Gage K L, Schrumpf M E, Karstens R H, Burgdorfer W, Schwan T G
Arthropod-Borne Diseases Section, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Hamilton, Montana.
Am J Trop Med Hyg. 1994 Feb;50(2):247-60. doi: 10.4269/ajtmh.1994.50.247.
We used the polymerase chain reaction/restriction fragment length polymorphism (PCR/RFLP) rickettsial typing system of Regnery and others to rapidly identify rickettsiae in naturally infected ticks. Unlike previously described methods, our PCR assays type rickettsiae directly from tick tissues without first isolating the organisms. We collected 226 adult Dermacentor andersoni ticks in the Bitterroot Mountains of western Montana and analyzed them for possible rickettsial infection by hemolymph test using the Gimenez stain. Thirteen (5.8%) of these ticks were positive by hemolymph test and selected for further analysis using the above PCR/RFLP typing system. The PCR assays performed using the first primer set (RpCS) resulted in amplification of fragments of the predicted size from nine of the 13 hemolymph test-positive tick samples. Only four of these nine tick samples were also positive in similar PCR assays performed with a second primer set (Rr190) that is presumed to be spotted fever group specific. The RFLP analyses of material amplified from these four ticks indicated they were infected with Rickettsia rickettsii (one sample) and R. rhipicephali (three samples). The PCR/RFLP analyses of the five PCR-positive tick samples that were positive only in assays performed with the RpCS primer set indicated that these ticks were infected with R. bellii. The remaining four of 13 hemolymph test-positive tick samples gave negative PCR results with both the RpCS and Rr190 primer sets. Infected hemocytes from these PCR-negative ticks contained organisms of distinctive bacillary morphology that appeared similar to those described previously as long forms, and it is possible that these organisms belong to a genus other than Rickettsia. We also examined established laboratory isolates of tick-borne rickettsiae from different regions of North America to determine whether this typing system produces consistent results. Multiple isolates of R. montana (nine isolates), R. bellii (five isolates), R. rickettsii (Hlp-like) (four isolates), and R. canada (two isolates) were tested and no significant variations in PCR/RFLP patterns were observed between members of the same serotypes. However, among the five isolates of R. rhipicephali tested, two slightly different RFLP patterns were noted. Our results suggest that this PCR/RFLP typing scheme has wide applicability for identifying rickettsiae directly from D. andersoni or D. variabilis tick tissues.
我们使用了雷格纳里等人的聚合酶链反应/限制性片段长度多态性(PCR/RFLP)立克次体分型系统,以快速鉴定自然感染蜱虫中的立克次体。与先前描述的方法不同,我们的PCR检测可直接从蜱虫组织中对立克次体进行分型,而无需先分离出这些微生物。我们在蒙大拿州西部的比特鲁特山脉采集了226只成年安德逊革蜱,并通过吉姆萨染色的血淋巴检测分析它们是否可能感染立克次体。这些蜱虫中有13只(5.8%)血淋巴检测呈阳性,并被选择使用上述PCR/RFLP分型系统进行进一步分析。使用第一组引物(RpCS)进行的PCR检测,从13只血淋巴检测呈阳性的蜱虫样本中的9只扩增出了预测大小的片段。在使用第二组推测为斑点热群特异性引物(Rr190)进行的类似PCR检测中,这9只蜱虫样本中只有4只也呈阳性。对从这4只蜱虫扩增的材料进行的RFLP分析表明,它们感染了立氏立克次体(1个样本)和头状立克次体(3个样本)。对仅在使用RpCS引物组进行的检测中呈阳性的5个PCR阳性蜱虫样本进行的PCR/RFLP分析表明,这些蜱虫感染了贝利立克次体。13只血淋巴检测呈阳性的蜱虫样本中,其余4只在用RpCS和Rr190引物组进行的PCR检测中均呈阴性。来自这些PCR阴性蜱虫的受感染血细胞含有形态独特的杆菌样微生物,这些微生物看起来与先前描述的长形微生物相似,并且这些微生物有可能属于立克次体属以外的一个属。我们还检测了来自北美不同地区的已建立的蜱传立克次体实验室分离株,以确定该分型系统是否能产生一致的结果。对蒙大拿立克次体(9个分离株)、贝利立克次体(5个分离株)、立氏立克次体(Hlp样)(4个分离株)和加拿大立克次体(2个分离株)的多个分离株进行了检测,同一血清型的成员之间在PCR/RFLP模式上未观察到显著差异。然而,在检测的5个头状立克次体分离株中,注意到了两种略有不同的RFLP模式。我们的结果表明,这种PCR/RFLP分型方案在直接从安德逊革蜱或变异革蜱蜱虫组织中鉴定立克次体方面具有广泛的适用性。
