Your search keyword '"Seto JT"' showing total 6 results

1. Determinants of pantropism of the F1-R mutant of Sendai virus: specific mutations involved are in the F and M genes.

Author

Okada H, Seto JT, McQueen NL, Klenk HD, Rott R, and Tashiro M

Subjects

Amino Acid Sequence, Animals, Cattle, Cell Line, Cell Polarity, Dogs, Genotype, Mice, Microtubules physiology, Molecular Sequence Data, Phenotype, Respirovirus physiology, Respirovirus Infections etiology, Respirovirus Infections virology, Transfection, Viral Fusion Proteins genetics, Viral Matrix Proteins genetics, Virulence genetics, Virus Replication genetics, Genes, Viral, Mutation, Respirovirus genetics, Respirovirus pathogenicity

Abstract

Mutations in the fusion, F, protein of Sendai virus resulting in increased cleavability by ubiquitous host protease(s), and mutations in the matrix, M, protein resulting in bipolar budding, are both important determinants for the systemic infection in mice caused by the protease activating pantropic mutant, F1-R. Several mutants of Sendai virus (BY, BF, and KD-M) with phenotypes of bipolar budding and/or increased cleavability of F protein were isolated. Genomic RNA sequence analysis of the F and M genes of the mutants revealed that several deduced amino acids in the F and M proteins were different from those of F1-R, T-5 (a revertant of F1-R), and wild-type viruses. The BF and KD-M mutants that budded bipolarly and were also activated by ubiquitous proteases were examined for replication in tissue culture cells and in mice. All of the mutants exhibited multiple-step replication in MDCK, MDBK, and LLC-MK2 cells without trypsin, but formed plaques only in MDCK cells. One of the mutants, designated KD-52M, was similar to F1-R in that it formed plaques in all three cell lines without addition of exogenous protease. However, none of the mutants viruses, including KD-52M, caused a systemic infection in mice. The mutated M protein of F1-R enhances the disruption of microtubles. However, none of the mutants with a bipolar budding phenotype (BY, BF, and KD-M), disrupted the microtubules to the same extent as F1-R. All of these mutants had mutations in the M protein that were different from those found in F1-R. Taken together, these results suggest that mutations at Ser115 to Pro in the F protein and at Asp 128 to Gly and Ile210 to Thr in the M protein of F1-R are the mutations specifically required for the systemic infection caused by F1-R.

Published

1998

2. Significance of basolateral domain of polarized MDCK cells for Sendai virus-induced cell fusion.

Author

Tashiro M, Yamakawa M, Tobita K, Klenk HD, Seto JT, and Rott R

Subjects

Animals, Antibodies, Viral immunology, Cell Membrane, Cell Polarity, Cells, Cultured, Hemolysis, Parainfluenza Virus 1, Human ultrastructure, Viral Fusion Proteins chemistry, Viral Fusion Proteins physiology, Cell Fusion, Parainfluenza Virus 1, Human physiology

Abstract

Fusion (fusion from within) of polarized MDCK monolayer cells grown on porous membranes was examined after infection with Sendai viruses. Wild-type virus, that buds at the apical membrane domain, did not induce cell fusion even when the F glycoprotein expressed at the apical domain was activated with trypsin. On the other hand, a protease activation mutant, F1-R, with F protein in the activated form and that buds bipolarly at the apical and basolateral domains, caused syncytia formation in the absence of exogenous protease. Anti-Sendai virus antibodies added to the basolateral side, but not at the apical side, inhibited cell fusion induced by F1-R. In addition, T-9, a mutant with bipolar budding phenotype of F1-R but with an uncleavable F protein phenotype like wild-type virus, induced cell fusion exclusively when trypsin was added to the basolateral medium. By electron microscopy, cell-to-cell fusion was shown to occur at the lateral domain of the plasma membrane. These results indicate that in addition to proteolytic activation of the F protein, basolateral expression of Sendai virus envelope glycoproteins is required to induce cell fusion.

Published

1992

3. The site of cleavage in infected cells and polypeptides of representative paramyxoviruses grown in cultured cells of the chorioallantoic membrane.

Author

Seto JT, Garten W, and Rott R

Subjects

Allantois cytology, Animals, Cells, Cultured, Chick Embryo, Chorion cytology, Electrophoresis, Polyacrylamide Gel, Fluorescent Antibody Technique, Paramyxoviridae immunology, Viral Proteins immunology, Virus Cultivation, Glycoproteins biosynthesis, Paramyxoviridae growth & development, Viral Proteins biosynthesis

Abstract

Cultured cells of the chorioallantoic membrane (CAM) fulfilled the need of using the same cell system that was permissive for representative paramyxoviruses to carry out studies on the biosynthesis of their glycoproteins in infected cells. The polypeptides composition of the respective paramyxoviruses [Newcastle disease virus (NDV), paramyxovirus Yucaipa (PMY), and Sendai virus], grown in eggs and CAM-cells, was essentially identical. In egg-grown PMY a large glycoprotein (LGP) was present but only in some CAM-grown preparations of virus labeled with [3H]-glucosamine and rarely in [35S]-methionine or [3H]-amino acids (valine, leucine, and tyrosine) labeled viruses. The site of cleavage of precursor F0 to F1,2 was not the same. In contrast to the cleavage of Sendai virus glycoprotein, cleavage was intracellular in NDV and PMY infected cells. Homologous antisera against the glycoproteins failed to inhibit cleavage of HN0 or F0 in cells infected with the representative paramyxoviruses.

Published

1981

4. Comparison of protective effects of serum antibody on respiratory and systemic infection of Sendai virus in mice.

Author

Tashiro M, Tobita K, Seto JT, and Rott R

Subjects

Animals, Antibodies, Viral immunology, Immunization, Passive, Male, Mice, Mice, Inbred ICR, Parainfluenza Virus 1, Human immunology, Parainfluenza Virus 1, Human isolation & purification, Paramyxoviridae Infections immunology, Respiratory Tract Infections immunology, Respiratory Tract Infections prevention & control, Specific Pathogen-Free Organisms, Viscera microbiology, Antibodies, Viral administration & dosage, Paramyxoviridae Infections prevention & control

Abstract

The protective effects of the passive administration of convalescent serum from mice infected with Sendai virus were evaluated in mice challenged intranasally with wild-type and a pantropic variant (F1-R) of Sendai virus. Adoptive transfer of the serum efficiently prevented F1-R from infecting the systemic organs, but it failed to protect the mice from infections of the respiratory tracts by either virus. Virus replication in nasal turbinates was not diminished while infection in the lung was suppressed sufficiently for the infected mice to survive the infection. These findings suggest that serum antibody is less effective for the protection against viral infections on the surface of the respiratory tract, but it is effective for inhibition of spread of the virus into the systemic organs.

Published

1989

5. Persistent infections with Sendai virus and Newcastle disease viruses.

Author

Lawton P, Karimi Z, Mancinelli L, and Seto JT

Subjects

Animals, Cattle, Cell Line, Chick Embryo, Culture Techniques methods, Electrophoresis, Polyacrylamide Gel, Fibroblasts, Kidney, Species Specificity, Viral Proteins analysis, Newcastle disease virus growth & development, Parainfluenza Virus 1, Human growth & development

Abstract

Persistent infections (Pi) were established in two host-cell systems [Madin-Darby bovine kidney (MDBK) and Madin-Darby canine kidney (MDCK)] with Sendai virus and three strains of NDV, to test the influence of different viruses and host-cell systems. Virus was recovered from the persistently infected cells. An RNA- ts mutant was recovered from a Pi of MDBK cells, but no Pi could be established in MDCK cells with the three strains of NDV. Additionally, the Pi was established exclusively by a virulent strain, NDV-Milano. On the other hand, Sendai virus could establish Pi in MDBK and MDCK cell-systems. Several ts mutants were recovered from "late" passages of Pi, and from an accidental infection, a ts mutant with an altered P polypeptide. Ten other ts mutants were tested, however, the specific ts lesion could not be identified. From three Pi in MDCK cells, host range mutants (ts-f1, ts-f2, and ts-f3) were recovered. One of the mutants (ts-f1) has an altered M (matrix) protein. The host range mutants undergo a productive infection in MDBK and MDCK cells, which are nonpermissive for wild type Sendai virus. The possible significance of the results are discussed.

Published

1986

6. Electron microscope study of cultured cells of the chorioallantoic membrane infected with representative paramyxoviruses.

Author

Seto JT, Wahn K, and Becht H

Subjects

Allantois ultrastructure, Animals, Capsid, Cells, Cultured, Chick Embryo, Chorion ultrastructure, Microscopy, Electron, Newcastle disease virus growth & development, Parainfluenza Virus 1, Human growth & development, Allantois microbiology, Chorion microbiology, Extraembryonic Membranes microbiology, Paramyxoviridae growth & development

Abstract

Chorioallantoic membrane (CAM) tissue cultures were found to be permissive for representative paramyxoviruses. The CAM cells can be used for plaque assay without the presence of trypsin. Ultrastructures of CAM cells infected with paramyxovirus Yucaipa (PMY), Sendai virus, and NDV were different. Nucleocapsids were readily seen in budding structures of cells infected with PMY, and in Sendai virus infected cells, large clusters of nucleocapsids were clearly evident in the cytoplasm. The site of glycoprotein cleavage does not have any effect on the nature of budding. It appears that a factor or factors in addition to the nature of the plasma membrane influences the morphology of cells infected with paramyxoviruses.

Published

1980