Sădziene A, Rosa P A, Thompson P A, Hogan D M, Barbour A G
Department of Microbiology, University of Texas Health Science Center, San Antonio 78284.
J Exp Med. 1992 Sep 1;176(3):799-809. doi: 10.1084/jem.176.3.799.
We used polyclonal antisera and monoclonal antibodies (mAbs) to inhibit the growth of clonal populations of two strains of Borrelia burgdorferi, the Lyme disease agent, and thereby select for antibody-resistant mutants. mAbs were directed at the outer membrane proteins, OspA or OspB. Mutants resistant to the growth-inhibiting properties of the antibodies were present in the populations at frequencies ranging from 10(-5) to 10(-2). The several escape variants that were examined were of four classes. Class I mutants were resistant to all mAbs; they lacked OspA and OspB and the linear plasmid that encodes them. Two other proteins were expressed in larger amounts in class I mutants; mAbs to these proteins inhibited the mutant but not the wild-type cells. Class II mutants were resistant to some but not all mAbs; they had truncated OspA and/or OspB proteins. Class III mutants were resistant only to the selecting mAb; they had full-length Osp proteins that were not bound by the selecting antibody in Western blots. In two class III mutants resistant to different anti-OspA mAbs, missense mutations were demonstrated in the ospA genes. Class IV mutants were likewise resistant only to selecting antibody, but in this case the selecting antibody still bound in Western blots.
我们使用多克隆抗血清和单克隆抗体(mAb)来抑制两种伯氏疏螺旋体菌株(莱姆病病原体)克隆群体的生长,从而筛选出抗体抗性突变体。单克隆抗体针对外膜蛋白OspA或OspB。对抗体生长抑制特性具有抗性的突变体在群体中的出现频率为10^(-5)至10^(-2)。所检测的几种逃逸变体分为四类。I类突变体对所有单克隆抗体均有抗性;它们缺乏OspA和OspB以及编码它们的线性质粒。I类突变体中另外两种蛋白质的表达量更高;针对这些蛋白质的单克隆抗体可抑制突变体细胞,但不能抑制野生型细胞。II类突变体对部分而非所有单克隆抗体有抗性;它们具有截短的OspA和/或OspB蛋白。III类突变体仅对选择用的单克隆抗体有抗性;它们具有全长的Osp蛋白,在蛋白质免疫印迹中这些蛋白不与选择抗体结合。在两种对不同抗OspA单克隆抗体有抗性的III类突变体中,ospA基因出现了错义突变。IV类突变体同样仅对选择抗体有抗性,但在这种情况下,选择抗体在蛋白质免疫印迹中仍能结合。