• Microbiology and Biotechnology Letters
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• v.40 no.4
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• pp.339-347
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• 2012

Viral safety is an important prerequisite for clinical preparations of mammalian cell culture-derived biopharmaceuticals, because numerous adventitious viruses have been contaminated during the manufacturing process. In particular, Chinese hamster ovary (CHO) cells are highly susceptible to several RNA viruses including reovirus (Reo), bovine viral diarrhea virus (BVDV), and bovine parainfluenza virus (BPIV) and there have been reports of such viral contaminations. Therefore, viral detection during the CHO cell process is necessary to ensure the safety of biopharmaceuticals against viruses. In this study, a multiplex reverse transcription (RT)-PCR assay was developed and subsequently evaluated for its effectiveness as a means to simultaneously detect Reo, BVDV, and BPIV during the manufacture of cell culture-derived biopharmaceuticals. Specific primers for Reo, BVDV, and BPIV were selected, and a multiplex RT-PCR was optimized. The sensitivity of the assay for simultaneous amplification of all viral target RNAs was $7.76{\times}10^2\;TCID_{50}/ml$ for Reo, $7.44{\times}10^1\;TCID_{50}/ml$ for BVDV, and $6.75{\times}10^1\;TCID_{50}/ml$ for BPIV. The multiplex RT-PCR was proven to be very specific to Reo, BVDV, and BPIV and was subsequently applied to the validation of CHO cells artificially infected with each virus. It could detect each viral RNA from CHO cells as well as culture supernatants. Therefore, it was concluded that the multiplex RT-PCR assay can be applied to detection of the adventitious viruses during the manufacture of cell culture-derived biopharmaceuticals.

• Korean Journal of Veterinary Research
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• v.50 no.3
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• pp.205-211
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• 2010

Fifty young calves, about five to six months old purchased from nation-wide were investigated with the prevelance of neutralizing antibody (Ab) of infectious bovine rhinotracheitis virus (IBRV), parainfluenza 3 virus ($PI_{3}V$), bovine viral diarrhea virus (BVDV) and bovine respiratory syncytial virus (BRSV). The positive detection ratio of neutralizing Ab against IBRV was only 3% and two of positive samples showed low antibody titer (below 2). Ab against BRSV showed 48% of positive ratio and among 24 positive samples, antibody titer of 23 samples were below 3. But in the case of BVDV, 68% of samples were positive and 23 samples appeared to possess high antibody titer, above 4 and the antibody titer of five samples were above 8. The highest positive result came from $PI_{3}V$. The positive ratio in the samples investigated in this study was 72%, but the antibody titer of positive samples were generally below 3 (77.8% in positive samples).

• Korean Journal of Veterinary Research
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• v.55 no.3
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• pp.185-189
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• 2015

Bovine parainfluenza virus type 5 (bPIV5) was isolated from cattle with downer cow syndrome in 2012, and included both respiratory and neurotropic pathogens from a variety of animals. In the current study, we conducted serosurveillance using sera obtained from seven Korean farms and optimized a reverse transcription-polymerase chain reaction (RT-PCR) assay to detect bPIV5. The overall seropositive rate for Korean cattle was 21.4% (163/760). A farm located near the city of Milyang in Gyeoungnam province had a markedly elevated seropositive rate for bPIV5 compared to that of the other six farms. The regional seropositive rates were 4.2% (8/192) for Haman, 19.5% (18/55) for Hwasung, 73.9% (65/88) for Milyang, 26.0% (50/192) for Namwon, 1.0% (1/96) for Uljin, 13.5% (13/96) for Yeongju, and 32.7% (8/41) for Yongin. The sensitivity and specificity of three RT-PCR primer sets used to amplify the conserved fusion gene of bPIV5 were also evaluated. An RT-PCR assay using the bPIVFR3 primer set was 10-fold more sensitive than the assays using the two other primer sets and did not result in non-specific amplification. These results demonstrated that the bPIFR3 primer set can be used to detect bPIV5.

• Journal of Veterinary Clinics
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• v.36 no.4
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• pp.185-189
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• 2019

Respiratory pathogens of calves including bovine parainfluenza type 3 virus (BPI3V), bovine respiratory syncytial virus (BRSV), infectious bovine rhinotracheitis virus (IBRV) and Mycoplasma spp is well-known for winter pathogens. However, there are no studies about summer pneumonia pathogens of calves in Korea. The aim of this study was to detect respiratory pathogens from calves with summer pneumonia. Eighty calves from 5 regions were chosen and their nasal swabs were used to detect respiratory pathogens with real-time PCR. Mycoplasma spp was major primary respiratory pathogens in calves with summer pneumonia. Although, the detection rates of respiratory viruses were very low, serological assays showed that respiratory viruses exist widely in farms.

• Korean Journal of Veterinary Research
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• v.35 no.3
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• pp.615-623
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• 1995

Sera from 304 Holsteins or Korean native cattle were collected from slaughterhouse in Kwangju area to study the infection of major virus-borne diseases. Serum antibody titers against infectious bovine rhinotracheitis virus(IBRV), bovine viral diarrhea virus(BVDV), parainfluenza type-3 virus(PI-3V), bovine ephemeral fever virus(BEFV), bovine Ibaraki virus(BIV), bovine Akabane virus(BAKV), bovine rotavirus(BRV), bovine coronavirus(BCV) were measured by serum neutralization tests. Results which obtained were as follows. Sera from 280 cattle(92.1%) contained antibodies against BRV which rate was the highest among the 8 viruses, and serum antibodies against BCV, BVDV, BIV, BAKV, BEFV, IBRV and PI-3V were detected from 266(87.5%), 149(49%), 108(35.5%), 94(30.9%), 80(26.3%), 32(10.5%) and 24(7.9%) cattle, respectively. Prevalence of seropositives to BVDV, BIV, BAKV, BEFV were higher among Holsteins than among the Korean native cattle(P<0.05). Prevalence of antibody titers against BVDV, BIV and BEFV in Korean native cattle were higher among females than males, while more males contained antibodies to BAKV, IBRV and PI-3V than females in their blood(P<0.05). Seropositives to BVDV, BIV, BAKV, BEFV and IBRV in Holsteins were higher among females than males(P<0.05). In Korean native cattle, serum antibody titers against IBRV and PI-3V ranged from 1:2~1:32 and 1:2~1:64, respectively, while serum antibody titers against the rest 6 viruses ranged from $1:2{\sim}1:{\geq}256$. In Holsteins, serum antibody titers against IBRV and PI-3V ranged from 1:2~1:64 and 1:2~1:32, respectively, while serum antibody titers against the rest 6 viruses ranged from $1:2{\sim}1:{\geq}256$.

• Korean Journal of Microbiology
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• v.48 no.4
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• pp.314-318
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• 2012

Most types of collagen used for biomedical applications, such as cell therapy and tissue engineering, are derived from animal tissues. Therefore, special precautions must be taken during the production of these proteins in order to assure against the possibility of the products transmitting infectious diseases to the recipients. The ability to remove and/or inactivate known and potential viral contaminants during the manufacturing process is an ever-increasingly important parameter in assessing the safety of biomedical products. The purpose of this study was to evaluate the efficacies of the 70% ethanol treatment and pepsin treatment at pH 2.0 for the inactivation of bovine viruses during the manufacture of collagen type I from bovine hides. A variety of experimental model viruses for bovine viruses including bovine herpes virus (BHV), bovine viral diarrhea virus (BVDV), bovine parainfluenza 3 virus (BPIV-3), and bovine parvovirus (BPV), were chosen for the evaluation of viral inactivation efficacy. BHV, BVDV, BPIV-3, and BPV were effectively inactivated to undetectable levels within 1 h of 70% ethanol treatment for 24 h, with log reduction factors of ${\geq}5.58$, ${\geq}5.32$, ${\geq}5.11$, and ${\geq}3.42$, respectively. BHV, BVDV, BPIV-3, and BPV were also effectively inactivated to undetectable levels within 5 days of pepsin treatment for 14 days, with the log reduction factors of ${\geq}7.08$, ${\geq}6.60$, ${\geq}5.60$, and ${\geq}3.59$, respectively. The cumulative virus reduction factors of BHV, BVDV, BPIV-3, and BPV were ${\geq}12.66$, ${\geq}11.92$, ${\geq}10.71$, and ${\geq}7.01$. These results indicate that the production process for collagen type I from bovine hides has a sufficient virus-reducing capacity to achieve a high margin of virus safety.

• KSBB Journal
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• v.23 no.4
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• pp.303-310
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• 2008

Bovine blood, cell, tissue, and organ are used as raw materials for manufacturing biologics such as biopharmaceuticals, tissue-engineered products, and cell therapy. Manufacturing processes for the biologics have the risk of viral contamination. Therefore viral validation is essential in ensuring the safety of the products. Bovine parainfluenza virus type 3 (BPIV3) is one of the common bovine pathogens and has widely been known as a contaminant of biologics. In order to establish the validation system for the BPIV3 safety of biologics, a real-time RT-PCR method was developed for quantitative detection of BPIV3 contamination in raw materials, manufacturing processes, and final products. Specific primers for amplification of BPIV3 RNA was selected, and BPIV3 RNA was quantified by use of SYBR Green I. The sensitivity of the assay was calculated to be 2.8 $TCID_{50}/mL$. The real-time RT-PCR method was validated to be reproducible and very specific to BPIV3. The established real-time RT-PCR assay was successfully applied to the validation of Chinese hamster ovary (CHO) cell artificially infected with BPIV3. BPIV3 RNA could be quantified in CHO cell as well as culture supernatant. Also the real-time RT-PCR assay could detect 7.8 $TCID_{50}/mL$ of BPIV3 artificially contaminated in bovine collagen. The overall results indicated that this rapid, specific, sensitive, and robust assay can be reliably used for quantitative detection of BPIV3 contamination during the manufacture of biologics.

• Microbiology and Biotechnology Letters
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• v.37 no.4
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• pp.377-382
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• 2009

Viral safety is an important prerequisite for clinical preparations of all biopharmaceuticals derived from plasma, cell lines, or tissues of human or animal origin. To ensure the safety, implementation of multiple viral clearance (inactivation and/or removal) steps has been highly recommended for manufacturing of biopharmaceuticals. Of the possible viral clearance strategies, Ultraviolet-C (UVC) irradiation has been known as an effective viral inactivating method. However it has been dismissed by biopharmaceutical industry as a result of the potential for protein damage and the difficulty in delivering uniform doses. Recently a continuous flow UVC reactor (UVivatec) was developed to provide highly efficient mixing and maximize virus exposure to the UV light. In order to investigate the effectiveness of UVivatec to inactivate viruses without causing significant protein damage, the feasibility of the UVC irradiation process was studied with a commercial therapeutic protein. Recovery yield in the optimized condition of $3,000\;J/m^2$ irradiation was more than 98%. The efficacy and robustness of the UVC reactor was evaluated with regard to the inactivation of human immunodeficiency virus (HIV), hepatitis A virus (HAV), bovine herpes virus (BHV), bovine viral diarrhea virus (BVDV), porcine parvovirus (PPV), bovine parvovirus (BPV), minute virus of mice (MVM), reovirus type 3 (REO), and bovine parainfluenza virus type 3 (BPIV). Non enveloped viruses (HAV, PPV, BPV, MVM, and REO) were completely inactivated to undetectable levels by $3,000\;J/m^2$ irradiation. Enveloped viruses such as HIV, BVDV, and BPIV were completely inactivated to undetectable levels. However BHV was incompletely inactivated with slight residual infectivity remaining even after $3,000\;J/m^2$ irradiation. The log reduction factors achieved by UVC irradiation were ${\geq}3.89$ for HIV, ${\geq}5.27$ for HAV, 5.29 for BHV, ${\geq}5.96$ for BVDV, ${\geq}4.37$ for PPV, ${\geq}3.55$ for BPV, ${\geq}3.51$ for MVM, ${\geq}4.20$ for REO, and ${\geq}4.15$ for BPIV. These results indicate that UVC irradiation using UVivatec was very effective and robust in inactivating all the viruses tested.

• Korean Journal of Veterinary Research
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• v.54 no.2
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• pp.107-112
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• 2014

Four viruses showing cytopathic effects in MDBK cells were isolated from brains of cattle showing downer cattle syndrome in 2012. The isolates were confirmed to belong to the genus Rubulavirus of the subfamily Paramyxovirinae. Isolate QIA-B1201 had the ability to hemagglutinate red blood cells from several species of animals and was capable of adsorbing guinea pig erythrocytes on the surface of infected Vero cells. Nucleotide sequence analysis showed that two isolates (QIA-B1201 and QIA-B1204) had high similarity with other human and animal PIV5 isolates ranging from 98.1 to 99.8%. The highest sequence similarity of the two isolates corresponded to strain KNU-11 (99.8% at the nucleotide and amino acid level) isolated from suckling piglets in Korea in 2012. To evaluate the virulence of strain QIA-B1201, we inoculated bPIV5 into 5 week-old mice via both the intraperitoneal and intracranial route. Body weight was not significantly altered in mice inoculated with QIA-B1201. In this study, we isolated and characterized novel bPIV5s from brain samples showing downer cattle syndrome, but were not able to elucidate the pathogenicity of the bPIV5s in mice.

• Journal of Veterinary Clinics
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• v.17 no.1
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• pp.52-56
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• 2000

The objective of this study was to compare occurrence of the shipping fever associated with vaccination and mass medication in Korean Native Cow. Lack of vaccination (Pasteurella haemolytica, infectious bovine rhinotracheitis, bovine viral diarrhea, parainfluenza 3, and bovine respiratory syncytial virus) and mass medication before and after transportation, 67% of gram-negative cocci were detected. However, with vaccination and mass medication, only 33% of Gram-negative cocci were detected. When antimicrobial susceptibility for the detected bacterium was tested, apramycin, ampicillin, amilacin, clindamycin, gentamycin, kanamycin, penicillin, and streptomycin were resistant, whereas tylocin, amoxicillin, linocospetin, nalidixic acid, norfloxacin, oxalinic acid, and cefotaxime were susceptible. Morbidity and average therapeutic effect were 33% and 1.0time with vaccination and mass medication and were 78% and 5.3 times without vaccination and mass medication, respectively. Therefore, the results suggest that shipping fever would be considerably decreased with vaccination including mass medication before and after transportation.