suppresses premature cell death and facilitates AcMNPV replication in a cell line- and host-specific manner. To characterize the p35 gene product (P35), a specific polyclonal antiserum was raised. As revealed by immunoblot analyses of wild-type AcMNPV-infected cells, P35 appeared early (8 to 12 h) and accumulated through the late stages of infection (24 to 36 h). Biochemical fractionation of cells both early and late in infection and indirect immunochemical staining demonstrated that P35 localized predominantly to the cytosol (150,000 x g supernatant); comparatively minor quantities of P35 were associated with intracellular membranes. The cytoplasmic localization of P35 was independent of virus infection. The functional significance of the early and late synthesis of P35 was examined by constructing recombinant viruses in which the timing and level of p35 expression were altered. Delaying P35 synthesis by placing p35 under exclusive control of a strong, very late promoter failed to suppress intracellular DNA fragmentation and apoptotic blebbing in most cells. Thus, earlier expression of p35 was required to block virus-induced apoptosis. Site-specific mutagenesis of the p35 promoter demonstrated that low levels of P35 were sufficient to block apoptosis, whereas higher levels were required to maintain wild-type virus gene expression. Consistent with an early role in infection, P35 was also detected in the budded form of AcMNPV. Because of the lack of sequence similarity and its cytosolic targeting, P35 may function in a manner that is mechanistically distinct from other apoptotic regulators, including Bcl-2 and the adenovirus E1B 19-kDa protein.     

Central role of hemocytes in Autographa californica M nucleopolyhedrovirus pathogenesis in Heliothis virescens and Helicoverpa zea

Autographa californica M nucleopolyhedrovirus (AcMNPV) can infect and kill a wide range of larval lepidopteran hosts, but the dosage required to achieve mortal infection varies greatly. Using a reporter gene construct, we identified key differences between AcMNPV pathogenesis in Heliothis virescens and Helicoverpa zea, a fully permissive and a semipermissive host, respectively. Even though there was more than a 1,000-fold difference in the susceptibilities of these two species to mortal infection, there was no significant difference in their susceptibilities to primary infections in the midgut or secondary infections in the tracheal epidermis. Foci of infection within the tracheal epidermis of H. zea, however, were melanized and encapsulated by 48 h after oral inoculation, a host response not observed in H. virescens. Further, H. zea hemocytes, unlike those of H. virescens, were highly resistant to AcMNPV infection; reporter gene expression was observed only rarely even though virus was taken up readily, and nucleocapsids were transported to the nucleus. Collectively, these results demonstrated that hemocytes-by removing virus from the hemolymph instead of amplifying it and by participating in the encapsulation of infection foci-together with the host's melanization response, formed the basis of H. zea's resistance to fatal infection by AcMNPV.