草青霉液泡丝氨酸蛋白酶主要变应原p18cdna克隆及免疫特性研究。

H. Shen, C. Wang, W. L. Lin, H. Lai, M. Tam, H. Chou, S. R. Wang, S. H. Han
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引用次数: 40

摘要

青霉菌是一种常见的室内空气传播真菌,已被确定为人类外源性支气管哮喘的病原体。在标准化诊断试剂的制备中,必须明确这些普遍存在的真菌的过敏原。我们之前对P. oxalicum的研究结果表明,这种流行的青霉菌种的34-kd主要免疫球蛋白e反应成分可能是空泡丝氨酸蛋白酶。本研究的目的是通过cDNA克隆和免疫学鉴定来确定这一主要的草藻变应原(Pen o 18)。采用逆转录聚合酶链反应和5′、3′快速扩增cDNA末端反应相结合的方法,分离得到了p8018的cDNA。这些反应中使用的引物是根据Pen o 18的内部氨基酸序列和真菌丝氨酸蛋白酶的保守氨基酸序列构建的。结果表明,该基因原酶cDNA全长1897-bp,开放阅读框为503个残基。编码的蛋白具有16个残基的信号肽和119个残基的序列。成熟时,该蛋白具有n端谷氨酸,这是cDNA编码的第136个残基。显然前体也经历c端加工,裂解约47个氨基酸。此外,我们还分离到了penc18的cDNA进行比较。与之前的报道相反,Pen c18的c端区域与Pen o18相似。通过在大肠杆菌中表达相应的cdna,获得了具有假定的成熟n端和his标签的重组蛋白(rPen o - 18和rPen c - 18)。7例哮喘患者血清中免疫球蛋白E对草草草34-kd组分有反应,对his标记的重组p18也有反应。采用免疫印迹法检测rPen o18与rPen c18之间是否存在免疫球蛋白E交叉反应。两种抗真菌丝氨酸蛋白酶的单克隆抗体(PCM39和FUM20)与rPen o 18、rPen c 18和相应粗真菌提取物中的35/34-kd组分发生反应。这些成分还能与哮喘患者血清样本中的免疫球蛋白E抗体发生反应。综上所述,这些结果证实了草藻的34-kd主要变应原是一种空泡丝氨酸蛋白酶。Pen o18和Pen c18的cdna编码的前体分子似乎经历了n端和c端加工。以成熟n端开头的构建体可以在大肠杆菌中表达,产生对哮喘患者血清样品中的单克隆抗体或免疫球蛋白E抗体有反应的重组多肽。所得结果可为临床霉菌过敏的标准化诊断试剂的制备提供有用的信息和资料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
cDNA cloning and immunologic characterization of Pen o 18, the vacuolar serine protease major allergen of Penicillium oxalicum.
Penicillium species are prevalent indoor airborne fungi that have been identified as causative agents of human extrinsic bronchial asthma. In the preparation of standardized diagnostic reagents, it is imperative to define the allergens of these ubiquitous fungi. Results from our previous study on P. oxalicum suggest that the 34-kd major immunoglobulin E-reacting component of this prevalent Penicillium species is probably a vacuolar serine protease. The purpose of the present study was to define this major P. oxalicum allergen (Pen o 18) through cDNA cloning and immunologic characterization. The cDNA of Pen o 18 was isolated through a combination of reverse transcriptase-polymerase chain reaction and 5'- and 3'-rapid amplification cDNA ends reactions. The primers used in these reactions were constructed according to the internal amino acid sequences of Pen o 18 and the conserved amino acid sequences of fungal serine proteases. Our results showed that a 1897-bp cDNA with an open reading frame of 503 residues was isolated for the proenzyme of Pen o 18. The encoded protein has a 16-residue signal peptide and a 119-residue prosequence. On maturation, the protein has an N-terminal glutamate that is the 136th residue encoded by the cDNA. Apparently the precursor also undergoes C-terminal processing with the cleavage of about 47 amino acids. The cDNA for Pen c 18 (the vacuolar serine protease allergen from P. citrinum ) was also isolated for comparison. Contrary to a previous report, the C-terminal region of Pen c 18 is similar to that of Pen o 18. Recombinant proteins (rPen o 18 and rPen c 18) with the putative mature N-termini and a his-tag were obtained by expressing the corresponding cDNAs in Escherichia coli. Serum samples from 7 asthmatic patients with immunoglobulin E reactivity to the 34-kd component of P. oxalicum also react to his-tagged recombinant Pen o 18. The presence of immunoglobulin E cross-reactivity between rPen o 18 and rPen c 18 was detected by immunoblot inhibition. Two monoclonal antibodies (PCM39 and FUM20) against fungal serine proteases react with rPen o 18, rPen c 18, and the 35/34-kd components in the corresponding crude fungal extracts. These components also react with immunoglobulin E antibodies in serum samples from asthmatic patients. In conclusion, results obtained confirm that the 34-kd major allergen of P. oxalicum is a vacuolar serine protease. The cDNAs of Pen o 18 and Pen c 18 encode precursor molecules that appear to undergo both N-terminal and C-terminal processing. Constructs beginning with mature N-terminal can be expressed in E. coli to produce recombinant polypeptides that are reactive to monoclonal antibodies or immunoglobulin E antibodies in serum samples from asthmatic patients. Results obtained may provide useful information and materials for preparation of standardized diagnostic reagents in clinical mold allergy.
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