Suarez A, Staendner L H, Rohde M, Piatti G, Timmis K N, Guzmán C A
Division of Microbiology, GBF-National Research Centre for Biotechnology, Braunschweig, Germany.
Appl Environ Microbiol. 1997 Jan;63(1):122-7. doi: 10.1128/aem.63.1.122-127.1997.
Pertussis toxin (PT) is an essential component of accellular vaccines against whooping cough. However, the industrial production of PT from Bordetella pertussis is impaired by slow growth and poor yields. To overcome these problems, we have constructed a minitransposon containing the tox operon under the control of a tightly regulated promoter responsive to an aromatic inducer. The expression cassettes have been integrated into the chromosome of Bordetella bronchiseptica 5376 and ATCC 10580 bvg. Five recombinant clones containing the tox operon under the control of the Psal promoter, which is activated by the product of nahR, were further characterized. The recombinant clones expressed PT after only 3 h of induction with sodium salicylate at levels similar to those of B. pertussis grown for 24 h. The stability of the engineered phenotype was 100% after 72 h of growth without selective pressure. The growth pattern was not modified either under noninducing conditions or in the presence of the inducer at low concentrations, suggesting that strain performance would not be affected in bioreactors when uncoupled from gene expression. Recombinant PT, which was localized mainly in the periplasm, was purified by affinity chromatography. The recombinant protein was immunologically indistinguishable from wild-type PT and retained its biological activity as determined by the CHO cell-clustering test. These recombinant clones appear to be useful tools for the cost-effective production of PT under conditions of improved biosafety, as demonstrated by the inducible expression of PT uncoupled from the bacterial biomass in a nonvirulent and fast-growing B. bronchiseptica background.
百日咳毒素(PT)是无细胞百日咳疫苗的重要组成部分。然而,百日咳博德特氏菌中PT的工业生产受到生长缓慢和产量低的影响。为克服这些问题,我们构建了一个迷你转座子,其包含在对芳香族诱导剂有紧密调控响应的启动子控制下的tox操纵子。表达盒已整合到支气管败血博德特氏菌5376和ATCC 10580 bvg的染色体中。对五个含有在Psal启动子控制下的tox操纵子的重组克隆进行了进一步表征,该启动子由nahR的产物激活。用甲酸钠诱导仅3小时后,这些重组克隆就表达了PT,其水平与生长24小时的百日咳博德特氏菌相似。在无选择压力下生长72小时后,工程化表型的稳定性为100%。在非诱导条件下或低浓度诱导剂存在下,生长模式均未改变,这表明在生物反应器中,当与基因表达解偶联时,菌株性能不会受到影响。主要定位于周质的重组PT通过亲和层析进行纯化。通过CHO细胞聚类试验测定,该重组蛋白在免疫学上与野生型PT无差异,并保留了其生物学活性。在无毒且生长迅速的支气管败血博德特氏菌背景下,PT的诱导表达与细菌生物量解偶联,这些重组克隆似乎是在提高生物安全性的条件下经济高效生产PT的有用工具。