Goldberg Tony L, Coleman David A, Grant Emily C, Inendino Kate R, Philipp David P
Department of Veterinary Pathobiology, University of Illinois, Urbana, Illinois 61802, USA.
J Virol. 2003 Aug;77(16):8812-8. doi: 10.1128/jvi.77.16.8812-8818.2003.
Although iridoviruses vary widely within and among genera with respect to their host range and virulence, variation within iridovirus species has been less extensively characterized. This study explores the nature and extent of intraspecific variation within an emerging iridovirus of North American warm-water fishes, largemouth bass virus (LMBV). Three LMBV isolates recovered from three distinct sources differed genetically and phenotypically. Genetically, the isolates differed in the banding patterns generated from amplified fragment length polymorphism analysis but not in their DNA sequences at two loci of different degrees of evolutionary stability. In vitro, the isolates replicated at identical rates in cell culture, as determined by real-time quantitative PCR of viral particles released into suspension. In vivo, the isolates varied over fivefold in virulence, as measured by the rate at which they induced mortality in juvenile largemouth bass. This variation was reflected in the viral loads of exposed fish, measured using real-time quantitative PCR; the most virulent viral strain also replicated to the highest level in fish. Together, these results justify the designation of these isolates as different strains of LMBV. Strain variation in iridoviruses could help explain why animal populations naturally infected with iridovirus pathogens vary so extensively in their clinical responses to infection. The results of this study are especially relevant to emerging iridoviruses of aquaculture systems and wildlife.
尽管虹彩病毒在属内和属间的宿主范围和毒力差异很大,但虹彩病毒种内变异的特征描述较少。本研究探讨了北美温水鱼类新型虹彩病毒——大口黑鲈病毒(LMBV)种内变异的性质和程度。从三个不同来源获得的三株LMBV分离株在遗传和表型上存在差异。在遗传方面,这些分离株在扩增片段长度多态性分析产生的条带模式上存在差异,但在两个不同进化稳定性程度的位点上,其DNA序列没有差异。在体外,通过对释放到悬浮液中的病毒颗粒进行实时定量PCR测定,这些分离株在细胞培养中的复制速率相同。在体内,通过它们在幼年大口黑鲈中诱导死亡的速率来衡量,这些分离株的毒力相差五倍以上。这种差异反映在使用实时定量PCR测量的受感染鱼的病毒载量上;毒性最强的病毒株在鱼体内的复制水平也最高。总之,这些结果证明将这些分离株指定为LMBV的不同菌株是合理的。虹彩病毒的菌株变异有助于解释为什么自然感染虹彩病毒病原体的动物种群在对感染的临床反应上差异如此之大。本研究结果与水产养殖系统和野生动物中出现的虹彩病毒特别相关。