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151. Identification of a novel polymorphic enhancer of the human CYP3A4 gene.

Author

Matsumura K, Saito T, Takahashi Y, Ozeki T, Kiyotani K, Fujieda M, Yamazaki H, Kunitoh H, and Kamataki T

Subjects
5' Flanking Region genetics, Base Sequence, Binding Sites genetics, Cell Line, Tumor, Cytochrome P-450 CYP3A, Genetic Variation genetics, Humans, Molecular Sequence Data, Cytochrome P-450 Enzyme System genetics, Enhancer Elements, Genetic genetics, Polymorphism, Genetic genetics
Abstract

CYP3A4, the most abundant form of cytochrome P450 in the human adult liver, shows wide interindividual variation in its activity. This variability is thought to be caused largely by transcriptional and genetic factors, yet the underlying mechanisms are poorly understood. The purpose of this study was to clarify the mechanisms controlling the CYP3A4 gene transcription and to search for genetic polymorphisms in the 5'-flanking region of the CYP3A4 gene. Transient transfection of human hepatoma HepG2 cells and of normal human hepatocytes with a series of CYP3A4 promoter-luciferase reporter plasmids revealed that a region from -11.4 to -10.5 kilobases, designated the constitutive liver enhancer module of CYP3A4 (CLEM4), was important for the constitutive activation of the CYP3A4 gene. Gel shift assay using nuclear extracts prepared from HepG2 cells showed that HNF-1alpha, HNF-4alpha, USF1, and AP-1 interacted with CLEM4. Furthermore, the introduction of mutations into their binding sites demonstrated that essentially all sites were required for the maximal enhancer activity. Screening for genetic polymorphisms within CLEM4 in genomic DNA from French persons, we identified the novel variant, TGT insertion between -11,129 and -11,128 (-11,129_-11,128insTGT), whose allele frequency was 3.1%. The -11,129_-11,128insTGT resulted in the disruption of USF1 binding and a 36% reduction of the enhancer activity. These results suggest that CLEM4 is a constitutive enhancer of the CYP3A4 gene in the liver and that -11,129_-11,128insTGT may at least partly contribute to the interindividual variability of CYP3A4 expression.

Published
2004
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152. Decreased coumarin 7-hydroxylase activities and CYP2A6 expression levels in humans caused by genetic polymorphism in CYP2A6 promoter region (CYP2A6*9).

Author

Kiyotani K, Yamazaki H, Fujieda M, Iwano S, Matsumura K, Satarug S, Ujjin P, Shimada T, Guengerich FP, Parkinson A, Honda G, Nakagawa K, Ishizaki T, and Kamataki T

Subjects
Adult, Alleles, Asian People, Cytochrome P-450 CYP2A6, Female, Gene Frequency, Heterozygote, Humans, Kinetics, Male, Microsomes, Liver enzymology, Middle Aged, Polymorphism, Single Nucleotide, RNA, Messenger genetics, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Aryl Hydrocarbon Hydroxylases metabolism, Microsomes, Liver metabolism, Mixed Function Oxygenases metabolism, Polymorphism, Genetic, Promoter Regions, Genetic
Abstract

One of seven poor metabolizers of coumarin found in Thai subjects was previously genotyped as heterozygote for the CYP2A6*4 (whole deletion) and CYP2A6*9. Thus, we aimed to investigate the relationship between the genetic polymorphism in the TATA box of the CYP2A6 gene (CYP2A6*9), expression levels of CYP2A6 mRNA and coumarin 7-hydroxylase activities in human livers. Levels of CYP2A6 mRNA were quantified by real-time quantitative reverse transcriptase-polymerase chain reaction. The mean expression levels of CYP2A6 mRNA in individuals with CYP2A6*1/*4, CYP2A6*1/*9 and CYP2A6*4/*9 were 58%, 71% and 21% of the individuals genotyped as CYP2A6*1/*1, respectively. The mean in-vitro coumarin 7-hydroxylase activities in subjects carrying CYP2A6*1/*4, CYP2A6*1/*9 and CYP2A6*4/*9 were 41%, 71% and 12%, respectively, compared to those of the subjects judged as wild-type. Vmax values for coumarin 7-hydroxylation in the liver microsomes from human subjects with genotypes of CYP2A6*1/*1, CYP2A6*1/*4, CYP2A6*1/*9 and CYP2A6*4/*9 were 0.58, 0.26, 0.44 and 0.13 nmol/min/nmol total P450, respectively. CYP2A6 protein levels in human liver microsomes with the CYP2A6*4 and the CYP2A6*9 alleles were markedly decreased. These results suggest that the genetic polymorphism in the promoter region of the CYP2A6 gene (CYP2A6*9) reduced the expression levels of CYP2A6 mRNA and protein in human livers, resulting in the decrease of coumarin 7-hydroxylase activities. Individuals judged as CYP2A6*4/*9 were expected to be poor metabolizers, having extremely low activity of CYP2A6., (Copyright 2003 Lippincott Williams & Wilkins)

Published
2003
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153. Masking of the contribution of V protein to Sendai virus pathogenesis in an infection model with a highly virulent field isolate.

Author

Sakaguchi T, Kiyotani K, Watanabe H, Huang C, Fukuhara N, Fujii Y, Shimazu Y, Sugahara F, Nagai Y, and Yoshida T

Subjects
Animals, Cell Line, Chick Embryo, Disease Models, Animal, Gene Deletion, Male, Mice, Sendai virus genetics, Virulence, Respirovirus Infections virology, Sendai virus pathogenicity, Viral Proteins genetics
Abstract

Sendai virus V protein is not essential for virus replication in cultured cells but is essential for efficient virus replication and pathogenesis in mice, indicating that the V protein has a luxury function to facilitate virus propagation in mice. This was discovered in the Z strain, an egg-adapted avirulent laboratory strain. In the present study, we reexamined the function of Sendai virus V protein by generating a V-knockout Sendai virus derived from the Hamamatsu strain, a virulent field isolate, which is an appropriate model for studying the natural course of Sendai virus infection in mice. We unexpectedly found that the V-knockout virus propagated efficiently in mice and was as virulent as the wild-type virus. Switching of the functionally important V unique region demonstrated that this region of the Hamamatsu strain was also functional in a Z strain background. It thus appears that the V protein is nonsense in a field isolate of Sendai virus. However, the V protein was required for virus growth and pathogenesis of the Hamamatsu strain in mice when the virulence of the virus was attenuated by introducing mutations that had been found in an egg-adapted, avirulent virus. The V protein therefore seems to be potentially functional in the highly virulent Hamamatsu strain and to be prominent if virus replication is restricted.

Published
2003
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154. Two novel haplotypes of CYP2D6 gene in a Japanese population.

Author

Yamazaki H, Kiyotani K, Tsubuko S, Matsunaga M, Fujieda M, Saito T, Miura J, Kobayashi S, and Kamataki T

Abstract

Two novel haplotypes of CYP2D6 were found in Japanese subjects. One haplotype of the human CYP2D6 gene, newly designated as CYP2D6(*)44 allele, had both a novel single nucleotide polymorphism (SNP) of 2950G>C in intron 6 donor splice junction and a known SNP (82CG, -1235A>G, -740C>T, -678G>A, and a gene conversion with CYP2D7 gene in intron 1 associated with CYP2D6(*)21. Both CYP2D6(*)44 and CYP2D6(*)21B alleles would cause a splicing error or a frameshift with impaired drug metabolizing function mediated by CYP2D6.

Published
2003
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155. Eighteen novel polymorphisms of the CYP2A13 gene in Japanese.

Author

Fujieda M, Yamazaki H, Kiyotani K, Muroi A, Kunitoh H, Dosaka-Akita H, Sawamura Y, and Kamataki T

Abstract

We sequenced all nine exons, exon-intron junctions including a part of introns, 5'-flanking and 3'-untranslated regions of the cytochrome P450 (CYP) 2A13 gene from 192 Japanese individuals. We found eighteen novel genetic polymorphisms including five single nucleotide polymorphisms (SNP) and one three base pair insertion causing amino acid substitution and one amino acid insertion, respectively, one silent SNP in exon 4, four SNPs in a 5'-flanking region, and seven SNPs in introns. The five SNPs (74G>A in exon 1, 579G>A in exon 2, 1706C>G in exon 3, and 7343T>A and 7465C>T in exon 9) causing amino acid substitutions (Arg(25)Gln, Arg(101)Gln, Asp(158)Glu, Phe(453)Tyr, and Arg(494)Cys), respectively. The one three base pair insertion (1634_1635 ACC insertion in exon 3) caused one amino acid insertion ((133_134)Thr ins). These sequences are as follows:SNP, 021125Fujieda005; GENE NAME, CYP2A13; ACCESSION NUMBER, NG_000008; LENGTH, 25 base;5'-TGTCAGTCTGGCG/AGCAGAGGAAGAG-3'.SNP, 021125Fujieda007; GENE NAME, CYP2A13; ACCESSION NUMBER, NG_000008; LENGTH, 25 base; 5'-AGTTCAGCGGGCG/AAGGCGAGCAGGC-3'.SNP, 021125Fujieda009; GENE NAME, CYP2A13; ACCESSION NUMBER, NG_000008; LENGTH, 25 base; 5'-CTTCCTCATCGAC/GGCCCTCCGGGGC-3'.SNP, 021125Fujieda017; GENE NAME, CYP2A13; ACCESSION NUMBER, NG_000008; LENGTH, 25 base; 5'-TCTTTCTCTTCTT/ACACCACCATCAT-3'.SNP, 021125Fujieda018; GENE NAME, CYP2A13; ACCESSION NUMBER, NG_000008; LENGTH, 25 base; 5'-AGCTTCCTGCCCC/TGCTGAGCGAGGG-3'.SNP, 021125Fujieda008; GENE NAME, CYP2A13; ACCESSION NUMBER, NG_000008; LENGTH, 25 base; 5'-CTCCATCGCCACC-/ACCCTAAGGGGTTTT-3'.

Published
2003
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156. Novel nonsynonymous polymorphisms of the CYP1A1 gene in Japanese.

Author

Saito T, Egashira M, Kiyotani K, Fujieda M, Yamazaki H, Kiyohara C, Kunitoh H, and Kamataki T

Abstract

We found five novel nonsynonymous polymorphisms of the human CYP1A1 gene from Japanese individuals. The five single nucleotide polymorphisms (SNP) in exon 7 (2346_2347 ins T, 2414T>A, 2461C>T, 2500C>T and 2546C>G causing premature stop codon, Ile(448)Asn, Arg(464)Cys, and Arg(477)Trp and Pro(492)Arg, respectively) were as follows:SNP, 030212Saito001; GENE NAME, CYP1A1; ACCESSION NUMBER, X02612; LENGTH, 25 base; 5'-GTCAACCCATCT-/TGAGTTCCTACCT-3'.SNP, 030212Saito002; GENE NAME, CYP1A1; ACCESSION NUMBER, X02612; LENGTH, 25 base; 5'-GTGAGAAGGTGAT/ATATCTTTGGCAT-3'.SNP, 030212Saito003; GENE NAME, CYP1A1; ACCESSION NUMBER, X02612; LENGTH, 25 base; 5'-GAGACCGTTGCCC/TGCTGGGAGGTCT-3'.SNP, 030212Saito004; GENE NAME, CYP1A1; ACCESSION NUMBER, X02612; LENGTH, 25 base; 5'-ATCCTGCTGCAAC/TGGGTGGAATTCA-3'.SNP, 030212Saito005; GENE NAME, CYP1A1; ACCESSION NUMBER, X02612; LENGTH, 25 base; 5'-TGGACATGACCCC/GCATCTATGGGCT-3'.

Published
2003
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157. Identification of mutations associated with attenuation of virulence of a field Sendai virus isolate by egg passage.

Author

Fujii Y, Sakaguchi T, Kiyotani K, Huang C, Fukuhara N, and Yoshida T

Subjects
Animals, Chick Embryo, DNA-Directed RNA Polymerases genetics, HN Protein genetics, Mice, Molecular Sequence Data, Sendai virus genetics, Sendai virus physiology, Sequence Analysis, DNA, Serial Passage, Viral Proteins genetics, Virulence genetics, Virus Replication, Mutation, Sendai virus pathogenicity
Abstract

Abstract. We have reported that attenuation of the virulence of a field Sendai virus (SeV) isolated by egg passage is associated with an impediment of viral genome replication in mouse respiratory cells (Kiyotani et al., Arch Virol 146, 893-908, 2001). To determine the molecular basis for the attenuation, we sequenced entire genomes of representative SeV clones isolated during egg passages and compared those with that of the parental SeV clone E0. E15c2, a 165-fold attenuated clone in 50% mouse lethal dose (MLD50) isolated at the 15th egg passage, possessed only four mutations in the entire genome: U to A at position 20 (U20A) and U24A in the leader promoter region and A9362G and A12174U in the L gene from the 5'-end of antigenome. The former mutation in the L gene was silent and the latter changed deduced amino acid Ser at position 1207 to Cys (Serl207Cys) in the L protein, a catalytic subunit of viral polymerase. E30c12, a further 6-fold attenuated clone isolated at the 30th egg passage, had an additional four mutations: A8074G (Glu461Gly) and A8077G (Asp462Gly) in the hemagglutinin-neuraminidase (HN) gene and A13598C (silent) and G13927A (Ser1791Asn) in the L gene. On the other hand, a virulent revertant clone, E30M15c15, which was obtained by 15 mouse passages of E30c12 and had 250-fold mouse virulence compared to E30c12, possessed eight mutaions: A24U in the leader, C1325U (silent) in the nucleocapsid gene, G8074A (Gly461Glu) in the HN gene, G10433U (Lys626Asn), C13598A (silent), A13927G (Asn1791Ser), C14626U (Thr2024Ile) and A15272C in the L gene. Among these, the mutations in the leader and the HN gene and two of the mutations in the L gene (C13598A and A13927G) were true reversions to E0. The significance of the mutations detected in the leader as well as in the L and HN genes was discussed in the context of attenuation of SeV pathogenicity by egg passage.

Published
2002
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158. Involvement of the leader sequence in Sendai virus pathogenesis revealed by recovery of a pathogenic field isolate from cDNA.

Author

Fujii Y, Sakaguchi T, Kiyotani K, Huang C, Fukuhara N, Egi Y, and Yoshida T

Subjects
Animals, Base Sequence, Cells, Cultured, Chick Embryo, Epithelial Cells virology, Lung cytology, Lung virology, Male, Mice, Mice, Inbred ICR, Molecular Sequence Data, Mutation, Sendai virus isolation & purification, Sendai virus physiology, Serial Passage, Virulence, Virus Replication, 5' Untranslated Regions genetics, DNA, Complementary genetics, Respirovirus Infections virology, Sendai virus genetics, Sendai virus pathogenicity
Abstract

We previously demonstrated that a systematic passage of a pathogenic field isolate of Sendai virus (SeV), the Hamamatsu strain, in embryonated eggs caused attenuation of virulence to mice, and we isolated viral clones of distinct virulence (K. Kiyotani et al. Arch. Virol. 146:893-908, 2001). One of the clones, E15cl2, which was obtained from the virus at the 15th egg passage of E0, the parental Hamamatsu clone for egg passage, had 165-fold-attenuated virulence to mice and possessed only four mutations in the entire 15,384-base genome: in an antigenomic sense, U to A at position 20 (U20A) and U to A at position 24 (U24A) in the leader sequence, the promoter for transcription and replication, and A to G at position 9346 (silent) and A to U at position 12174 (Ser to Cys) in the L gene. To examine the possibility that leader mutations affect virus pathogenesis, we recovered live viruses from cDNA derived from the Hamamatsu strain. A mutant virus possessing either a mutation of U20A or U24A in the leader sequence showed a slightly lower pathogenicity than that of the parental virus, whereas a double mutant virus possessing both of the mutations showed 25-fold-attenuated virulence, accompanying a significantly lower virus replication in the mouse lung. Replications of the leader mutant viruses were also impaired in a primary culture of mouse pulmonary epithelial cells but not in chicken embryo fibroblasts. These findings suggest that leader mutations of SeV affect virus pathogenesis by altering virus replication in a host-dependent manner.

Published
2002
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159. Mutational analysis of the Sendai virus V protein: importance of the conserved residues for Zn binding, virus pathogenesis, and efficient RNA editing.

Author

Fukuhara N, Huang C, Kiyotani K, Yoshida T, and Sakaguchi T

Subjects
Amino Acid Sequence, Animals, Cells, Cultured, Conserved Sequence, Lung virology, Male, Mice, Mice, Inbred ICR, Molecular Sequence Data, Mutation, RNA, Messenger analysis, Structure-Activity Relationship, Viral Proteins genetics, Viral Proteins physiology, Virus Replication, RNA Editing, Sendai virus pathogenicity, Viral Proteins chemistry, Zinc metabolism
Abstract

The V protein of Sendai virus (SeV) is nonessential for virus replication in cell culture but indispensable for viral pathogenicity in mice. At the C terminus of the V protein, there are amino acid residues conserved among the members of the Paramyxovinae subfamily that are clustered in three regions: region I, just downstream of the RNA editing site; and regions II and III, cysteine-rich zinc-finger-like regions. In the present study, we introduced mutations into the conserved amino acids and generated nine mutant viruses. All of the viruses had impaired virus replication in mouse lungs and attenuated virulence in mice. Furthermore, the C-terminal polypeptides fused with glutathione-S-transferase with a mutation in region I, II, or III all had impaired Zn binding in a (65)Zn-binding assay in solution. These results demonstrate that the conserved amino acids are important for V protein function, probably via protein conformation dependent on Zn binding. One mutant, SeV V-H(318)N, had inefficient RNA editing, indicating that the nucleotide that is a part of the codon encoding histidine at position 318 is conserved for the RNA editing machinery. In addition, to determine the function of the C-terminal extension of the V protein, which is not translated in recent virulent field isolates, a translational stop codon was introduced to generate the corresponding short V protein. The mutant virus showed similar virus propagation and pathogenicity, indicating that C-terminal extension of the V protein is not relevant to virus pathogenesis.

Published
2002
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160. Alteration of Sendai virus morphogenesis and nucleocapsid incorporation due to mutation of cysteine residues of the matrix protein.

Author

Sakaguchi T, Uchiyama T, Huang C, Fukuhara N, Kiyotani K, Nagai Y, and Yoshida T

Subjects
Animals, Cell Line, Centrifugation, Density Gradient, Cysteine metabolism, Microscopy, Electron, Morphogenesis, Mutagenesis, Site-Directed, Nucleocapsid Proteins, Protein Conformation, Respirovirus Infections virology, Sendai virus genetics, Viral Matrix Proteins chemistry, Viral Matrix Proteins metabolism, Virion metabolism, Virion ultrastructure, Virus Assembly, Cysteine genetics, Mutation, Nucleoproteins, Sendai virus growth & development, Sendai virus metabolism, Viral Core Proteins metabolism, Viral Matrix Proteins genetics
Abstract

The matrix (M) protein of Sendai virus (SeV) has five cysteine residues, at positions 83, 106, 158, 251, and 295. To determine the roles of the cysteine residues in viral assembly, we generated mutant M cDNA possessing a substitution to serine at one of the cysteine residues or at all of the cysteine residues. Some mutant M proteins were unstable when expressed in cultured cells, suggesting that cysteine residues affect protein stability, probably by disrupting the proper conformation. In an attempt to generate virus from cDNA, SeV M-C(83)S, SeV M-C(106)S, and SeV M-C(295)S were successfully recovered from cDNA, while recombinant SeVs possessing other mutations were not. SeV M-C(83)S and SeV M-C(106)S had smaller virus particles than did the wild-type SeV, whereas SeV M-C(295)S had larger and heterogeneously sized particles. Furthermore, SeV M-C(106)S had a significant amount of empty particles lacking nucleocapsids. These results indicate that a single-point mutation at a cysteine residue of the M protein affects virus morphology and nucleocapsid incorporation, showing direct involvement of the M protein in SeV assembly. Cysteine-dependent conformation of the M protein was not due to disulfide bond formation, since the cysteines were shown to be free throughout the viral life cycle.

Published
2002
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161. Novel mutations of the CYP2A6 gene in a Thai population with lowered capacity of coumarin 7-hydroxylation.

Author

Kiyotani K, Yamazaki H, Fujieda M, Daigo S, Satarug S, Ujjin P, and Kamataki T

Abstract

We explored genetic polymorphisms in a Thai population which exhibited a low capacity to metabolize coumarin. The following two silent single nucleotide polymorphisms (SNPs) were found: 1) SNP, 020228Kiyotani001; GENE NAME, CYP2A6; ACCESSION NUMBER, NT_011139; LENGTH, 25 base; 5'-AAACTACCTGCAG/TCTGAACACAGAG-3'. 2) SNP, 020228Kiyotani002; GENE NAME, CYP2A6; ACCESSION NUMBER, NT_011139; LENGTH, 25 base; 5'-AATCCCCAGCAC/TTTCCTGAATGAG-3'. These two mutations (G144A and C1245T), which were located in exon 1 and exon 8 of the CYP2A6 gene, were found in two subjects among nine poor metabolizers for coumarin.

Published
2002
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162. Twenty one novel single nucleotide polymorphisms (SNPs) of the CYP2A6 gene in Japanese and Caucasians.

Author

Kiyotani K, Fujieda M, Yamazaki H, Shimada T, Guengerich FP, Parkinson A, Nakagawa K, Ishizaki T, and Kamataki T

Abstract

We sequenced all nine exons and exon-intron junctions of the CYP2A6 gene from 33 Japanese and 28 Caucasians. We found twenty one single nucleotide polymorphisms (SNPs) including four SNPs causing amino acid substitutions, one silent SNP in exon 5, one SNP in a 5'-flanking region, four SNPs in a 3'-untranslated region, and eleven SNPs in introns. The four mutations (13G>A and 86G>A in exon 1, and 2134A>G and 2161C>T in exon 4) causing amino acid substitutions (Gly(5)Arg, Ser(29)Asn, Lys(194)Glu, and Arg(203)Ser), respectively, were as follows: SNP, 020719Kiyotani004; GENE NAME, CYP2A6; ACCESSION NUMBER, NG_000008.4; LENGTH, 25 base; 5'-ATGCTGGCCTCAG/AGGATGCTTCTGG-3'. SNP, 020719Kiyotani005; GENE NAME, CYP2A6; ACCESSION NUMBER, NG_000008.4; LENGTH, 25 base; 5'-AGCAGAGGAAGAG/ACAAGGGGAAGCT-3'. SNP, 020719Kiyotani011; GENE NAME, CYP2A6; ACCESSION NUMBER, NG_000008.4; LENGTH, 25 base; 5'-CGCTTTGACTATA/GAGGACAAAGAGT-3'. SNP, 020719Kiyotani012; GENE NAME, CYP2A6; ACCESSION NUMBER, NG_000008.4; LENGTH, 25 base; 5'-CTGTCACTGTTGC/TGCATGATGCTAG-3'. New alleles having these SNPs were designated as CYP2A6( *)13-CYP2A6( *)16.

Published
2002
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163. Conserved and non-conserved regions in the Sendai virus genome: evolution of a gene possessing overlapping reading frames.

Author

Fujii Y, Kiyotani K, Yoshida T, and Sakaguchi T

Subjects
Base Sequence, Evolution, Molecular, Molecular Sequence Data, Nucleocapsid Proteins genetics, Phosphoproteins genetics, Promoter Regions, Genetic genetics, Respirovirus classification, Sequence Analysis, DNA, Conserved Sequence, Genome, Viral, Respirovirus genetics, Viral Proteins genetics
Abstract

We have sequenced the entire genome of a virulent field isolate of Sendai virus, the Hamamatsu strain, and compared the sequence with that of a distant related strain, the Z strain. Calculation of synonymous and non-synonymous (amino acid changing) nucleotide substitutions revealed regions where changes were permissive and non-permissive, and the experimentally determined functional region were found to be conserved, showing that important regions for function were conserved during evolution. In the cistron-overlapping regions in the P gene, one reading frame was conserved, whereas the other overlapping frame was flexible. The priority of one frame could be a strategy for evolution of an overlapping gene of RNA viruses. We found that the carboxyl two thirds of the C protein was conserved over the amino-terminal one third, possessing priority to the overlapping P polypeptide. This suggests that the carboxyl two thirds of the C protein have a functional importance. We also found a highly variable region between the L coding frame and the 5' trailer sequence. The relevance of these findings to actual viral replication should be clarified in the future.

Published
2001
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164. Involvement of the zinc-binding capacity of Sendai virus V protein in viral pathogenesis.

Author

Huang C, Kiyotani K, Fujii Y, Fukuhara N, Kato A, Nagai Y, Yoshida T, and Sakaguchi T

Subjects
Amino Acid Sequence, Animals, Blotting, Western, Cell Line, Cysteine genetics, Escherichia coli metabolism, Glutathione Transferase genetics, Male, Mice, Mice, Inbred ICR, Molecular Sequence Data, Mutagenesis, Site-Directed, Mutation, Protein Binding, Protein Structure, Tertiary, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Respirovirus genetics, Viral Proteins analysis, Viral Proteins genetics, Virus Replication physiology, Zinc Fingers, Respirovirus pathogenicity, Viral Proteins metabolism, Zinc metabolism
Abstract

The V protein of Sendai virus (SeV) is nonessential to virus replication in cell culture but indispensable to viral pathogenicity in mice. The highly conserved cysteine-rich zinc finger-like domain in its carboxyl terminus is believed to be responsible for this viral pathogenicity. In the present study, we showed that the cysteine-rich domain of the SeV V protein could actually bind zinc by using glutathione-S-transferase fusion proteins. When the seven conserved cysteine residues at positions 337, 341, 353, 355, 358, 362, and 365 were replaced individually, the zinc-binding capacities of the mutant proteins were greatly impaired, ranging from 22 to 68% of that of the wild type. We then recovered two mutant SeVs from cDNA, which have V-C(341)S and V-C(365)R mutations and represent maximal and minimal zinc-binding capacities among the corresponding mutant fusion proteins, respectively. The mutant viruses showed viral protein synthesis and growth patterns similar to those of wild-type SeV in cultured cells. However, the mutant viruses were strongly attenuated in mice in a way similar to that of SeV V(DeltaC), which has a truncated V protein lacking the cysteine-rich domain, by exhibiting earlier viral clearance from the mouse lung and less virulence to mice. We therefore conclude that the zinc-binding capacity of the V protein is involved in viral pathogenesis.

Published
2000
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165. Sendai virus gene start signals are not equivalent in reinitiation capacity: moderation at the fusion protein gene.

Author

Kato A, Kiyotani K, Hasan MK, Shioda T, Sakai Y, Yoshida T, and Nagai Y

Subjects
Animals, Cell Line, Genes, Viral, Male, Mice, Mice, Inbred BALB C, Mutagenesis, RNA, Messenger metabolism, RNA, Viral metabolism, Recombinant Fusion Proteins, Respirovirus pathogenicity, Respirovirus physiology, Respirovirus Infections virology, Virus Replication, Gene Expression Regulation, Viral, Respirovirus genetics, Transcription, Genetic, Viral Fusion Proteins genetics
Abstract

In paramyxovirus transcription, viral RNA polymerase synthesizes each monocistronic mRNA by recognizing the gene start (S) and end (E) signals flanking each gene. These signal sequences are well conserved in the virus family; nevertheless, they do exhibit some variations even within a virus species. In Sendai virus (SeV) Z strain, the E signals are identical for all six genes but there are four (N, P/M/HN, F, and L) different S signals with one or two nucleotide variations. The significance of these variations for in vitro and in vivo replication has been unknown. We addressed this issue by SeV reverse genetics. The luciferase gene was placed between the N and P gene so that recombinant SeVs expressed luciferase under the control of each of the four different S signals. The S signal for the F gene was found to drive a lower level of transcription than that of the other three, which exhibited comparable reinitiation capacities. The polar attenuation of SeV transcription thus appeared to be not linear but biphasic. Then, a mutant SeV whose F gene S signal was replaced with that used for the P, M, and HN genes was created, and its replication capability was examined. The mutant produced a larger amount of F protein and downstream gene-encoded proteins and replicated faster than wild-type SeV in cultured cells and in embryonated eggs. Compared with the wild type, the mutant virus also replicated faster in mice and was more virulent, requiring a dose 20 times lower to kill 50% of mice. On the other hand, the unique F start sequence as well as the other start sequences are perfectly conserved in all SeV isolates sequenced to date, including highly virulent fresh isolates as well as egg-adapted strains, with a virulence several magnitudes lower than that of the fresh isolates. This moderation of transcription at the F gene may therefore be relevant to viral fitness in nature.

Published
1999
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166. Double-layered membrane vesicles released from mammalian cells infected with Sendai virus expressing the matrix protein of vesicular stomatitis virus.

Author

Sakaguchi T, Uchiyama T, Fujii Y, Kiyotani K, Kato A, Nagai Y, Kawai A, and Yoshida T

Subjects
Animals, Base Sequence, Blotting, Western, Cell Line, Cell Membrane metabolism, Cell Membrane ultrastructure, Centrifugation, Density Gradient, Fluorescent Antibody Technique, Genetic Vectors, Microscopy, Electron, Microscopy, Immunoelectron, Molecular Sequence Data, Precipitin Tests, Virus Assembly, Respirovirus genetics, Respirovirus metabolism, Vesicular stomatitis Indiana virus genetics, Viral Matrix Proteins genetics, Viral Matrix Proteins metabolism
Abstract

The matrix (M) protein of vesicular stomatitis virus (VSV) was reported to form vesicles on the cell surface and subsequently to be released into the cultured medium when expressed from cDNA by virus vectors. To further investigate VSV M activity, we generated a recombinant Sendai virus (SeV) expressing the VSV M protein (SeV-M(VSV)). When cells were infected with SeV-M(VSV), VSV M was found abundantly in the culture medium. Electron microscopy demonstrated the budding of two-membraned vesicles (>/= 0.8 microm in diameter) from the infected cells. The outer membrane of the vesicle was derived from the plasma membrane and the inner one possibly derived from the membrane of an intracellular vesicle. Immuno-gold labeling showed that VSV M was exclusively located in a double-layered region. The released membranes were divided into three parts: the VSV M vesicles with SeV F and HN glycoproteins, SeV particles, and vesicles associated with the cytosolic components. The last abundantly contained phosphorylated SeV matrix (M) protein, which is not released in a usual SeV infection. Furthermore the VSV M protein expressed without using a virus vector was efficiently released into the culture medium. These results suggest that the VSV M protein has a budding activity per se and that SeV proteins are passively involved in the release of VSV M., (Copyright 1999 Academic Press.)

Published
1999
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167. Role of primary constitutive phosphorylation of Sendai virus P and V proteins in viral replication and pathogenesis.

Author

Hu CJ, Kato A, Bowman MC, Kiyotani K, Yoshida T, Moyer SA, Nagai Y, and Gupta KC

Subjects
Animals, Blotting, Northern, Cell Line, Genome, Viral, Humans, Lung virology, Lung Diseases virology, Male, Mice, Mice, Inbred ICR, Phosphorylation, RNA, Viral biosynthesis, Respirovirus genetics, Respirovirus Infections pathology, Reverse Transcriptase Polymerase Chain Reaction, Transcription, Genetic, Tumor Cells, Cultured, Phosphoproteins metabolism, Respirovirus physiology, Respirovirus Infections virology, Viral Proteins metabolism, Virus Replication
Abstract

Functional analysis of the primary constitutive phosphorylation of Sendai virus P and V proteins was performed using both in vitro and in vivo systems. Sendai virus minigenome transcription and replication in transfected cells were not significantly affected in the presence of primary phosphorylation deficient P protein (S249A, S249D, P250A) as measured by either the luciferase activity or the Northern blot analysis. Similarly, recombinant Sendai viruses lacking the primary phosphorylation in P grew to titers close to the wild-type virus in cell cultures and in the natural host of Sendai virus, the mouse. Mutant viruses showed no altered pathogenesis in mice lungs. Oligomerization of P by binding WT P or mutant P to GST-P (WT) Sepharose beads revealed that the primary phosphorylation was not crucial for P protein oligomerization. Similar to P protein primary phosphorylation, the V protein primary phosphorylation at serine249 was not essential for minigenome transcription and replication, as both WT and mutant V proteins were found equally inhibitory to the minigenome replication. These results show that the primary phosphorylation of P protein has no essential role in Sendai virus transcription, replication, and pathogenesis., (Copyright 1999 Academic Press.)

Published
1999
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168. Accommodation of foreign genes into the Sendai virus genome: sizes of inserted genes and viral replication.

Author

Sakai Y, Kiyotani K, Fukumura M, Asakawa M, Kato A, Shioda T, Yoshida T, Tanaka A, Hasegawa M, and Nagai Y

Subjects
Animals, Cell Line, DNA, Recombinant genetics, Gene Expression, Gene Transfer Techniques, Genome, Viral, Mice, Mice, Inbred ICR, Recombination, Genetic, Respirovirus pathogenicity, Genetic Vectors, Respirovirus genetics, Respirovirus physiology, Virus Replication
Abstract

Sendai virus (SeV) is an enveloped virus with a negative sense genome RNA of about 15.3 kb. We previously established a system to recover an infectious virus entirely from SeV cDNA and illustrated the feasibility of using SeV as a novel expression vector. Here, we have attempted to insert a series of foreign genes into SeV of different lengths to learn how far SeV can accommodate extra genes and how the length of inserted genes affects viral replication in cells cultured in vitro and in the natural host, mice. We show that a gene up to 3.2 kb can be inserted and efficiently expressed and that the replication speed as well as the final virus titers in cell culture are proportionally reduced as the inserted gene length increases. In vivo, such a size-dependent effect was not very clear but a remarkably attenuated replication and pathogenicity were generally seen. Our data further confirmed reinforcement of foreign gene expression in vitro from the V(-) version of SeV in which the accessory V gene had been knocked out. Based on these results, we discuss the utility of SeV vector in terms of both efficiency and safety.

Published
1999
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169. Comparison of substrate specificities against the fusion glycoprotein of virulent Newcastle disease virus between a chick embryo fibroblast processing protease and mammalian subtilisin-like proteases.

Author

Fujii Y, Sakaguchi T, Kiyotani K, and Yoshida T

Subjects
Animals, Cell Line, Chick Embryo, Cricetinae, Humans, Macaca mulatta, Newcastle disease virus pathogenicity, Proprotein Convertase 5, Proprotein Convertases, Protein Precursors metabolism, Serine Endopeptidases metabolism, Substrate Specificity, Tumor Cells, Cultured, Virulence, Virus Activation, Endopeptidases metabolism, Glycoproteins metabolism, Newcastle disease virus growth & development, Protein Processing, Post-Translational, Subtilisins metabolism, Viral Fusion Proteins metabolism
Abstract

The fusion (F) protein precursor of virulent Newcastle disease virus (NDV) strains has two pairs of basic amino acids at the cleavage site, and its intracellular cleavage activation occurs in a variety of cells; therefore, the viruses cause systemic infections in poultry. To explore the protease responsible for the cleavage in the natural host, we examined detailed substrate specificity of the enzyme in chick embryo fibroblasts (CEF) using a panel of the F protein mutants at the cleavage site expressed by vaccinia virus vectors, and compared the specificity with those of mammalian subtilisin-like proteases such as furin, PC6 and PACE4 which are candidates for F protein processing enzymes. It was demonstrated in CEF cells that Arg residues at the -4, -2 and -1 positions upstream of the cleavage site were essential, and that at the -5 position was required for maximal cleavage. Phe at the +1 position was also important for efficient cleavage. On the other hand, furin and PC6 expressed by vaccinia virus vectors showed cleavage specificities against the F protein mutants consistent with that shown by the processing enzyme of CEF cells, but PACE4 hardly cleaved the F proteins including the wild type. These results indicate that the proteolytic processing enzymes of poultry for virulent NDV F proteins could be furin and/or PC6 but not PACE4. The significance of individual contribution of the three amino acids at the -5, -2 and +1 positions to cleavability was discussed in relation to the evolution of virulent and avirulent NDV strains.

Published
1999
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170. Sendai virus C proteins are categorically nonessential gene products but silencing their expression severely impairs viral replication and pathogenesis.

Author

Kurotani A, Kiyotani K, Kato A, Shioda T, Sakai Y, Mizumoto K, Yoshida T, and Nagai Y

Subjects
Animals, Base Sequence, Blotting, Western, Cell Line, Chick Embryo, Haplorhini, Mice, Mice, Inbred ICR, Molecular Sequence Data, Mutagenesis, Open Reading Frames, Phosphoproteins genetics, Phosphoproteins metabolism, Protein Biosynthesis, RNA, Viral metabolism, Respirovirus pathogenicity, Transcription, Genetic, Virulence, Gene Expression, Respirovirus genetics, Respirovirus physiology, Viral Proteins genetics, Viral Proteins physiology, Virus Replication
Abstract

Background: The P/C mRNA of Sendai virus (SeV), a prototypic member of the family Paramyxoviridae in the Mononegavirales superfamily comprising a large number of nonsegmented negative strand RNA viruses, encodes a nested set of accessory proteins, C', C, Y1 and Y2, referred to collectively as C proteins, initiating, respectively, at ACG/81 and AUGs/114, 183, 201 in the +1 frame relative to the ORF of phospho (P) protein, the smaller subunit of RNA polymerase. Among them, C is the major species expressed in infected cells at a molar ratio which is several-fold higher than the other three. However, their function has remained an enigma. It has not even been established whether or not the C proteins are essential for viral replication. Many other viruses in Mononegavirales encode C-like proteins, but their roles also remain to be defined., Results: By taking advantage of a recently developed reverse genetics system to recover infectious SeV from cDNA, we created mutants in which C protein frames were variously silenced. C/C'(-) viruses which did not express C and C', but did express Y1 and Y2, were severely attenuated in replication in tissue culture cells of various species and tissues, as well as in embryonated chicken eggs. More notably, they were almost totally incapable of growing productively in--and hence nonpathogenic for mice--the natural host. Both gene expression and genome replication appeared to be impaired in C/C'(-) viruses. Additionally silencing the Y1 and Y2 expression was also possible, and a critically impaired but viable clone, the 4C(-) virus, was isolated which expressed none of the four C proteins., Conclusion: SeV C proteins are categorically nonessential gene products, but greatly contribute to full replication capability in vitro and are indispensable for in vivo multiplication and pathogenesis. This study represents the first comprehensive functional assessment of the accessary C protein for Mononegavirales.

Published
1998
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171. Phosphorylation of the Sendai virus M protein is not essential for virus replication either in vitro or in vivo.

Author

Sakaguchi T, Kiyotani K, Kato A, Asakawa M, Fujii Y, Nagai Y, and Yoshida T

Subjects
Animals, DNA, Complementary chemistry, Male, Mice, Mice, Inbred ICR, Mutagenesis, Site-Directed, Phosphorylation, Respirovirus genetics, Respirovirus isolation & purification, Serine physiology, Viral Matrix Proteins genetics, Respirovirus pathogenicity, Viral Matrix Proteins metabolism, Virus Replication physiology
Abstract

A large proportion of intracellular Sendai virus (SeV) M proteins is phosphorylated, but in mature virions the M protein is not phosphorylated or dephosphorylated. Phosphorylated M protein in cells is bound to the cytoskeletal components more firmly than unphosphorylated M protein. Thus it has been hypothesized that M protein phosphorylation plays an important role in the virus life cycle, especially in the step of maturation. Here, a transient expression-mutation experiment of the M gene demonstrated that a change of the Ser residue at the 70th position from the N-terminus to Ala (S70A) totally abolished M protein phosphorylation, strongly suggesting that this residue is phosphorylated. The mutated M gene was then placed in the corresponding region in the cDNA plasmid which generates a full-length antigenome SeV RNA, and a mutant SeV M-S70A was successfully recovered from the cDNA. This mutant virus was indeed defective in M protein phosphorylation but did not differ at all from the wild-type SeV recovered from the parental cDNA either in the replication kinetics and plaque morphology in cultured cells or in in vivo replication and pathogenicity for mice. We thus concluded that no phosphorylation of the M protein was required for SeV replication either in vitro or in vivo.

Published
1997
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172. The paramyxovirus, Sendai virus, V protein encodes a luxury function required for viral pathogenesis.

Author

Kato A, Kiyotani K, Sakai Y, Yoshida T, and Nagai Y

Subjects
Animals, Blotting, Northern, Blotting, Western, Cells, Cultured, DNA, Complementary genetics, DNA, Complementary metabolism, Gene Expression Regulation, Viral genetics, Immunohistochemistry, Lung cytology, Lung virology, Mice, Mutagenesis, Site-Directed genetics, Mutation genetics, Plasmids genetics, RNA Editing genetics, RNA, Messenger genetics, RNA, Messenger metabolism, Respirovirus Infections virology, Viral Proteins genetics, Phosphoproteins, Respirovirus chemistry, Viral Proteins metabolism
Abstract

The Sendai virus (SeV) V protein is characterized by the unique cysteine-rich domain in its carboxy-terminal half which is fused to the amino-terminal half of the P protein, but its function has remained enigmatic. The V protein-directing mRNA is generated by a remarkable process known as mRNA editing involving the pseudotemplated addition of a single G residue at a specific septinucleotide locus in the P gene, whereas the unedited exact copy encodes the P protein. Here, we introduced two nucleotide changes in the septinucleotide motif (UUUUCCC to UUCUUCC) in a full-length SeV cDNA and were able to recover a virus from the cDNA, which was devoid of mRNA editing and hence unable to synthesize the V protein. Compared with the parental wild-type virus with regard to gene expression, replication and cytopathogenicity in various cell lines in vitro, the V(-) virus was found to be either potentiated or comparable but never attenuated. The V(-) virus, however, showed markedly attenuated in vivo replication capacity in and pathogenicity for mice. Thus, though categorized as a nonessential gene product, SeV V protein encodes a luxury function required for in vivo pathogenicity.

Published
1997
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173. Identification of endoprotease activity in the trans Golgi membranes of rat liver cells that specifically processes in vitro the fusion glycoprotein precursor of virulent Newcastle disease virus.

Author

Sakaguchi T, Matsuda Y, Kiyokage R, Kawahara N, Kiyotani K, Katunuma N, Nagai Y, and Yoshida T

Subjects
Animals, Calcimycin pharmacology, Calcium physiology, Cations, Divalent, Cell Line, Endopeptidases chemistry, Golgi Apparatus enzymology, Hydrogen-Ion Concentration, In Vitro Techniques, Intracellular Membranes metabolism, Liver metabolism, Molecular Weight, Newcastle disease virus pathogenicity, Polyethylene Glycols pharmacology, Protease Inhibitors pharmacology, Protein Processing, Post-Translational drug effects, Rats, Endopeptidases metabolism, Golgi Apparatus metabolism, Newcastle disease virus metabolism, Viral Fusion Proteins metabolism
Abstract

A ubiquitous host endoprotease(s) responsible for activation of the fusion glycoprotein precursor (F0) of virulent Newcastle disease virus (NDV) is an important determinant for its spreading and organ tropism in the host. To characterize the virus-activating protease (VAP), we isolated endoprotease activity from the trans Golgi membranes of rat liver cells by using F0-containing NDV particles grown in a lymphoid cell line NALM6 as substrate. The enzyme cleaved in vitro only the F0 protein of virulent NDV but not that of an avirulent strain, suggesting that it specifically recognizes pairs of basic residues at the cleavage site. Furthermore, the enzyme was found to be membrane-bound, calcium ion-dependent, and active over a broad pH range, from 6 to 8. The inhibitor spectrum of the protease together with the enzyme properties described above indicates that it is a KEX2-like enzyme. Experiments using monensin, A23187, and chloroquine indicate that the F0 cleavage of virulent NDV occurs normally in rat primary hepatocytes at or before the trans Golgi and is a calcium-dependent process. The correspondence between the characteristics of the cleavage in rat hepatocytes and those of the rat protease in vitro indicates that the endoprotease is a strong candidate for the VAP that determines the pantropic nature of virulent NDV.

Published
1991
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174. Immediate protection of mice from lethal wild-type Sendai virus (HVJ) infections by a temperature-sensitive mutant, HVJpi, possessing homologous interfering capacity.

Author

Kiyotani K, Takao S, Sakaguchi T, and Yoshida T

Subjects
Animals, Blotting, Western, Killer Cells, Natural immunology, Lung microbiology, Lung pathology, Male, Mice, Mice, Inbred ICR, Parainfluenza Virus 1, Human pathogenicity, Parainfluenza Virus 1, Human radiation effects, Paramyxoviridae Infections pathology, Temperature, Ultraviolet Rays, Viral Proteins analysis, Virulence, Mutation, Parainfluenza Virus 1, Human genetics, Paramyxoviridae Infections immunology
Abstract

Protection of mice from lethal Sendai virus (HVJ) infections by a temperature-sensitive mutant, HVJpi, which was isolated from a carrier culture, was studied. HVJpi had a strong interfering capacity with the replication of virulent wild-type virus in LLCMK2 cells. When a high dose of HVJpi (3.0 x 10(7) CIU) was inoculated intranasally into mice, the mice showed neither illness nor lung lesions but gained significant resistance against the challenge of virulent wild-type virus (18 LD50) immediately after inoculation. In contrast, the mice inoculated with a lower dose of HVJpi (8.2 x 10(5) CIU) did not show the immediate resistance but became immune several days after inoculation. Time courses of the virus replication in the lung revealed that the replication of wild-type virus was strongly suppressed to about 1/1000 by the simultaneous infection with a high dose of HVJpi, thus resulting in minimizing the lung lesions and survival of all the mice infected. Neither interferon nor natural killer cells appeared to play a major role in the immediate immune status by HVJpi, since no difference was observed in protection of mice simultaneously infected with wild-type virus and HVJpi in spite of pretreatment of the mice with anti-interferon and anti-asialo GM1 antibodies as compared with that of the untreated doubly infected mice. On the other hand, it was suggested by analysis of viral polypeptides synthesized in the lung of infected mice by Western blotting that the early stage of replication of wild-type virus in the lung was inhibited mainly by the interfering capacity of HVJpi. These results indicate that HVJpi is an unique virus mutant which is capable of protecting mice from lethal Sendai virus infections by its interfering capacity immediately after inoculation and then by the induction of virus-specific immune responses.

Published
1990
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176. [A case of pulmonary disease due to Mycobacterium avium-intracellulare complex].

Author

Kuwabara M, Kato M, Kim SK, Kiyotani K, and Tasaka H

Subjects
Humans, Male, Middle Aged, Nontuberculous Mycobacteria isolation & purification, Mycobacterium isolation & purification, Mycobacterium Infections microbiology, Mycobacterium Infections, Nontuberculous microbiology, Mycobacterium avium isolation & purification, Tuberculosis, Pulmonary microbiology
Published
1977

177. Purification and characterization of beta-glucuronidase inhibitor from Mycobacterium tuberculosis.

Author

Kiyotani K, Tasaka H, and Matsuo Y

Subjects
Amino Acids analysis, Aspartic Acid analysis, Glutamates analysis, Glutamic Acid, Glycoproteins analysis, Glycoproteins pharmacology, Hydrogen-Ion Concentration, Isoelectric Point, Molecular Weight, Glucuronidase antagonists & inhibitors, Glycoproteins isolation & purification, Mycobacterium tuberculosis analysis
Abstract

Factors inhibitory to beta-glucuronidase were found in the culture filtrate and in a bacillary extract of Mycobacterium tuberculosis H37Rv grown for 6 weeks on Sauton medium. The inhibitors were purified by ammonium sulfate fractionation, treatment with n-butanol and streptomycin, and chromatography on DEAE-Sepharose CL-6B. Two inhibitors were obtained from the culture filtrate. The molecular weights were estimated to be 25,500 and 15,500 by gel filtration on a Sephadex G-75 column. Three inhibitors were purified from the bacillary extract, two of which were similar to those from the culture filtrate. The molecular weight of the third inhibitor was 21,000. However, the molecular weight of all the denatured inhibitors was 8,600 in the presence of sodium dodecyl sulfate. The inhibitors contained extremely high amounts of glutamic and aspartic acids and had a highly acidic isoelectric point of pH 2.5. The inhibitors acted noncompetitively against beta-glucuronidase of guinea pig origin at an optimal pH 4.5. beta-Glucuronidases from human peripheral leukocytes and beef liver were partially sensitive to the inhibitors; all the other enzymes tested for sensitivity were unaffected by the inhibitors.

Published
1983
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186. Enzymological characteristics of avian influenza A virus neuraminidase.

Author

Kiyotani K, Takei N, Senoo M, Takao S, Otsuki K, Tsubokura M, and Yoshida T

Subjects
Colorimetry, Edetic Acid pharmacology, Epitopes, Fluorometry, Species Specificity, Substrate Specificity, Influenza A virus enzymology, Neuraminidase metabolism
Abstract

Neuraminidases of 18 strains of avian influenza A virus were examined by both colorimetric and fluorometric assays using fetuin and 4-methylumbelliferyl-N-Ac-alpha-D-neuraminide as substrates, respectively, to compare them with those of human influenza A and B viruses. The ratios of the neuraminidase activity of avian influenza virus measured by the colorimetric assay method to that measured by the fluorometric assay were distributed in the range of 2.4-20.3. The enzyme of avian influenza virus showed calcium-ion dependence in both assay methods. These results suggest that neuraminidase of avian influenza A virus is varies greatly from one strain to another in substrate specificity as compared with those of human influenza A and B viruses, and that some strains of avian influenza A virus have a neuraminidase with unique enzymological characteristics different from that of human influenza A virus as well as that of influenza B virus.

Published
1987
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187. Ultrasonographic manifestations of liver abscesses; an experimental study.

Author

Ito K, Ito S, Naito A, Mori M, Katsuta S, Kiyotani K, and Yamamoto M

Subjects
Animals, Bacteroides Infections diagnosis, Bacteroides fragilis, Escherichia coli Infections diagnosis, Liver Abscess etiology, Male, Rabbits, Staphylococcal Infections diagnosis, Liver Abscess diagnosis, Ultrasonography
Published
1988

191. Endoproteolytic activation of Newcastle disease virus fusion proteins requires an intracellular acidic environment.

Author

Yoshida T, Takao S, Kiyotani K, and Sakaguchi T

Subjects
Animals, Cell Line, Hydrogen-Ion Concentration, Newcastle disease virus drug effects, Ammonium Chloride pharmacology, Chloroquine pharmacology, Newcastle disease virus metabolism, Viral Fusion Proteins metabolism
Abstract

Effects of weak bases, chloroquine and ammonium chloride, on the intracellular cleavage of the fusion protein precursor (F0) were examined in BHK cells infected with a virulent strain of Newcastle disease virus (NDV). Most of F0 molecules synthesized during a 15-min pulse period were chased out because of cleavage into F1 and F2 within a 60-min chase period in the absence of the weak bases. In contrast, significant amounts of the precursor were found to remain uncleaved when chloroquine or ammonium chloride was present. The uncleaved fusion proteins were incorporated into progeny virions as efficiently as cleaved ones, and about the half of fusion proteins were present as F0 in the virion released by the cells treated with 0.3 mM chloroquine. Taken together with the finding that the trans cisternae of Golgi apparatus and forming secretory vesicles have an acidic pH (K. G. W. Anderson and R. K. Pathak, Cell, 40, 685-643, 1985), the present results suggest that an acidic environment in these compartments is required for intracellular proteolytic activation of NDV fusion proteins.

Published
1989
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194. Enzymological heterogeneity of influenza B virus neuraminidase demonstrated by the fluorometric assay method.

Author

Kiyotani K, Takei N, and Matsuo Y

Subjects
Clostridium perfringens drug effects, Clostridium perfringens enzymology, Colorimetry, Dose-Response Relationship, Drug, Edetic Acid pharmacology, Egtazic Acid pharmacology, Influenza A virus drug effects, Influenza A virus enzymology, Influenza B virus drug effects, Neuraminidase antagonists & inhibitors, Species Specificity, Spectrometry, Fluorescence, Viral Plaque Assay, Influenza B virus enzymology, Neuraminidase analysis
Abstract

The neuraminidase activity of 26 strains of influenza B virus isolated from all over the world was investigated colorimetrically, using fetuin as a substrate, and fluorometrically, using 4-methylumbelliferyl(4-MU)-N-Ac-alpha-D-neuraminide as a substrate, with special reference to enzymological heterogeneity. The activity of influenza A viral neuraminidases and of a commercially available pure viral one was strongly inactivated by either ethylenediaminetetraacetic acid or glycoletherdiaminetetraacetic acid, when measured by the fluorometric assay method, whereas that of influenza B ones was not at all. However, the viral neuraminidases of both influenza A and B viruses were found to be calcium ion-dependent by the colorimetric assay method. A difference in the catalytic rate between the two assay methods was observed with influenza B viral neuraminidase to a much greater extent as compared with that of influenza A. A difference in substrate specificity of these enzymes was demonstrated to be due to a difference in the degree of competitive inhibition by N-acetylneuraminic acid. These findings strongly suggest that enzymological heterogeneity in influenza B viral neuraminidase may be attributed to delicate structural differences, between the enzymes of influenza A and B viruses demonstratable only by the fluorometric neuraminidase assay method using 4-MU-N-Ac-alpha-D-neuraminide as a substrate.

Published
1985
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196. A new heat-stable acid phosphatase test for mycobacteria.

Author

Saito H, Yamaoka K, Kiyotani K, and Masai H

Subjects
Animals, Bacteriological Techniques, Diagnosis, Differential, Heating, Humans, Mycobacterium enzymology, Mycobacterium Infections diagnosis, Mycobacterium Infections enzymology, Acid Phosphatase analysis, Mycobacterium classification
Abstract

The heat-stable (70degrees C) acid phosphatase test performed by the method of Kind and King is a simple method for differentiating Mycobacterium kansasii, M. marinum, M. gastri, M. nonchromogenicum, and M. triviale from other slowly growing mycobacteria, and M. fortuitum from other rapidly growing acid-fast bacilli.

Published
1976
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