1.First Case of Pasteurella multocida Pneumonic Bacteremia in Korea.
Jinho JANG ; Sang Ha KIM ; Gilsung YOO ; Gyu Yel HWANG ; Young UH ; Kap Jun YOON
Annals of Laboratory Medicine 2018;38(5):490-491
No abstract available.
Bacteremia*
;
Korea*
;
Pasteurella multocida*
;
Pasteurella*
2.In vitro treatment of lipopolysaccharide increases invasion of Pasteurella multocida serotype B:2 into bovine aortic endothelial cells
Seng Kar YAP ; Zunita ZAKARIA ; Siti Sarah OTHMAN ; Abdul Rahman OMAR
Journal of Veterinary Science 2018;19(2):207-215
Pasteurella multocida serotype B:2 causes hemorrhagic septicemia in cattle and buffalo. The invasion mechanism of the bacterium when invading the bloodstream is unclear. This study aimed to characterize the effects of immunomodulatory molecules, namely dexamethasone and lipopolysaccharide, on the invasion efficiency of P. multocida serotype B:2 toward bovine aortic endothelial cells (BAECs) and the involvement of actin microfilaments in the invasion mechanism. The results imply that treatment of BAECs with lipopolysaccharide at 100 ng/mL for 24 h significantly increases the intracellular bacteria number per cell (p < 0.01) compared with those in untreated and dexamethasone-treated cells. The lipopolysaccharide-treated cells showed a significant decrease in F-actin expression and an increase in G-actin expression (p < 0.001), indicating actin depolymerization of BAECs. However, no significant differences were detected in the invasion efficiency and actin filament reorganization between the dexamethasone-treated and untreated cells. Transmission electron microscopy showed that P. multocida B:2 resided in a vacuolar compartment of dexamethasone-treated and untreated cells, whereas the bacteria resided in cellular membrane of lipopolysaccharide-treated cells. The results suggest that lipopolysaccharide destabilizes the actin filaments of BAECs, which could facilitate the invasion of P. multocida B:2 into BAECs.
Actin Cytoskeleton
;
Actins
;
Animals
;
Bacteria
;
Buffaloes
;
Cattle
;
Dexamethasone
;
Endothelial Cells
;
Hemorrhagic Septicemia
;
In Vitro Techniques
;
Membranes
;
Microscopy, Electron, Transmission
;
Pasteurella multocida
;
Pasteurella
;
Serogroup
3.Meningoencephalitis and pneumonia caused by Pasteurella multocida in rabbits
Jiyeon JEONG ; Kyunghyun LEE ; Eun Jin CHOI ; Ha Young KIM ; Jun Hyung SOHN ; ByungJae SO ; Ji Youl JUNG
Korean Journal of Veterinary Research 2018;58(1):61-64
Eight rabbits exhibited head tilt and subsequently died. At necropsy, three rabbits had crusty deposits in ears and four had reddish lungs. The main histopathological features were severe diffuse suppurative meningoencephalitis (75.0% of rabbits), fibrinopurulent pneumonia (37.5%), and otitis externa (37.5%). Pasteurella multocida (P. multocida) was isolated from brains, ears, and lungs. The capsular serogroups of the isolates were untypable. Based on histopathological features and bacterial analysis results, the rabbits were diagnosed as P. multocida infection. P. multocida infections might result in considerable economic loss in commercial rabbit production facilities in Korea.
Brain
;
Ear
;
Head
;
Korea
;
Lung
;
Meningoencephalitis
;
Otitis Externa
;
Pasteurella Infections
;
Pasteurella multocida
;
Pasteurella
;
Pneumonia
;
Rabbits
;
Serogroup
4.Survey of porcine respiratory disease complex-associated pathogens among commercial pig farms in Korea via oral fluid method.
Yeotaek CHEONG ; Changin OH ; Kunkyu LEE ; Ki hyun CHO
Journal of Veterinary Science 2017;18(3):283-289
Oral fluid analysis for herd monitoring is of interest to the commercial pig production in Korea. The aim of this study was to investigate pathogen-positive rates and correlations among eight pathogens associated with porcine respiratory disease complex by analyzing oral fluid samples from 214 pig groups from 56 commercial farms. Samples collected by a rope-chewing method underwent reverse-transcriptase polymerase chain reaction (RT-PCR) or standard polymerase chain reaction (PCR) analysis, depending on the microorganism. Pathogens were divided into virus and bacteria groups. The former consisted of porcine reproductive and respiratory syndrome virus and porcine circovirus type 2 (PCV2), and the latter Pasteurella multocida, Haemophilus parasuis, Actinobacillus pleuropneumoniae, Mycoplasma hyopneumoniae (MHP), Mycoplasma hyorhinis, and Streptococcus suis (SS). All pathogens were detected more than once by PCR. Age-based analysis showed the PCR-positive rate increased with increasing age for PCV2 and MHP, whereas SS showed the opposite. Correlations between pathogens were assessed among 36 different pair combinations; only seven pairs showed statistically significant correlations. In conclusion, the oral fluid method could be a feasible way to detect various swine respiratory disease pathogens and, therefore, could complement current monitoring systems for respiratory diseases in the swine industry.
Actinobacillus pleuropneumoniae
;
Agriculture*
;
Bacteria
;
Circovirus
;
Complement System Proteins
;
Haemophilus parasuis
;
Korea*
;
Methods*
;
Mycoplasma hyopneumoniae
;
Mycoplasma hyorhinis
;
Pasteurella multocida
;
Polymerase Chain Reaction
;
Porcine respiratory and reproductive syndrome virus
;
Streptococcus suis
;
Swine
5.Pasteurella multocida isolation from pigs with respiratory disease in Korea.
Ki Eun LEE ; Hwan Won CHOI ; Hyun Ye JO ; Ha Hyun KIM ; Dong Kun YANG
Korean Journal of Veterinary Research 2016;56(1):37-40
A total of 131 Pasteurella (P.) multocida strains were isolated from the lungs of 1,064 pigs with respiratory clinical signs nationwide during 2009-2010 and 2013-2014. The strains of P. multocida comprised 77.1% serotype A and 22.9% serotype D. Analysis of a recent P. multocida outbreak in Korean pigs showed that the isolation rate of serotype D decreased annually. The incidence of antimicrobial resistance, as measured using minimal inhibitory concentration values, has decreased recently. Overall, further studies to characterize P. multocida isolated from pigs in Korea are needed to prevent P. multocida infection in the Korean swine industry.
Incidence
;
Korea*
;
Lung
;
Pasteurella multocida*
;
Pasteurella*
;
Swine*
6.Effects of two UDP-glucose dehydrogenases on hyaluronic acid biotransformation.
Donghui GUOI ; Jian HAN ; Weifeng LIU ; Zhenzhou FU ; Qizhong ZHU ; Yong TAO
Chinese Journal of Biotechnology 2014;30(11):1691-1700
We amplified genes encoding UDP-glucose dehydrogenase, ecohasB from Escherichia coli and spyhasB from Streptococcus pyogenes. Both ecohasB and spyhasB were inserted into T7 expression vector pRX2 to construct recombinant plasmids pRXEB and pRXSB, and to express in E. coli BL21(DE3). After nickel column purification of UDP-glucose dehydrogenases, the enzymes were characterized. The optimum reaction condition of spyHasB was at 30 °C and pH 10. The specific activity reached 12.2 U/mg under optimum condition. The optimum reaction condition of ecoHasB was at 30 °C and pH 9. Its specific activity reached 5.55 U/mg under optimum condition. The pmuhasA gene encoding hyaluronic acid synthase was amplified from Pasteurella multocida and ligated with ecohasB and spyhasB to construct the coexpression vectors pBPAEB and pBPASB, respectively. The co-expression vectors were transformed into E. coli BW25113. Hyaluronic acid (HA) was produced by biotransformation and the conditions were optimized. When recombinant strains were used to produce hyaluronic acid, the higher the activity of UDP-glucose dehydrogenase was, the better its stability was, and the higher the HA production could reach. Under the optimal conditions, the yields of HA produced by pBPAEB/BW25113 and pBPASB/BW25113 in shake flasks were 1.52 and 1.70 g/L, respectively, and the production increased more than 2-3 folds as previously reported.
Biotransformation
;
Escherichia coli
;
enzymology
;
Genetic Vectors
;
Glucuronosyltransferase
;
genetics
;
Hyaluronan Synthases
;
Hyaluronic Acid
;
metabolism
;
Pasteurella multocida
;
enzymology
;
Streptococcus pyogenes
;
enzymology
;
Uridine Diphosphate Glucose Dehydrogenase
;
metabolism
7.Hydrogen Peroxide as an Effective Disinfectant for Pasteurella multocida.
In Soo JUNG ; Hyun Jung KIM ; Won Yong JUNG ; Chan Wha KIM
Yonsei Medical Journal 2014;55(4):1152-1156
Pasteurella multocida (P. multocida) infections vary widely, from local infections resulting from animal bites and scratches to general infections. As of yet, no vaccine against P. multocida has been developed, and the most effective way to prevent pathogenic transmission is to clean the host environment using disinfectants. In this study, we identified which disinfectants most effectively inhibited environmental isolates of P. multocida. Three readily available disinfectants were compared: 3% hydrogen peroxide (HP), 70% isopropyl alcohol, and synthetic phenol. In suspension tests and zone inhibition tests, 3% HP was the most promising disinfectant against P. multocida.
Disinfectants/*pharmacology
;
Hydrogen Peroxide/*pharmacology
;
Microbial Sensitivity Tests
;
Pasteurella multocida/*drug effects
8.Cat-induced Pasteurella multocida peritonitis in continuous ambulatory peritoneal dialysis.
Il KIM ; Young Wook KIM ; Sungjin CHUNG ; Hye Eun YOON ; Seok Joon SHIN
Kidney Research and Clinical Practice 2014;33(1):65-67
Pasteurella multocida is a zoonotic pathogen found in the oral cavities of both domestic and wild animals. Although P. multocida has been involved in a wide range of human diseases, only a limited number of studies on P. multocida peritonitis in patients undergoing peritoneal dialysis (PD) had been carried out. We herein present the case of P. multocida peritonitis in a patient undergoing continuous ambulatory PD, which is believed to have resulted from contact with cats. We suggest that patients undergoing PD and having domestic animals at home should be educated about the possible transmission of the infection from the animals; in addition, these patients should also maintain a high level of personal hygiene.
Animals
;
Animals, Domestic
;
Animals, Wild
;
Cats
;
Humans
;
Hygiene
;
Pasteurella multocida*
;
Peritoneal Dialysis
;
Peritoneal Dialysis, Continuous Ambulatory*
;
Peritonitis*
9.Microbial production of chondroitin sulfate: a review.
Qiulin WU ; Liming LIU ; Jian CHEN
Chinese Journal of Biotechnology 2012;28(11):1281-1293
Chondroitin sulfate (CS) is the typical sulfation glycosaminoglycan and widely applied in the industries of pharmaceutical, health products and cosmetic for its peculiar properties. CS is the main component of cartilage proteoglycans in animal and capsular polysaccharide in a few bacteria. CS can be extracted from animal sources and produced via microbial fermentation. In this article, development of chondroitin sulfate by fermentation, biosynthesis and regulating mechanisms of CS in bacteria are described. Furthermore, prospect and tendency of chondroitin sulfate from bacterial fermentation are addressed.
Bacillus subtilis
;
metabolism
;
Bacteria
;
genetics
;
metabolism
;
Chondroitin Sulfates
;
biosynthesis
;
Escherichia coli
;
metabolism
;
Fermentation
;
Genetic Engineering
;
Industrial Microbiology
;
Pasteurella multocida
;
metabolism
10.Epidemiological characteristics of pulmonary pneumocystosis and concurrent infections in pigs in Jeju Island, Korea.
Ki Seung KIM ; Ji Youl JUNG ; Jae Hoon KIM ; Sang Chul KANG ; Eui Kyung HWANG ; Bong Kyun PARK ; Dae Yong KIM ; Jae Hoon KIM
Journal of Veterinary Science 2011;12(1):15-19
Epidemiological characteristics of swine pulmonary Pneumocystis (P.) carinii and concurrent infections were surveyed on Jeju Island, Korea, within a designated period in 172 pigs submitted from 54 farms to the Department of Veterinary Medicine, Jeju National University. The submitted cases were evaluated by histopathology, immunohistochemistry, PCR/RT-PCR, and bacteriology. P. carinii infection was confirmed in 39 (22.7%) of the 172 pigs. Histopathologically, the lungs had moderate to severe lymphohistioctyic interstitial pneumonia with variable numbers of fungal organisms within lesions. Furthermore, porcine reproductive and respiratory syndrome virus (PRRSV) and porcine circovirus type 2 (PCV-2) co-infection was a common phenomenon (12.8%, 20.5%, and 48.7% were positive for PRRS, PCV-2, or both, respectively, as determined by PCR/RT-PCR). Infection was much more concentrated during winter (December to March) and 53.8% of the infected pigs were 7- to 8-weeks old. In addition, three pigs showed co-infection with bacteria such as Pasteurella multocida and Streptococcus suis. The results of the present study suggest that the secondary P. carinii infection is common following primary viral infection in swine in Korea. They further suggest that co-infection of P. carinii might be enhanced by the virulence of primary pathogens or might have synergistic effects in the pigs with chronic wasting diseases.
Aging
;
Animals
;
*Circovirus/pathogenicity
;
Incidence
;
Pasteurella Infections/complications/epidemiology/veterinary
;
Pasteurella multocida/i
;
*Pneumocystis carinii/immunology/pathogenicity
;
Pneumonia, Pneumocystis/complications/epidemiology/physiopathology/*veterinary
;
Porcine Postweaning Multisystemic Wasting Syndrome/complications/*epidemiology
;
Porcine Reproductive and Respiratory Syndrome/*epidemiology
;
*Porcine respiratory and reproductive syndrome virus/pathogenicity
;
Prevalence
;
Republic of Korea/epidemiology
;
Reverse Transcriptase Polymerase Chain Reaction
;
Sea
;
Streptococcal Infections/complications/epidemiology/veterinary
;
Streptococcus suis/i
;
Sus scrofa
;
Swine Diseases/epidemiology/virology

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