Tsunao Hirai scite author profile

A virus (designated the Shintoku strain) which was morphologically indistinguishable from group A rotaviruses was detected in the feces of adult cows with diarrhea in Japan. The virus contained 11 segments of double-stranded RNA and had an electrophoretic migration pattern in polyacrylamide gels similar to that of other group C rotaviruses (4-3-2-2). Feces containing the bovine virus reacted with antiserum to porcine group C rotavirus (Cowden strain) but not group A or B rotaviruses in immunoelectron microscopy. The virus was adapted to serial propagation in roller tube cultures of a rhesus monkey kidney cell line (MA104) by using high concentrations of trypsin. Evidence for viral replication in MA104 cell cultures was demonstrated by immunoelectron microscopy and indirect immunofluorescence by using antiserum to porcine group C rotavirus and by electrophoretic analysis of extracted viral double-stranded RNA. A significant antibody response against the isolate was detected in convalescent-phase sera of cows which excreted the virus: no increased antibody response to bovine group A rotavirus was observed. To our knowledge, this is the first isolation of a group C rotavirus from cattle.

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Isolation of Bovine Coronavirus from Feces and Nasal Swabs of Calves with Diarrhea.

Tsunemitsu¹,

Yonemichi²,

Hirai³

et al. 1991

J. Vet. Med. Sci.

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Enhancement of Passive Immunity with Maternal Vaccine against Newborn Calf Diarrhea.

Kohara

Hirai

Mori

et al. 1997

The Journal of Veterinary Medical Science

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ABSTRACT. The effects of a maternal vaccine against newborn calf diarrhea associated with group A bovine rotavirus (BRV), bovine coronavirus (BCV), bovine parvovirus and K99 Escherichia coli (E.coli) were examined on a beef cow-calf herd. After vaccination, serum or colostrum antibody titers to BRV, BCV and E. coli K99 in the vaccinated cows were significantly higher than those in unvaccinated control cows. Serum antibody titers to BRV, BCV and E. coli K99 in calves from the vaccinated cows were also significantly higher than those in calves from the control cows for 3-4 weeks after birth. These results suggested that the immunization of cows with the maternal vaccine enhanced the passive immunity levels in calves against BRV, BCV and K99 E. coli. -KEY WORDS: bovine coronavirus, bovine rotavirus, K99 Escherichia coli.J. Vet. Med. Sci. 59(11): 1023-1025, 1997 the first vaccination, the second booster injection was given in the same manner. The remaining 48 cows served as unvaccinated controls. The calves from the vaccinated and control cows were observed for clinical signs once daily. Serum samples were collected from the vaccinated cows at vaccination, at calving and post-calving days 2, 7 and 28, and from the control cows at times corresponding to sampling in the vaccinated cows. Colostrum and milk samples were collected from all the cows on the day of calving and post-calving days 2, 7 and 28. Serum and feces were taken from all the calves on days 2, 7, 21 and 28 after birth. Feces were also obtained when these calves developed diarrhea. The fecal suspensions were examined for enteric viruses by electron microscopy [2], and group A BRV was also detected by a latex agglutination test (Rotalex; Orion Diagnosis, Espoo, Finland). Virus-neutralizing antibody titers to NCDV (G6) and KK3 (G10) strains of group A BRV in serum and milk samples were determined by a fluorescence focus neutralizing (FFN) test with MA104 cells as described previously [9]. The virus-neutralizing antibody titers to the Mebus strain of BCV and the BF-15 strain of BPV were determined by CPE inhibition tests with HRT-18 cells and BT cells, respectively [15,19]. E. coli K99 antibody titers were determined by a passive hemagglutination test [8]. Statistical analysis of the data was performed using the Student's t-test and the χ 2 test.Abortions and other adverse reactions were not observed in the 48 vaccinated pregnant cows. At the first vaccination, there were no differences in serum antibody titers to BRV, BCV, BPV and E. coli K99 between the vaccinated and control cows. At the second vaccination, serum antibody titers to both G serotypes of BRV, BCV and E. coli K99 in the vaccinated cows increased and were higher than those of controls (P<0.05) ( Table 1). Colostrum antibody titers to both serotypes of BRV and E. coli K99 in the vaccinated cows were higher than those of control cows (P<0.05). For 3-4 weeks after birth, the calves from the vaccinated cows

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Protection against bovine rotaviruses in newborn calves by continuous feeding of immune colostrum.

Tsunemitsu¹,

Shimizu²,

Hirai³

et al. 1989

The Japanese Journal of Veterinary Science

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Three pregnant cows were inoculated intramuscularly with inactivated vaccine to bovine rotavirus (BRV) serotype 1 (BRV-1) and serotype 2 (BRV-2). Serum neutralizing antibody (NA) titers against both serotypes increased significantly after immunization. NA titers of colostrum obtained from immunized cows against BRV-1 and BRV-2 were 29286 and 38109, respectively, which were significantly higher than those from non-immunized control cows. Nine and 6 colostrum deprived calves were orally challenged with BRV-1 and BRV-2, respectively, and monitored for clinical manifestation and viral shedding. Five calves of them, 3 with BRV-1 and 2 with BRV-2, received 2 l of milk replacer supplemented with 10% immune colostrum 2 hr before challenge and twice daily for the first 5 days after challenge. Other 10 calves, 6 with BRV-1 and 4 with BRV-2, were fed only milk replacer as controls. All control calves developed severe diarrhea and shed a large amount of BRV in feces, beginning from 24 to 48 hr after challenge inoculation. On the contrary, all calves but one fed colostrum supplement remained clinically healthy after challenge, and BRV was not detected in their feces during feeding immune colostrum. The possibility that continuous feeding of immune colostrum is capable of preventing newborn calves from diarrhea associated with BRV and viral shedding was suggested.

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Effects of Recombinant Bovine Granulocyte-Macrophage Colony-Stimulating Factor on Bovine Peripheral Blood Neutrophil Functions in vitro and in vivo

Hirai

Oikawa

Inumaru

et al. 1999

The Journal of Veterinary Medical Science

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ABSTRACT. Effects of recombinant bovine granulocyte-macrophage colony-stimulating factor (rboGM-CSF) on bactericidal activity of bovine peripheral blood neutrophils in vitro and in vivo were studied. In in vitro experiment, bovine blood neutrophils were cultured for 9 hr in media containing 0.005, 0.05 or 0.5 µg/ml of rboGM-CSF. Neutrophils treated with rboGM-CSF showed significantly higher luminol-dependent chemiluminescence (LDCL) than control cells. In in vivo experiment, neutrophils isolated from cows injected 5.0 µg/ kg of rboGM-CSF showed significantly higher Nitrobluetetrazolium (NBT) reduction value than that from control cows 24 hr post injection. Total leukocyte counts of cows injected rboGM-CSF sharply decreased 6 hr post injection and recovered to normal level 2 days post injection. Body temperature of these cows rose 6 hr post injection and back to normal level at 24 hr post injection. It was suggested that rboGM-CSF enhanced bactericidal activity of bovine neutrophils both in vitro and in vivo.-KEY WORDS: bactericidal activity, neutrophil, recombinant bovine GM-CSF.

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Tsunao Hirai

Isolation, characterization, and serial propagation of a bovine group C rotavirus in a monkey kidney cell line (MA104)

Isolation of Bovine Coronavirus from Feces and Nasal Swabs of Calves with Diarrhea.

Enhancement of Passive Immunity with Maternal Vaccine against Newborn Calf Diarrhea.

Protection against bovine rotaviruses in newborn calves by continuous feeding of immune colostrum.

Effects of Recombinant Bovine Granulocyte-Macrophage Colony-Stimulating Factor on Bovine Peripheral Blood Neutrophil Functions in vitro and in vivo

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