中国农业科学 ›› 2024, Vol. 57 ›› Issue (11): 2254-2264.doi: 10.3864/j.issn.0578-1752.2024.11.016

• 畜牧·兽医 • 上一篇    

我国中东部主要养猪地区死亡育肥猪呼吸道病原菌的流行病学调查及猪多杀性巴氏杆菌的特性鉴定

罗素贤(), 周红, 蔺辉星, 范红结()   

  1. 南京农业大学动物医学院,南京 210095
  • 收稿日期:2023-12-21 接受日期:2024-01-31 出版日期:2024-06-01 发布日期:2024-06-07
  • 通信作者:
    范红结,Tel:025-84399592;E-mail:
  • 联系方式: 罗素贤,E-mail:2019207046@njau.edu.cn。
  • 基金资助:
    国家重点研发计划(2021YFD1800404); 国家重点研发计划(1029); 江苏高校优势学科建设工程专项资金项目(PAPD)

Epidemiological Investigation of Respiratory Pathogens in Deceased Fattening Pigs in Major Pig Farming Area of Middle and Eastern China and Characterization of Pasteurella multocida

LUO SuXian(), ZHOU Hong, LIN HuiXing, FAN HongJie()   

  1. College of Veterinary Medicine, Nanjing Agricultural University, Nanjing 210095
  • Received:2023-12-21 Accepted:2024-01-31 Published:2024-06-01 Online:2024-06-07

摘要:

【目的】从我国中东部主要养猪地区因呼吸道疾病死亡的育肥猪病料中分离主要病原菌,并进行鉴定和分型,为近年流行的猪呼吸道病原菌的防控治疗提供流行病学依据。此外,对分离的猪多杀性巴氏杆菌(Pm)特性进行鉴定,为Pm疫苗研制提供参考。【方法】收集2021-2023年我国中东部主要养猪地区规模化猪场因呼吸道疾病死亡的育肥猪的病猪肺脏;用血琼脂和TSA培养基分离病原菌,通过微生物学和分子生物学方法鉴定分离菌株;合成adkestgdhmdhpgipmizwf基因引物,以分离的Pm为模板进行PCR,通过测序7对管家基因对Pm进行MLST分型;通过PCR对Pm进行荚膜分型和脂多糖分型;通过PCR对Pm的毒力因子进行检测;在ICR小鼠对单一分离的A型和部分D、F型Pm进行毒力鉴定;检测JS-65、JS-51和JS-34在ICR小鼠的LD50。【结果】共分离Pm 73株,分离率为15.53%;分离猪链球菌(SS)71株、猪胸膜肺炎放线杆菌(APP)29株和副猪格拉菌(GPS)10株,分离率分别为15.11%、6.17%和2.13%。分型结果表明,Pm主要为A:L3型,占55%;SS主要为9型,占38.03%;APP主要为15型,占51.72%;GPS主要为5/12型,占60%。混合感染包括Pm+SS,Pm+APP,SS+APP和Pm+APP+GPS,混合感染占总猪群的16.67%。共分离到3种Pm荚膜型:A(67%)、D(30%)和F(3%)型;2种脂多糖型:L3型(56%)和L6型(44%);9种ST分型:ST79、ST50、ST7、ST74、ST13、ST27、ST9、ST287和ST370,所占比例分别为33%、26%、16%、10%、4%、4%、3%、3%和1%。毒力基因检测结果表明:ptfAfimAhsf-2、exbBexbDtonBfurnanHsodAsodC的阳性率大于95%;hsf-1、pfhAtadDhgbAhgbBpmHASompAompHoma87plpB阳性率在40%-90%之间;tbpAnanB阳性率在10%-30%;未检出toxA。毒力鉴定结果表明A型菌株在剂量小于102 CFU时导致小鼠全部死亡,D型菌株在103 CFU剂量时小鼠死亡率为60%-100%,F型菌株在5×103 CFU剂量时小鼠死亡率为60%。在ICR小鼠检测JS-65、JS-51和JS-34的LD50,结果表明JS-65 LD50<10 CFU,JS-51 LD50=6.3×102 CFU,JS-34 LD50=3.98×103 CFU。【结论】2021-2023年我国中东部主要养猪地区病原菌分离结果表明,Pm、SS、APP和GPS是死亡育肥猪的主要呼吸道病原菌,Pm在肺脏中的分离率最高。采用RIRDC分型鉴定到一株ST370 Pm,拓展了猪Pm的MLST分型数据。Pm优势基因型为A:L3:ST79,其在ICR小鼠中毒力最强,最小致死量小于10 CFU,为后续Pm灭活疫苗研制奠定基础。

关键词: 流行病学, 猪多杀性巴氏杆菌, 鉴定, 分子分型

Abstract:

【Objective】This study aims to isolate and identify prominent bacterial respiratory pathogens from samples collected from fattening pigs that have died from respiratory diseases in major domestic pig farming area of middle and eastern China. And identifying these bacterial pathogens will offer valuable evidence for preventing and controlling the significantly prevalent respiratory diseases in recent years. Moreover, the characteristics of Pm were identified, providing reference for the development of Pm vaccines.【Method】The lungs of pigs died from respiratory disease were collected from large-scale farms in major pig farming area of middle and eastern China from 2021 to 2023. Blood agar and TSA were employed for the isolation of pathogens, which were then identified through microbiological and molecular biology methods. Additionally, MLST typing and virulence testing in mice were conducted on Pm isolates. The primers for PCR against seven housekeeping genes of adk, est, gdh, mdh, pgi, pmi and zwf of Pm were designed. Then the productions of amplicons were sequenced and submitted to perform MLST typing. The capsule and lipopolysaccharide typing were detected by PCR. The virulence factor genes were detected by PCR. Single isolates of A type and selected D and F types of Pm were evaluated for virulence in ICR mice. LD50 of JS-65, JS-51 and JS-34 were detected in ICR mice.【Result】A total of 73 Pm isolates were obtained, with an isolation rate of 15.53%. Additionally, 71 SS isolates, 29 APP isolates, and 10 GPS isolates were obtained, with isolation rates of 15.11%, 6.17%, and 2.13% respectively. The typing results indicated that the prevailing subtype among Pm isolates was A:L3, accounting for 55%. Among SS isolates, subtype 9 was the prevailing type, accounting for 38.03%. Among APP isolates, subtype 15 was the prevailing type, accounting for 51.72%. Among GPS isolates, subtype 5/12 was the prevailing type, accounting for 60.00%. Co-infection included Pm+SS, Pm+APP, SS+APP and Pm+APP+GPS, accounting for 16.67% of the total pig population. Three capsule types were isolated: A (67%), D (30%), and F (3%). Two lipopolysaccharide types were found: L3 (56%) and L6 (44%). Nine ST genotypes were identified: ST79, ST50, ST7, ST74, ST13, ST27, ST9, ST287, and ST370, with proportions of 33%, 26%, 16%, 10%, 4%, 4%, 3%, 3%, and 1%, respectively. The results of virulence gene detection showed that the positivity rates of ptfA, fimA, hsf-2, exbB, exbD, tonB, fur, nanH, sodA, and sodC genes were greater than 95%. The positivity rates of hsf-1, pfhA, tadD, hgbA, hgbB, pmHAS, ompA, ompH, oma87, and plpB genes ranged from 40% to 90%. The positivity rates of tbpA and nanB genes were between 10% and 30%; the toxA gene was not detected. The virulence test results indicated that all mice died when exposed to less than 102 CFU of strain A, the mortality rate of mice was between 60% and 100% when exposed to 103 CFU of strain D, and the mortality rate of mice was 60% when exposed to 5×103 CFU of strain F. LD50 of JS-65, JS-51, and JS-34 were detected in ICR mice, and the results showed that JS-65 LD50<10 CFU, and JS-51 LD50=6.3 × 102 CFU, JS-34 LD50=3.98 × 103 CFU.【Conclusion】Based on the bacterial pathogen isolates from 2021 to 2023, the primary pathogen bacterium of the respiratory tract in dead fattening pigs were Pm, SS, APP, and GPS. Pm had the highest number of isolates and isolation rate from lung tissue. The RIRDC identified a Pm strain of ST370 and extended MLST typing data in pigs. PCR typing results showed that the dominant serotype of Pm was A:L3:ST79, which exhibited the highest virulence in ICR mice with a minimum lethal dose of less than 10 CFU. These results serve as the foundation for the development of an inactivated Pm vaccine.

Key words: epidemiology, Pasteurella multocida, identification, molecular typing