Production and Characterization of Rat Monoclonal Antibodies against the PAL Antigen of Legionella spp.

Pub Date : 2022-01-01 Epub Date: 2022-10-03 DOI:10.3103/S0891416822020082
N A Zeninskaya, A K Riabko, M A Marin, T I Kombarova, I P Mitsevich, B V Yeruslanov, V V Firstova, I G Shemyakin
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Abstract

The purpose of this work was to obtain genus-specific monoclonal antibodies against the Legionella spp. recombinant PAL protein, which will subsequently allow to use them as a basis for the development of new express tests for pathogenic legionella detection. A short three-week immunization protocol for Wistar rats was used to generate rat-mouse heterohybridomas producing antibodies against PAL. Mouse myeloma cell line Sp2/0-Ag14 served as the fusion partner. Hybridization was performed using two methods: PEG-mediated fusion and electrofusion. Subsequent screening was performed by indirect solid-phase ELISA against the target protein rPAL. Specificity analysis was performed by dot-blot using a panel of lysates obtained from 39 pure cultures of different strains, which included closely related and heterologous microorganisms among others. No difference in the efficiency of stable hybridoma clones production by the two indicated cell-fusion methods was detected. Twelve clones producing specific rat monoclonal antibodies were obtained based on the screening results. The obtained rat monoclonal antibodies are highly specific towards the PAL protein of L. pneumophila of different serological groups and other pathogenic legionella and are good candidates to be used as the components of diagnostic test systems for the detection of pathogenic representatives of the Legionella genus.

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大鼠抗军团菌PAL抗原单克隆抗体的制备及鉴定。
这项工作的目的是获得针对军团菌重组PAL蛋白的属特异性单克隆抗体,这将随后允许将其作为开发新的致病性军团菌检测表达试验的基础。采用Wistar大鼠短3周免疫方案,以小鼠骨髓瘤细胞系Sp2/0-Ag14为融合伙伴,产生产生PAL抗体的大鼠-小鼠异种杂交瘤。采用peg介导融合和电融合两种方法进行杂交。随后采用间接固相ELISA法对目标蛋白rPAL进行筛选。采用斑点斑点法对39种不同菌株纯培养物的裂解物进行特异性分析,其中包括密切相关的和异源的微生物。两种细胞融合方法在稳定杂交瘤克隆生产效率上没有差异。根据筛选结果,获得了12个产生特异性大鼠单克隆抗体的克隆。获得的大鼠单克隆抗体对不同血清学组嗜肺乳杆菌和其他致病性军团菌的PAL蛋白具有高度特异性,是检测军团菌属致病性代表的诊断测试系统的良好候选成分。
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