P80,即HinT相互作用膜蛋白,是解脲脲原体的一种分泌抗原。
P80, the HinT interacting membrane protein, is a secreted antigen of Mycoplasma hominis.
作者信息
Hopfe Miriam, Hoffmann Ricarda, Henrich Birgit
机构信息
Institute of Medical Microbiology and Center for Biological and Medical Research, Heinrich-Heine-University, Moorenstrasse 5, 40225 Duesseldorf, Germany.
出版信息
BMC Microbiol. 2004 Dec 6;4:46. doi: 10.1186/1471-2180-4-46.
BACKGROUND
Mycoplasmas are cell wall-less bacteria which encode a minimal set of proteins. In Mycoplasma hominis, the genes encoding the surface-localized membrane complex P60/P80 are in an operon with a gene encoding a cytoplasmic, nucleotide-binding protein with a characteristic Histidine triad motif (HinT). HinT is found in both procaryotes and eukaryotes and known to hydrolyze adenosine nucleotides in eukaryotes. Immuno-precipitation and BIACore analysis revealed an interaction between HinT and the P80 domain of the membrane complex. As the membrane anchored P80 carries an N-terminal uncleaved signal peptide we have proposed that the N-terminus extends into the cytoplasm and interacts with the cytosolic HinT.
RESULTS
Further characterization of P80 suggested that the 4.7 kDa signal peptide is protected from cleavage only in the membrane bound form. We found several proteins were released into the supernatant of a logarithmic phase mycoplasma culture, including P80, which was reduced in size by 10 kDa. Western blot analysis of recombinant P80 mutants expressed in E. coli and differing in the N-terminal region revealed that mutation of the +1 position of the mature protein (Asn to Pro) which is important for signal peptidase I recognition resulted in reduced P80 secretion. All other P80 variants were released into the supernatant, in general as a 74 kDa protein encompassing the helical part of P80. Incubation of M. hominis cells in phosphate buffered saline supplemented with divalent cations revealed that the release of mycoplasma proteins into the supernatant was inhibited by high concentrations of calciumions.
CONCLUSIONS
Our model for secretion of the P80 protein of M. hominis implies a two-step process. In general the P80 protein is transported across the membrane and remains complexed to P60, surface-exposed and membrane anchored via the uncleaved signal sequence. Loss of the 4.7 kDa signal peptide seems to be a pre-requisite for P80 secretion, which is followed by a proteolytic process leading to a helical 74 kDa product. We propose that this novel form of two-step secretion is one of the solutions to a life with a reduced gene set.
背景
支原体是无细胞壁细菌,编码的蛋白质种类有限。在人型支原体中,编码表面定位膜复合物P60/P80的基因与一个编码具有特征性组氨酸三联体基序(HinT)的胞质核苷酸结合蛋白的基因位于同一个操纵子中。HinT在原核生物和真核生物中均有发现,且已知其在真核生物中可水解腺苷核苷酸。免疫沉淀和生物传感器分析显示HinT与膜复合物的P80结构域之间存在相互作用。由于膜锚定的P80带有一个未切割的N端信号肽,我们推测其N端延伸至细胞质并与胞质中的HinT相互作用。
结果
对P80的进一步表征表明,4.7 kDa的信号肽仅在膜结合形式下受到保护不被切割。我们发现几种蛋白质释放到对数期支原体培养物的上清液中,包括P80,其大小减少了10 kDa。对在大肠杆菌中表达且N端区域不同的重组P80突变体进行的蛋白质印迹分析表明,对信号肽酶I识别很重要的成熟蛋白+1位(天冬酰胺突变为脯氨酸)的突变导致P80分泌减少。所有其他P80变体均释放到上清液中,通常为包含P80螺旋部分的74 kDa蛋白。在补充了二价阳离子的磷酸盐缓冲盐水中孵育人型支原体细胞,结果显示高浓度钙离子可抑制支原体蛋白释放到上清液中。
结论
我们提出的人型支原体P80蛋白分泌模型涉及两步过程。一般来说,P80蛋白穿过膜并与P60保持复合状态,通过未切割的信号序列暴露于表面并锚定在膜上。4.7 kDa信号肽的缺失似乎是P80分泌的先决条件,随后是一个蛋白水解过程,产生一个74 kDa的螺旋产物。我们认为这种新型的两步分泌形式是基因组减少情况下生存的一种解决方案。
Zotero 插件