Department of Veterinary Medicine, University of Maryland, and Virginia-Maryland Regional College of Veterinary Medicine, College Park, Maryland 20742, USA.
J Infect Dis. 2010 Apr 1;201(7):1084-95. doi: 10.1086/651172.
Borrelia burgdorferi, the pathogen of Lyme borreliosis, persists in nature through a tick-rodent transmission cycle. A selective assessment of the microbial transcriptome, limited to gene-encoding putative membrane proteins, reveals that bba52 transcription in vivo is strictly confined to the vector-specific portion of the microbial life cycle, with the highest levels of expression noted in feeding ticks and with swift down-regulation noted in mice. bba52 deletion did not affect murine disease as assessed by the genesis of arthritis and carditis or long-term persistence of pathogens in mice or ticks. However, bba52 deficiency did impair microbial transitions between hosts and vector, defects that could be fully rescued when bba52 expression was genetically restored to the original genomic locus. These studies establish that BBA52 facilitates vector-host transitions by the pathogen and therefore is a potential antigenic target for interference with transmission of B. burgdorferi from ticks to mammalian hosts.
伯氏疏螺旋体,莱姆病的病原体,通过蜱-啮齿动物传播循环在自然界中持续存在。对微生物转录组的选择性评估,仅限于编码假定膜蛋白的基因,表明 bba52 在体内的转录严格局限于微生物生命周期的载体特异性部分,在喂食的蜱中表达水平最高,并在小鼠中迅速下调。bba52 缺失不会影响关节炎和心炎的发生,也不会影响病原体在小鼠或蜱中的长期存在,从而评估小鼠疾病。然而,bba52 缺陷确实会损害病原体在宿主和载体之间的转移,当 bba52 表达在遗传上恢复到原始基因组位置时,这些缺陷可以完全得到挽救。这些研究表明,BBA52 通过病原体促进了载体-宿主的转变,因此是干扰伯氏疏螺旋体从蜱向哺乳动物宿主传播的潜在抗原靶点。