Weller U, Müller L, Messner M, Palmer M, Valeva A, Tranum-Jensen J, Agrawal P, Biermann C, Döbereiner A, Kehoe M A, Bhakdi S
Institut für Medizinische Mikrobiologie und Hygiene, Johannes-Gutenberg-Universität Mainz, Germany.
Eur J Biochem. 1996 Feb 15;236(1):34-9. doi: 10.1111/j.1432-1033.1996.00034.x.
Streptolysin 0 (SLO) is the prototype of a family of cytolysins that consists of proteins which bind to cholesterol and form very large transmembrane pores. Structure/function studies on the pore-forming cytolysin SLO have been complicated by the proteolytic inactivation of a substantial portion of recombinant SLO (rSLO) expressed in Escherichia coli. To overcome this problem, translational fusions between the E. coli maltose-binding protein (MBP) gene and SLO were constructed, using the vectors pMAL-p2 and pMAL-c2. MBP-SLO fusion proteins were degraded if secreted into the E. coli periplasm, but intact, soluble MBP-SLO fusion proteins were produced at high levels in the cytoplasm. Active SLO with the expected N-terminus was separated from the MBP carrier by cleavage with factor Xa. Cleavage with plasmin or trypsin also yielded active, but slightly smaller forms of SLO. Surprisingly, uncleaved MBP-SLO was also hemolytic and cytotoxic to human fibroblasts and keratinocytes. The MBP-SLO fusion protein displayed equal activities to SLO. Sucrose density gradient analyses showed that the fusion protein assembled into polymers, and no difference in structure was discerned compared with polymers formed by native SLO. These studies show that the N-terminal 70 residues of mature (secreted) SLO are not required for pore formation and that the N-terminus of the molecule is probably not inserted into the bilayer. In addition, they provide a simple means for producing mutants for structure/function studies and highly purified SLO for use as a permeabilising reagent in cell biology research.
链球菌溶血素O(SLO)是一类细胞溶素家族的原型,该家族由与胆固醇结合并形成非常大的跨膜孔的蛋白质组成。对形成孔的细胞溶素SLO的结构/功能研究因在大肠杆菌中表达的大部分重组SLO(rSLO)被蛋白水解失活而变得复杂。为克服这一问题,利用载体pMAL-p2和pMAL-c2构建了大肠杆菌麦芽糖结合蛋白(MBP)基因与SLO之间的翻译融合体。MBP-SLO融合蛋白如果分泌到大肠杆菌周质中会被降解,但完整、可溶的MBP-SLO融合蛋白在细胞质中高水平产生。通过用因子Xa切割,将具有预期N端的活性SLO与MBP载体分离。用纤溶酶或胰蛋白酶切割也产生有活性但略小形式的SLO。令人惊讶的是,未切割的MBP-SLO对人成纤维细胞和角质形成细胞也具有溶血和细胞毒性。MBP-SLO融合蛋白与SLO表现出相同的活性。蔗糖密度梯度分析表明,融合蛋白组装成聚合物,与天然SLO形成的聚合物相比,结构上没有差异。这些研究表明,成熟(分泌)SLO的N端70个残基对于孔形成不是必需的,并且分子的N端可能没有插入到双层中。此外,它们提供了一种简单的方法来产生用于结构/功能研究的突变体以及用于细胞生物学研究中作为通透试剂的高度纯化的SLO。
