Epizootiology of baculoviruses

Analysis of published data demonstrated that the process of baculovirus epizootic depends on a set of various factors. The efficiency of the host-parasite interaction depends on the virus biological activity, multiplicity of infection, biological properties and physiological state of the insect, properties of the food plants, and environmental factors. Based on the data obtained by highly sensitive methods of molecular biology, this review summarizes the discussion of the source of viral infection in baculovirus epizootics. These data shed light on the mechanisms underlying the development of epizootic, a relatively underexplored natural phenomenon.     

Replication patterns and cytopathology of cells infected with baculoviruses

Conclusion In vitro studies have contributed greatly to an understanding of viral cytopathology, molecular biology, and pathogenesis. A model of the role of baculoviruses in a host-parasite relationship is developing which reveals the virus as gaining control of many aspects of host cell biology including control of the cell replication machinery (apoptotic response, macromolecular synthesis), the cytoskeletal structure, the nuclear membrane and intranuclear architecture. Baculovirus replication is a collection of independent but inter-related processes which work within the framework of the host cell, with the in vivo goal of maximizing production of progeny virions. Further molecular dissection of baculovirus replication should yield insight into the processes and principles of viral and host regulatory systems, perhaps facilitating development of new generations of high efficiency sub-viral expression vector systems and the development of genetically improved strains of virus safe for field use in ecologically based pest management strategies.     

Persistence and coexistence of engineered baculoviruses

Baculoviruses, and in particular, the nucleopolyhedroviruses infect a wide range of arthropod hosts and have the potential to be used as biopesticides. However, one of the major drawbacks with these pathogens as biocontrol agents is that they have a slow response time. Alterations to the speed of kill and pathogen life history characteristics can influence the competitive outcome and persistence between wildtype and modified strains. Here, we explore, theoretically, how life-history modifications of pathogens can affect the epidemiology and ecology of strain coexistence. In particular, we show how under simple mass action disease transmission, life-history difference between strains are insufficient to allow coexistence. Additional heterogeneities in transmission are shown to be necessary to facilitate coexistence of wildtype and modified pathogen strains. We also illustrate how the patterns of infectivity of wildtype and modified strains can also affect long-term coexistence, and argue that appropriate assessment of genetic modifications must be presented in terms of relevant ecological theory.     

Use of baculoviruses as biological insecticides

Naturally occurring baculoviruses can be used to control a wide range of insect pests. Most baculoviruses are used as biopesticides, that is, they are sprayed onto high-density pest populations in a manner akin to the use of synthetic chemical pesticides. However, other strategies that use the biological features of the viruses are also possible and should increase as we expand our knowledge of baculovirus ecology. In order to develop a baculovirus control program, several areas need to be studied before progressing to large scale field studies and commercialization. These range from laboratory efficacy testing and the development of production systems to detailed study of pest behavior and the development of appropriate application strategies.     

A morphological investigation of 23 baculoviruses

Baculoviruses from five hymenopteran and eighteen lepidopteran species were studied by electron microscopy. Ten samples belonged to the unicapsid (UC) and eight to the multicapsid (MC) type of nuclear polyhedrosis viruses. Five were granulosis viruses (GV). Average dimensions of polyhedra and granules were 0.2?2.0 μm and 340–370 × 190–200 nm, respectively. Polyhedra contained up to 200 viruses. Average virus lengths were 232–370 (UC), 326–385 (MC), and 282–311 nm (GV). MC viruses contained up to 17 capsids. Oval particles and abnormally long or short viruses and capsids were present in most samples. Viruses of abnormal length constituted up to 26% of particles.     

Comparative dose-effect studies with four C-17-spirosteroidal mineralocorticoid synthesis inhibitors

Interference of three spirolactones and a spiro-oxazolidine with mineralocorticoid biosynthesis in the concentration range of 10(-4)-10(-10) M has been studied in isolated dispersed z. glomerulosa cells. Inhibitory effects on several enzyme activities involved in the late steps of aldosterone synthesis have been determined. Different patterns of enzyme inhibition could be observed for each inhibitor. The points of interference were mostly related to cytochrome P450-C11-activities (i.e. 11 beta-/18-hydroxylation and 18-OH-oxidation).     

Karyological studies of four genera of theChloranthaceae

Karyological observations on 7 species and 2 varieties of 4 genera belonging to theChloranthaceae demonstrate the presence of three basic chromosome numbers within the family, i.e., x = 8 (Hedyosmum), 13 (Ascarina) and 15 (Chloranthus, Sarcandra). The karyomorphology ofChloranthus andAscarina is similar, whereasSarcandra andHedyosmum display unique characteristics. Both karyological aspects, i.e., chromosome number and karyomorphology, demonstrate remarkable diversity ofChloranthaceae and complex relationships between its genera. A distant affinity betweenChloranthaceae andPiperales is suggested.Presented at the XV International Botanical Congress Yokohama 1993, Symposium on Relationships and Evolution of Primitive Angiosperms: Multidisciplinary Approaches.     

Ancient coevolution of baculoviruses and their insect hosts

If the relationships between baculoviruses and their insect hosts are subject to coevolution, this should lead to long-term evolutionary effects such as the specialization of these pathogens for their hosts. To test this hypothesis, a phylogeny of the Baculoviridae, including 39 viruses from hosts of the orders Lepidoptera, Diptera, and Hymenoptera, was reconstructed based on sequences from the genes lef-8 and ac22. The tree showed a clear division of the baculoviruses according to the order of their hosts. This division highlighted the need to reconsider the classification of the baculoviruses to include one or possibly two new genera. Furthermore, the specialization of distinct virus lineages to particular insect orders suggests ancient coevolutionary interactions between baculoviruses and their hosts.     

PCR method for detecting recombinant baculoviruses with the insertion of a large gene

A PCR strategy was developed using primers specific to an infectious bursal disease virus (IBDV) gene as well as primers flanking the polyhedrin region of baculovirus to verify the presence of IBDV gene in the recombinant baculovirus and confirm the absence of wild-type baculovirus contamination. This method can be applied to detect the presence of large genes in the recombinant baculovirus with greater sensitivity and avoid the need of modifying the typical PCR procedure provided by the manufacturer. © Rapid Science Ltd. 1998     

Production of v-Myb and c-Myb in insect cells infected with recombinant baculoviruses.

Recombinant baculoviruses expressing the v-myb and c-myb genes in infected insect cells were constructed. The electrophoretic mobilities of their immunoreactive products were the same as those of the authentic Myb proteins from chicken cells. The system provides a convenient source of relatively large amounts of v-Myb or c-Myb for in vitro binding studies.     

High-frequency homologous recombination between baculoviruses involves DNA replication

We determined the frequency of DNA recombination between Bombyx mori nucleopolyhedroviruses (BmNPVs) and between BmNPV and the closely related Autographa californica NPV (AcMNPV) in BmN cells, Sf-21 cells, and larvae of Heliothis virescens. The BmN cells were coinfected with two BmNPVs, one with a mutation at the polyhedrin gene (polh) locus and a second carrying a lacZ gene marker cassette. Eleven different BmNPV mutants carrying the lacZ gene marker at various distances (1.4 to 61.7 kb) from polh were used for the coinfections. The Sf-21 cells and larvae of H. virescens were coinfected with wild-type AcMNPV and 1 of the 11 lacZ-marked BmNPV mutants. In BmN cells, high-frequency recombination was detected as early as 15 h postcoinfection but not at 12 h postcoinfection. At 18 h postcoinfection, the mean frequency of recombination ranged between 20.0 and 35.4% when the polh and lacZ marker genes were separated by at least 9.7 kb. When these marker genes were separated by only 1.4 kb, the mean frequency of recombination was 2.7%. In BmN cells, the mean recombination frequency between two BmNPVs increased only marginally when the multiplicity of infection of each virus was increased 10-fold. In Sf-21 cells and the larvae of H. virescens, the recombination frequency between BmNPV and AcMNPV was 相似文献   

Recombinant baculoviruses as mammalian cell gene-delivery vectors

The baculovirus expression system has been used extensively for the expression of recombinant proteins in insect cells. Recently, recombinant baculovirus vectors engineered to contain mammalian cell-active promoter elements, have been used successfully for transient and stable gene delivery in a broad spectrum of primary and established mammalian cells. The application of modified baculoviruses for in vivo gene delivery has also been demonstrated. In contrast to other commonly used viral vectors, baculoviruses have the unique property of replicating in insect cells while being incapable of initiating a replication cycle and producing infectious virus in mammalian cells. The viruses can be readily manipulated, accommodate large insertions of foreign DNA, initiate little to no microscopically observable cytopathic effect in mammalian cells and have a good biosafety profile. These attributes will undoubtedly lead to the increased application and continued development of this system for efficient gene delivery into mammalian cells. Who said you can't teach an old dog new tricks?     

A review of safety tests on baculoviruses

In the late 1960's the degree of safety testing required of new candidate pesticides reached a climax. During this period, the nuclear polyhedrosis virus (NPV) ofHeliothis zea (Boddie) underwent a series of tests as thorough as those required for chemicals by the Environmental Protection Agency (E.P.A.) in the U.S.A. and by guidelines recommended by W.H.O. These included long term carcinogenicity and teratogenicity tests, tests on primates and tests on man. Indeed, the tests were far more demanding than the tests for chemicals because they examined the possibility of infection of test animals by the insect viruses. They led to the registration of a pioneer viral insecticide containing this NPV produced in caterpillars. Two other products from Lepidoptera, containing NPVs ofOrgyia pseudotsugata (McDunn) andLymantria dispar L. have satisfied the E.P.A. registration requirements. The NPV ofNeodiprion sertifer (Geoffr.) (Hym.) has proved harmless in extensive tests, including long term tests. Another 3 NPVs, those ofAutographa californica (Speyer)Spodoptera littoralis Boisd. andS. exempta (Walk.) passed tests not including the long term tests. Also a non-occluded baculovirus of a coleopteran,Oryctes rhinoceros L., has passed extensive pathogenicity tests and tests in cell lines. A number of other NPVs have been partially tested and limited tests have been made on 2 granulosis viruses (GV). The NPVs proved harmless to—and unable to replicate in—microorganisms, non-insect invertebrate cell lines vertebrate cell lines, vertebrates, plants and non-arthropod invertebrates. Replication was unusual in insects outside the insect family in which the virus was first found. GVs occur only in Lepidoptera, most are believed to be very specific and none have replicated in cell lines from insects or other animals. In addition, the rapidly expanding discipline of Invertebrate Pathology has failed to find incidence of NPVs and GVs infecting hosts outside the above stated host ranges. This is in reality a vast body of evidence matched only in extent by the absence of incidence of NPVs and GVs from the publications of medical, veterinary and phytopathology science. This evidence, and the accrued data from specific safety testing, gives increasing confidence that individual NPVs and GVs of Lepidoptera and Hymenoptera are very specific. This confidence suggests that new NPVs and GVs in these orders need be subjected only to a reduced range of the more challenging tests and to tests designed to reveal harm originating from the insect species used for virus production and from contaminants.     

Recombinant baculoviruses as expression vectors for insect and mammalian cells.

Baculovirus expression vectors are widely used for expressing heterologous proteins in cultured insect cells. Recent advances include further development of the system for production of multi-subunit protein complexes, co-expression of protein-modifying enzymes to improve heterologous protein production, and additional applications of baculovirus display technology. The application of modified baculovirus vectors for gene expression in mammalian cells continues to expand.     

Testing for population subdivision and association in four case-control studies

Population structure has been presumed to cause many of the unreplicated disease-marker associations reported in the literature, yet few actual case-control studies have been evaluated for the presence of structure. Here, we examine four moderate case-control samples, comprising 3,472 individuals, to determine if detectable population subdivision is present. The four population samples include: 500 U.S. whites and 236 African Americans with hypertension; and 500 U.S. whites and 500 Polish whites with type 2 diabetes, all with matched control subjects. Both diabetes populations were typed for the PPARg Pro12Ala polymorphism, to replicate this well-supported association (Altshuler et al. 2000). In each of the four samples, we tested for structure, using the sum of the case-control allele frequency chi(2) statistics for 9 STR and 35 SNP markers (Pritchard and Rosenberg 1999). We found weak evidence for population structure in the African American sample only, but further refinement of the sample, to include only individuals with U.S.-born parents and grandparents, eliminated the stratification. Our examples provide insight into the factors affecting the replication of association studies and suggest that carefully matched, moderate-sized case-control samples in cosmopolitan U.S. and European populations are unlikely to contain levels of structure that would result in significantly inflated numbers of false-positive associations. We explore the role that extreme differences in power among studies, due to sample size and risk-allele frequency differences, may play in the replication problem.     

Immunocytochemical studies of hamster oocyte activation

By indirect immunofluorescence, using rabbit anti-heparin-binding placental protein (HBPP) antiserum, we studied HBPP expression by physiologically and non-physiologically (microsurgically) activated hamster gametes. Whereas mature gametes (sperm, metaphase II oocytes) were negative, in vivo conceived preimplantation embryos, from pronuclear to two- and four-cell stages, were HBPP positive. No HBPP was demonstrated in the zona pellucida, but HBPP-dependent immunofluorescence was localized in the perivitelline space. Oocytes incubated with hyaluronidase demonstrated variable responses from negative to positive. (Diluent or sperm) microinjected oocytes were all activated and HBPP positive within 4 h after stimulation. Thus neither activation by microinjection nor HBPP expression required paternal gametes. These kinetics suggest that HBPP may be a cortical granule secretogogue which can be applied to monitor oocyte responses during in vitro manipulations.     

Insect baculoviruses: powerful gene expression vectors

Baculovirus vectors have proven useful in producing high levels of biologically active eukaryotic proteins and providing cellular fractions which are enriched in the protein of interest. Expression occurs in infected insect cells which also provide a suitable environment for post-translational modification and folding of the protein product. Stable baculovirus vectors can be constructed rapidly with a minimum of viral manipulation.