The overall goal of this project remains to understand how the properties of arthropod-borne viruses enable them to replicate in widely different hosts and to cause in their vertebrate hosts a variety of different disease states. Our experimental systems will involve the study of Sindbis and dengue viruses (genera alpha- and flavivirus: Family Togaviridae) as well as vesicular stomatitis virus (Family Rhabdoviridae) in vertebrate and mosquito cells. It is expected that what we learn of these viruses at the cellular level will eventually enhance our understanding of what occurs in the whole organism, vertebrate or invertebrate. Working with VSV in A. albopictus cells, we shall study how the rate of viral RNA synthesis is related to inhibiton of protein synthesis and eventually to cell killing. The biochemical lesion which leads to inhibition of protein synthesis will be investigated. Arthropod-borne viruses, because of their wide host range, are eminently suited for the generation and study of host-range mutants. We shall seek additional host-range mutants and attempt to determine in molecular terms why these mutants are restricted in their ability to replicate in a given cell type. We shall also determine nucleotide sequence changes which are specifically associated with the host-range phenotype. The replication of Sindbis virus in A. albopictus cells is efficiently inhibited by the nucleoside analog, ribavirin. On the other hand, this compound under certain conditions has little or no effect on viral replication in BHK cells. We shall continue to identify those properties of different host cells which determine the efficacy of ribavirin and we shall assess its anti-viral action in different organs of the whole animal. Much less is known of the strategy of replication of dengue virus and flaviviruses in general than is known about either alphaviruses or rhabdoviruses. In this project we intend to study the patterns of protein processing and the functions of the different virus-specified proteins in infected cells. In particular the processing of specific proteins will be related to viral morphogenesis and maturation.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Unknown (R22)
Project #
5R22AI005920-25
Application #
3444418
Study Section
Tropical Medicine and Parasitology Study Section (TMP)
Project Start
1979-02-01
Project End
1989-01-31
Budget Start
1987-02-01
Budget End
1988-01-31
Support Year
25
Fiscal Year
1987
Total Cost
Indirect Cost
Name
University of Medicine & Dentistry of NJ
Department
Type
Schools of Medicine
DUNS #
622146454
City
Piscataway
State
NJ
Country
United States
Zip Code
08854
Lin, Yen-Huei; Simmonds, H Anne; Stollar, Victor (2002) Restriction of a Sindbis virus mutant in BHK cells and relief of the restriction by the addition of adenosine. Virology 292:78-86
Lin, Y H; Yadav, P; Ravatn, R et al. (2000) A mutant of Sindbis virus that is resistant to pyrazofurin encodes an altered RNA polymerase. Virology 272:61-71
Rosenblum, C I; Stollar, V (1999) SVMPA, a mutant of sindbis virus resistant to mycophenolic acid and ribavirin, shows an increased sensitivity to chick interferon. Virology 259:228-33
Li, M L; Liao, H J; Simon, L D et al. (1999) An amino acid change in the exodomain of the E2 protein of Sindbis virus, which impairs the release of virus from chicken cells but not from mosquito cells. Virology 264:187-94
Liao, H J; Stollar, V (1997) Characterization of JKT-7400, an orbivirus which grows in Aedes albopictus mosquito cells: evidence pointing to a minor virion protein, VP6, as the RNA guanylyltransferase. Virology 228:19-28
Li, M L; Wang, H L; Stollar, V (1997) Complementation of and interference with Sindbis virus replication by full-length and deleted forms of the nonstructural protein, nsP1, expressed in stable transfectants of Hela cells. Virology 227:361-9
Liao, H J; Stollar, V (1997) Methyltransferase activity of the insect orbivirus JKT-7400: photoaffinity labeling of a minor virion protein, VP4, with S-adenosylmethionine. Virology 235:235-40
Li, M L; Stollar, V (1995) A mutant of Sindbis virus which is released efficiently from cells maintained in low ionic strength medium. Virology 210:237-43
Rosenblum, C I; Scheidel, L M; Stollar, V (1994) Mutations in the nsP1 coding sequence of Sindbis virus which restrict viral replication in secondary cultures of chick embryo fibroblasts prepared from aged primary cultures. Virology 198:100-8
Stollar, V (1993) Insect-transmitted vertebrate viruses: alphatogaviruses. In Vitro Cell Dev Biol Anim 29A:289-95

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