Activation pathways and signal-mediated upregulation of the insect Spodoptera frugiperda caspase-1.

Sf-caspase-1 is the most studied effector caspase of Lepidoptera. Its activation is believed to follow a two-step mechanism: The first step requires cleavage by an initiator caspase at D195 (between the large and small subunits) releasing the C-terminal small subunit. This is blocked by the baculovirus caspase inhibitor P49. The second step removes the N-terminal prodomain by cleavage at D28 to generate the large subunit that is blocked by the baculovirus caspase inhibitor P35. In this study, we identified an alternative mechanism of Sf-caspase-1 activation. This additional two-step mechanism involves first cleavage of pro-Sf-caspase-1 at D28 to remove the N-terminal prodomain and subsequently cleavage at D195 to generate the large and small subunits. Both mechanisms are triggered by apoptotic stimuli following a distinct pattern. We also showed that expression of Sf-caspase-1 was upregulated upon reception of apoptotic stimuli. Different from all published data, this upregulation occurred as a post-transcriptional event. Moreover, we proved that the stronger the stimuli, the higher the upregulation. And we demonstrated that P49 and P35 inhibited the cleavage at D28 and D195 respectively, independently of wether the first cleavage was at D195 or at D28.

Spodoptera littoralis caspase-1, a Lepidopteran effector caspase inducible by apoptotic signaling.

The baculovirus Autographa californica multiple nucleopolyhedrovirus (AcMNPV) can successfully infect Spodoptera frugiperda SF9 cells, but in contrast, in Spodoptera littoralis SL2 cells it induces apoptosis aborting the infection. To understand better the mechanism of induction and execution of apoptosis in SL2 cells, we identified and characterized the first Spodoptera littoralis caspase, Sl-caspase-1. Sl-caspase-1 is an effector caspase that cleaves DEVD but not IETD and LEHD substrates, and the caspase-3 inhibitor DQMD-CHO inhibited this activity. It was involved in two apoptotic pathways induced by UV irradiation and virus infection. Moreover processing of Sl-caspase-1 was a determinant factor for baculovirus induction of apoptosis in SL2 cells. Since very little is known on the regulation of expression of Lepidopteran caspases, we studied Sl-caspase-1 expression after exposure to apoptosis stimuli. We found that triggering apoptosis in SL2 cells increased the steady-state level of Sl-caspase-1 without changing the level of sl-caspase-1 mRNA, suggesting that Sl-caspase-1 was post-transcriptionally up regulated. This regulation might occur as an early event in transduction of the apoptotic signal.

Aphid transmission of a potyvirus depends on suitability of the helper component and the N terminus of the coat protein.

The present study investigates the specificity of potyviruses for aphid species. Two potyviruses differing in their host range were used: Zucchini yellow mosaic virus (ZYMV) mainly infecting cucurbits and Turnip mosaic virus (TuMV) mainly infecting crucifers. Two sets of aphids species were used as vectors, one polyphagous (Myzus persicae and Aphis gossypii) and the other from crucifers (Brevicoryne brassicae and Lipaphis erysimi). Evidence is provided that the specificity between a vector and a potyvirus depends either on the affinity between the aphid species and the helper component (HC) protein used or on the affinity between the HC and the virions. The difference between the two potyviruses cannot be attributed to the DAG domain which is unaltered in both N termini of the CP. Therefore, a ZYMV full length clone served to exchange a fragment encoding for the N terminus of the ZYMV CP by that of TuMV. This partial exchange in the ZYMV CP, allowed the TuMV HC to transmit the chimeric virus but not the wild type ZYMV. The significance of the N terminus context of the CP in the specificity for the HC is discussed.

Comparison of newly isolated cuticular protein genes from six aphid species.

This paper reports on the first aphids' cuticular proteins. One gene (Mpcp1) was obtained by screening a cDNA library of Myzus persicae with antibodies to a lepidopteran cuticle protein. MpCP1 presents a putative signal peptide, a central extended R&R domain, flanked by N- and C-terminal repeats of alanine, tyrosine and proline. The mRNA of Mpcp1 could be detected in a larval and in adult stages. Primers based on Mpcp1 allowed isolating and comparing cuticle protein genes from five aphid species, but not from whitefly or thrips. Comparison revealed a high degree of similarity. Data from this paper suggest that this cuticle protein family is typical and predominant to aphids. The conformation of these cuticle proteins and the significance on particular properties of aphid cuticle is discussed.

Isolation of a novel collagen gene (Mj-col-5) in Meloidogyne javanica and analysis of its expression pattern.

Mj-col-5, isolated from the plant parasitic nematode Meloidogyne javanica, has a longer carboxy-terminus than other members of the Caenorhabditis elegans COL-6 subfamily of cuticle collagen, including an extra tyrosine residue, and may form altered nonreducible cross-linkages. By semiquantitative determination at different life stages, Mj-col-5 transcript was shown to be more abundant in eggs than in juveniles/young females and adult females. To characterize further this gene's contribution to the changing cuticle of the nematode, we expressed a fusion protein containing a nonconserved 58-amino-acid sequence from the putative Mj-col-5 gene product and raised rabbit antiserum against the fusion protein. The antiserum detected a strongly reacting band (36 kDa, designated MJE36) on western blots of M. javanica eggs extracted with beta-mercaptoethanol. MJE36 was sensitive to collagenase and was not detected on western blots of extracts from M. javanica second-stage juveniles or adult females. A band of the same molecular size was detected in Meloidogyne incognita egg extracts but not in those of Heterodera avenae. Immunoblot indicated that MJE36 is not present in egg shells of M. javanica.

Folding and activity of recombinant human procollagen C-proteinase enhancer.

Recombinant human procollagen C-proteinase enhancer (rPCPE) was expressed using a baculovirus system and purified to homogeneity using a three-step procedure including heparin affinity chromatography. Heparin binding was dependent on the C-terminal netrin-like domain. The recombinant protein was found to be active, increasing the activity of procollagen C-proteinase/bone morphogenetic protein-1 on type I procollagen in a manner comparable to the native protein. Enhancing activity was dependent on intact disulfide bonding within the protein. By circular dichroism, the observed secondary structure of rPCPE was consistent with the known three-dimensional structures of proteins containing homologous domains.

A point mutation in the ethylene-inducing xylanase elicitor inhibits the beta-1-4-endoxylanase activity but not the elicitation activity.

Ethylene-inducing xylanase (EIX) elicits plant defense responses in certain tobacco (Nicotiana tabacum) and tomato cultivars in addition to its xylan degradation activity. It is not clear, however, whether elicitation occurs by cell wall fragments released by the enzymatic activity or by the xylanase protein interacting directly with the plant cells. We cloned the gene encoding EIX protein and overexpressed it in insect cells. To determine the relationship between the two activities, substitution of amino acids in the xylanase active site was performed. Substitution at glutamic acid-86 or -177 with glutamine (Gln), aspartic acid (Asp), or glycine (Gly) inhibited the beta-1-4-endoxylanase activity. Mutants having Asp-86 or Gln-177 also lost the ability to induce the hypersensitive response and ethylene biosynthesis. However, mutants having Gln-86, Gly-86, Asp-177, or Gly-177 retained ability to induce ethylene biosynthesis and the hypersensitive response. Our data show that the xylanase activity of EIX elicitor can be separated from the elicitation process, as some of the mutants lack the former but retain the latter.

Isolation of an apoptosis suppressor gene of the Spodoptera littoralis nucleopolyhedrovirus.

Spodoptera frugiperda SF9 cells infected with mutants of the Autographa californica nucleopolyhedrovirus (AcMNPV) which lack a functional p35 gene undergo apoptosis, aborting the viral infection. The Spodoptera littoralis nucleopolyhedrovirus (SlNPV) was able to suppress apoptosis triggered by vDeltaP35K/pol+, an AcMNPV p35 null mutant. To identify the putative apoptotic suppressor gene of SlNPV, overlapping cosmid clones representing the entire SlNPV genome were individually cotransfected along with genomic DNA of vDeltaP35K/pol+. Using this complementation assay, we isolated a SlNPV DNA fragment that was able to rescue the vDeltaP35K/pol+ infection in SF9 cells. By further subcloning and rescue, we identified a novel SlNPV gene, Slp49. The Slp49 sequence predicted a 49-kDa polypeptide with about 48.8% identity to the AcMNPV apoptotic suppressor P35. SLP49 displays a potential recognition site, TVTDG, for cleavage by death caspases. Recombinant AcMNPVs deficient in p35 bearing the Slp49 gene did not induce apoptosis and showed successful productive infections in SF9 cells, indicating that Slp49 is a functional homologue of p35. A 1.5-kbp Slp49-specific transcript was identified in SF9 cells infected with SlNPV or with vAc496, a vDeltaP35K/pol+-recombinant bearing Slp49. The discovery of Slp49 contributes to the identification of important functional motifs conserved in p35-like apoptotic suppressors and to the future isolation of p35-like genes from other baculoviruses.

Isolation, replication and polyhedrin gene sequence of an Israeli Helicoverpa armigera single nucleopolyhedrovirus.

A local strain of Helicoverpa armigera baculovirus was isolated from infected H. armigera larvae. Infectivity to Helicoverpa cells, restriction enzyme analysis and electron microscopy allowed its identification as a single embedded nucleopolyhedrovirus, designated HaSNPV-IS. Analysis of DNA replication, protein synthesis and polyhedrin expression in HaSNPV-infected cells located the late and very late phases of the viral cycle at 24 and 48 h after infection, respectively. The viral polyhedrin gene was isolated and characterized. It encoded for a polypeptide of 246 amino acid residues. A 32 kDa polypeptide was identified by immunoblot analysis using antipolyhedrin antiserum. The HaSNPV-IS polyhedrin DNA sequence revealed 99.4% of homology to the HzSNPV polyhedrin. The availability of this efficient replication system and the above knowledge paves the way to future genetic engineering of the HaSNPV.

Baculovirus-mediated expression of a scorpion depressant toxin improves the insecticidal efficacy achieved with excitatory toxins.

The insecticidal efficacy towards Helicoverpa armigera lepidopteran larvae of recombinant Autographa californica M nucleopolyhedroviruses, expressing depressant and excitatory scorpion anti-insect selective toxins, was investigated. The ET50 (effective paralysis time 50%) values obtained with the recombinant viruses expressing the depressant toxin, LqhIT2, and the excitatory toxin, LqhIT1, were 59 h and 66 h, respectively, whereas the ET50 value of the wild-type virus was longer, 87 h post infection. The insecticidal effects obtained when using two distinct temporally regulated viral promoters revealed advantage for the very late p10 promoter over the p35 early promoter. The higher insecticidity of the virus expressing the depressant toxin compared to the excitatory toxin suggests that pharmacokinetic factors and/or promoter efficiency may play a role during infection of insect pest larvae by recombinant baculoviruses.

The first isolated collagen gene of the root-knot nematode Meloidogyne javanica is developmentally regulated.

The nematode's surface comprises a multilayered cuticle, which consists mainly of collagen proteins. We identified, cloned and characterized the first cuticular collagen gene, Mjcol-3, of the plant-parasitic nematode Meloidogyne javanica. The gene putatively encodes a 32.4-kDa collagen protein, including a propeptide which possesses a subtilisin-like protease-cleavage site. Six introns were identified in the gene sequence, with three slightly different acceptor-splicing sites. The basic structure of the predicted MJCOL-3 protein sequence is highly similar to that of the Caenorhabditis elegans DPY-7, with 65.9% identity between the two amino acid sequences. Relative to DPY-7, the putative MJCOL-3 protein has a shorter carboxy-terminus. This non-conserved feature may indicate different contributions of DPY-7 and MJCOL-3 collagens to the structure of the cuticle. Mjcol-3 is developmentally regulated: transcripts were found mainly in preparasitic developing eggs, less in parasitic third- and fourth-stage juveniles and young females shortly after the fourth molt, and much less in females before egg-laying.

Expression of the Autographa californica nuclear polyhedrosis virus apoptotic suppressor gene p35 in nonpermissive Spodoptera littoralis cells.

Apoptosis was postulated as the main barrier to replication of the Autographa californica nuclear polyhedrosis virus (AcMNPV) in a Spodoptera littoralis SL2 cell line (N. Chejanovsky and E. Gershburg, Virology 209:519-525, 1995). Thus, we hypothesized that the viral apoptotic suppressor gene p35 is either poorly expressed or nonfunctional in AcMNPV-infected SL2 cells. These questions were addressed by first determining the steady-state levels of the p35 product, P35, in AcMNPV-infected SL2 cells. Indeed, very low levels of P35 were found in infected SL2 cells in comparison with those in SF9 cells. Overexpression of p35, in transient-transfection and recombinant-virus infection experiments, inhibited actinomycin D- and AcMNPV-induced apoptosis, as determined by reduced cell blebbing and release of oligonucleosomes and increased cell viability of SL2. However, SL2 budded-virus (BV) titers of a recombinant AcMNPV which highly expressed p35 did not improve significantly. Also, injection of S. littoralis larvae with recombinant and wild-type AcMNPV BVs showed similar 50% lethal doses. These data suggest that apoptosis is not the only impediment to AcMNPV replication in these nonpermissive S. littoralis cells, and probably in S. littoralis larvae, so p35 may not be the only host range determinant in this system.

Functional expression of an alpha anti-insect scorpion neurotoxin in insect cells and lepidopterous larvae.

The Leiurus quinquestriatus hebraeus alpha anti-insect toxin (Lqh alpha IT) cDNA was engineered into the Autographa californica Nuclear Polyhedrosis Virus (AcNPV) genome. Insect cells infected with the recombinant virus secreted a functional Lqh alpha IT polypeptide. Spodoptera littoralis and Heliothis armigera larvae injected with recombinant budded virus, showed typical intoxication symptoms. This recombinant virus showed enhanced insecticidal potency against H. armigera larvae compared with wild type AcNPV. The present expression system will facilitate: (1) the future elucidation of structural elements involved in its prominent anti-insect toxicity; and (2) the future design of genetically modified alpha toxins with improved anti-insect selectivity.

The wild-type Autographa californica nuclear polyhedrosis virus induces apoptosis of Spodoptera littoralis cells.

Spodoptera littoralis cells infected with the Autographa californica multiple nuclear polyhedrosis virus (AcMNPV) yielded significantly lower budded virus titers than Spodoptera frugiperda-infected cells and produced very low levels of polyhedrin. Relative to AcMNPV-infected S. frugiperda SF9 cells viral DNA replication was severely reduced in Spodoptera littoralis SL2 cells. Microscopic examination of SL2-infected cells revealed progressive cell blebbing starting at 6-8 hr postinfection and culminating in total cell destruction at 24 hr postinfection. The data suggested that AcMNPV-infected SL2 cells undergo apoptosis. The occurrence of an active apoptotic process in the infected cells was confirmed by: (1) observation of fragmentation of the cell nuclei stained with the specific fluorescent dye DAPI (4',6'-diamidino-2-phenylindole) and (2) the presence of low-molecular-weight DNA oligomers. Neither SL2 cells infected with S. littoralis nuclear polyhedrosis virus (SINPV) nor SF9 cells infected with AcMNPV, respectively, showed nuclear fragmentation or oligonucleosomal ladder formation.

The alpha-5 segment of Bacillus thuringiensis delta-endotoxin: in vitro activity, ion channel formation and molecular modelling.

A peptide with a sequence corresponding to the highly conserved alpha-5 segment of the Cry delta-endotoxin family (amino acids 193-215 of Bacillus thuringiensis CryIIIA [Gazit and Shai (1993) Biochemistry 32, 3429-3436]), was investigated with respect to its interaction with insect membranes, cytotoxicity in vitro towards Spodoptera frugiperda (Sf-9) cells, and its propensity to form ion channels in planar lipid membranes (PLMs). Selectively labelled analogues of alpha-5 at either the N-terminal amino acid or the epsilon-amine of its lysine, were used to monitor the interaction of the peptides with insect membranes. The fluorescent emission spectra of the 7-nitrobenz-2-oxa-1,3-diazole-4-yl (NBD)-labelled alpha-5 peptides displayed a blue shift upon binding to insect (Spodoptera littoralis) mid-gut membranes, reflecting the relocation of the fluorescent probes to an environment of increased apolarity, i.e. within the lipidic constituent of the membrane. Moreover, midgut membrane-bound NBD-labelled alpha-5 peptides were protected from enzymic proteolysis. Functional characterization of alpha-5 has revealed that it is cytotoxic to Sf-9 insect cells, and that it forms ion channels in PLMs with conductances ranging from 30 to 1000 pS. A proline-substituted analogue of alpha-5 is less cytolytic and slightly more exposed to enzymic digestion. Molecular modelling utilizing simulated annealing via molecular dynamics suggests that a transbilayer pore may be formed by alpha-5 monomers that assemble to form a left-handed coiled coil of approximately parallel helices. These findings further support a role for alpha-5 in the toxic mechanism of delta-endotoxins, and assign alpha-5 as one of the transmembrane helices which form the toxic pore. The suggested role is consistent with the recent finding that cleavage of CryIVB delta-endotoxin in a loop between alpha-5 and alpha-6 is highly important for its larvicidal activity [Angsuthanasombat, Crickmore and Ellar (1993) FEMS Microbiol. Lett. 111, 255-262].

Analysis of adeno-associated virus (AAV) wild-type and mutant Rep proteins for their abilities to negatively regulate AAV p5 and p19 mRNA levels.

The rep gene of adeno-associated virus type 2 (AAV) encodes four overlapping Rep proteins that are involved in gene regulation and replication of the virus. We studied here the regulation of mRNA transcribed from the AAV p5 and p19 promoters, using transient expression in human 293 cells followed by Northern (RNA) blot analysis of the mRNA. The p5 transcript encodes the larger Rep proteins, Rep78 and Rep68, while the p19 transcript encodes the smaller proteins, Rep52 and Rep40. A plasmid (pNTC3) containing the entire AAV genome with an amber mutation in the rep gene accumulated higher levels of p5 and p19 mRNA than a plasmid containing the wild-type AAV genome. Addition of increasing amounts of the wild-type rep gene in trans from a heterologous promoter inhibited p5 and p19 mRNA accumulation from pNTC3, indicating that the levels of both transcripts were decreased by the Rep proteins. Cotransfections with plasmids producing individual wild-type Rep proteins in trans showed that p5 and p19 mRNA accumulation was inhibited 5- to 10-fold by Rep78 and Rep68 and 2- to 3-fold by Rep52 and Rep40. Analysis of carboxyl-terminal truncation mutants of Rep78 showed that the ability of Rep78 to decrease p5 and p19 mRNA levels was lost when 159 or more amino acids were deleted. Rep78 and Rep68 mutants deleted for the methionine at residue 225 showed decreased abilities to down-regulate both p5 and p19 transcript levels, while mutants containing a substitution of glycine for the methionine resembled the wild-type Rep78. A Rep78 protein with a mutation in the putative nucleoside triphosphate binding site inhibited expression from p5 but not from p19, suggesting that the regulation of p5 transcript levels by Rep78 and Rep68 differs from that of p19. A deletion analysis of AAV cis sequences revealed that an intact terminal repeat was not required for negative regulation of p5 and p19 transcript levels and that the regulation of p19 mRNA levels by Rep78 did not require the presence of the p5 promoter.

Adeno-associated virus rep proteins produced in insect and mammalian expression systems: wild-type and dominant-negative mutant proteins bind to the viral replication origin.

The adeno-associated virus (AAV) rep gene proteins, Rep78 and Rep68, are required for replication of AAV DNA and bind to the AAV replication origin. An AAV genome having a Lys340 to His (K340H) mutation in the consensus purine nucleotide binding site of the rep gene protein exhibited a dominant-negative phenotype for DNA replication. We synthesized both wild-type and the K340H mutant Rep78 protein in a baculovirus expression system. Nuclear extracts of Sf9 cells containing these proteins were examined in gel mobility-shift assays with radiolabeled AAV terminal repeat DNA. Each protein bound specifically to the hairpin configuration of the AAV terminal repeat DNA to yield three shifted components. However the mobility of these components observed with the mutant Rep protein was slightly decreased compared to that with the wild-type Rep78. The addition of an antibody made against an oligopeptide from the carboxyl terminal region of the Rep78 protein generated novel shifted bands in the presence of either extract. Similar results were observed when the wild-type and mutant Rep proteins were expressed from an inducible expression system employing the human immunodeficiency virus type 1 transcription promoter in human 293 cells. These results suggest that the dominant-negative phenotype of the K340H mutation may be mediated by binding of the mutant protein to the AAV replication origin.

Adeno-associated virus Rep protein inhibits human immunodeficiency virus type 1 production in human cells.

The adeno-associated virus (AAV) rep gene encodes four proteins (Rep78, Rep68, Rep52, and Rep40) required for AAV DNA replication and AAV gene regulation. In addition, the Rep proteins may have pleiotropic regulatory effects in heterologous systems, and in particular Rep78 may mediate a negative regulatory effect. We analyzed the effects of the AAV rep gene on human immunodeficiency virus type 1 (HIV-1) gene expression. The rep gene proteins of AAV type 2 (AAV2) inhibited the trans-activating ability of HIV-1. Constructs containing the AAV2 rep gene (pHIVrep) or a CAT gene (pBennCAT) expressed from the 5' HIV-1 long terminal repeat were inducible for Rep78 and Rep68 or CAT expression, respectively, when cotransfected with a plasmid containing the HIV-1 tat gene (pARtat). When equivalent amounts of pHIVrep and pBennCAT were cotransfected with increasing amounts of pARtat, expression of CAT activity was decreased. The pHIVrep construct was more inhibitory than plasmids expressing rep from the wild-type AAV2 p5 transcription promoter. rep expression from pHIVrep almost completely inhibited the replication of an HIV-1 proviral clone as measured by reverse transcriptase activity and p24 protein levels. Inhibition of HIV-1 production by Rep protein was also seen at the transcriptional level in that all HIV-1 transcripts were decreased when pHIVrep was present. The inhibitory effects of pHIVrep appear to be mediated primarily by Rep78 and perhaps Rep68. These results suggest that a trans-acting protein from a heterologous virus might be used to inhibit HIV-1 growth.

Mutation of a consensus purine nucleotide binding site in the adeno-associated virus rep gene generates a dominant negative phenotype for DNA replication.

Adeno-associated virus (AAV) contains a multifunctional nonstructural gene, rep, which is required for AAV DNA replication and has pleiotropic effects on positive and negative regulation of gene expression. All of the parvovirus nonstructural genes contain a region of highly conserved amino acid homology. Within this conserved region is the consensus sequence for a purine nucleotide binding site. We constructed a mutant AAV having a mutation in this site by converting lysine 340 to histidine. The resulting mutant AAV genome, pNTC23, overproduced the mutant Rep proteins, indicating that these proteins are autoregulated. Furthermore, the mutant gene was unable to replicate but was able to inhibit in trans wild-type AAV DNA replication. Thus, pNTC23 represents a dominant negative mutant of AAV. These results suggest that rep has separate functional domains important for DNA replication.