Contrasuppressor cells induced by Junin virus. (17/73)

Intracerebral inoculation of Junin virus (JV) in all susceptible mouse models available induces a lethal meningoencephalitis compatible with a delayed-type hypersensitivity (DTH) immune response. In contrast, adult BALB/c mice prove resistant to infection and no DTH response is seen. JV inoculation in adult BALB/c mice induces DTH suppression to unrelated antigens such as sheep red blood cells. (SRBC). This suppression is mediated by JV-induced T cells (Tsv), which are operative from 1 to 24 days post-infection (p.i.), and seems to be related to adult mouse survival. The presence of JV-induced contrasuppressor cells (CS) bearing the Thy-1+, Ly 1+2- phenotype, able to abrogate Tsv cells-mediated suppression, is described here. Thus, CS cells may be involved in the mechanism by which mice avoid over-exposure to Tsv-mediated DTH suppression. Such CS cells were found in the spleen of inoculated animals and may also be induced by transferring JV-free Tsv cells to 'naive' recipients, in which JV inoculation then induces morbidity.  (+info)

Molecular determinants of Pichinde virus infection of guinea pigs--a small animal model system for arenaviral hemorrhagic fevers. (18/73)

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Arenavirus concentration by molecular filtration. (19/73)

Liter volumes of a human arenavirus pathogen (Machupo) and a nonpathogen (Tacaribe) were concentrated 30 to 100 times in less than 90 min without significant loss of particle infectivity.  (+info)

The circular, segmented nucleocapsid of an arenavirus-Tacaribe virus. (20/73)

The nucleocapsid structures of Tacaribe virus, a member of the Arenaviridae, were purified from detergent-treated virus particles by equilibrium density gradient centrifugation. Negative-contrast electron microscopy indicated that they were coiled, circular filaments. They had a mean diam. of 5 to 10 nm and two predominant length classes of 640 nm and 1300 nm were found.  (+info)

A multivalent and cross-protective vaccine strategy against arenaviruses associated with human disease. (21/73)

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Characterization of Pichinde virus infection of cells of the monocytic lineage. (22/73)

To establish a model of viral infection of monocytes, we examined infection of human cells and cell lines of the monocytic series with the arenavirus Pichinde virus. We demonstrate for the first time that human peripheral blood monocytes are susceptible to Pichinde virus infection, as shown by immunoprecipatation of virus-specific polypeptides from infected cells, immunofluorescence analyses, and quantitation of virus production from infected cells. The human promyelocytic leukemia cell line HL60 did not support Pichinde virus replication, even if cells were induced with the phorbol ester phorbol myristate acetate (PMA) to differentiate to monocytes. However, the human promonocytic leukemia cell line THP-1 did support Pichinde virus replication. Replication depended on exposure of the cells to PMA. We examined the nature of the effect of PMA in the induction of THP-1 cells to support Pichinde virus replication. We found that 5 min of exposure of THP-1 cells to PMA is sufficient to support virus growth and that PMA-treated THP-1 cells remain susceptible to infection up to 4 days after the initial PMA treatment. We also showed that infection of PMA-treated THP-1 cells is mediated through protein kinase C (PKC). H7, a PKC inhibitor, was able to block both PMA-induced differentiation and Pichinde virus infection of THP-1 cells. The synthetic diacylglycerol and PKC agonist, diC8, was able to stimulate THP-1 cells to support virus growth, albeit to lower levels than PMA. Dactinomycin abrogated the ability of virus to replicate and suggested a requirement for host cell transcription. The PMA effect did not appear to relate to receptor modulation. These results suggest that PMA-induced susceptibility to Pichinde virus infection occurs at a point later than the initial binding and penetration stages and that infection depends on the activation or differentiation state of the cell.  (+info)

Replication of dengue and junin viruses in cultured rabbit and human endothelial cells. (23/73)

The flavivirus dengue and the arenavirus Junin are both associated with a hemorrhagic shock syndrome in man. We have demonstrated the replication of these viruses in vitro in both rabbit and human endothelial cells by viral titers and immunofluorescent antibody studies. Rabbit endothelium established in continuous culture was derived from vena cava, while human cells in primary culture were derived from umbilical veins. In rabbit endothelium, dengue-2 virus passaged through monkey kidney monolayer cells (LLC-MK2) or human lymphoblastoid cells (raji) produced significantly more virus than the seed obtained from suckling mouse brain (MB). Inoculation of actively dividing, subconfluent human endothelial cells with the LLC-MK2 degue virus produced higher viral titers than inoculation of confluent cells. The appearance of Junin virus was delayed beyond that of dengue virus in rabbit endothelial cells although equivalent titers of virus were produced. In human cells, Junin virus was less productive than dengue virus and produced characteristic cycles of virus release. This is the first direct evidence for replication of human hemorrhagic fever viruses in endothelial cells.  (+info)

Structural polypeptides of Machupo virus. (24/73)

The structural proteins of an arenavirus pathogen, Machupo virus, were compared to the structural proteins of two previously characterized non-pathogenic arenaviruses, Pichinde and Tacaribe, in SDS-polyacrylamide gels. Similarities in mol. wt. of the major structural proteins from both pathogenic and non-pathogenic viruses were apparent; however, some differences in the number of glycosylation properties of minor proteins were observed. Machupo virions contain two major protein species. The most prominent is a non-glycosylated protein with a mol. wt. of 68000, while the other was glycosylated protein with a mol. wt. of 41000. Minor amounts of other proteins (mol. wt. 84000, 74000, 50000 and 15000) and a glycolipid were also observed.  (+info)