晶状体中亮氨酸氨肽酶和氨肽酶III活性的比较。

Comparison of leucine aminopeptidase and aminopeptidase III activities in lens.

作者信息

Sharma K K, Elser N J, Kester K

机构信息

Mason Institute of Ophthalmology, University of Missouri, Columbia, MO 65212, USA.

出版信息

Curr Eye Res. 1996 Jul;15(7):774-81. doi: 10.3109/02713689609003462.

DOI:10.3109/02713689609003462

PMID:8670787

Abstract

PURPOSE

To evaluate the relative contribution of leucine aminopeptidase and aminopeptidase III activities to the total aminopeptidase activity in bovine and human lenses under in vivo pH conditions.

METHODS

Bovine and human lens extracts were fractionated on a Sephadex G-200 column at pH 6.9 and 8.5 and all the fractions were assayed with Leu-pNA and Arg-pNA as substrates at in vivo lens pH (6.9) and optimum pH for leucine aminopeptidase, (8. 5). The major peptidases were purified and their activities compared with that of LAP and AP III isolated from bovine lens. The ability of bovine and human lens extracts and purified bovine lens LAP and AP III to hydrolyze various peptide bonds in synthetic peptides, VHLPTVEK, bradykinin and Ile-Ser-bradykinin was determined by amino acid analysis of the reaction products.

RESULTS

Sephadex G-200 gel chromatography and assay of all the fractions at pH 6.9 showed that the elution volume for the predominant aminopeptidase present in bovine lens extract is the same as that of purified AP III from the same lenses. However, when the assays were done at pH 8.5, the major activity eluting from the Sephadex G-200 column was found in fractions having LAP. A similar study of human lens extracts at pH 6. 9 and 8.5 showed one major peak with elution volume corresponding to that of purified bovine lens AP III: The human lens extracts displayed a very low level of LAP activity. The hydrolysis pattern of peptide substrates by AP III paralleled that of bovine and human lens extract at pH 6.9. The X-Pro bond resistant to LAP in peptide substrate, VHLTPVEK was hydrolyzed by AP III as well as lens extracts.

CONCLUSION

Both bovine and human lenses have very low LAP activity compared to AP III activity at in vivo pH 6.9. AP III, by its higher activity, broad specificity and its ability to cleave peptide bonds that are resistant to LAP, is likely to play a major role in lens during epithelial cell differentiation into fiber cells and complete hydrolysis of peptides generated in vivo.

摘要

目的

评估在体内pH条件下，亮氨酸氨肽酶和氨肽酶III活性对牛和人晶状体总氨肽酶活性的相对贡献。

方法

将牛和人晶状体提取物在pH 6.9和8.5条件下于Sephadex G - 200柱上进行分级分离，所有级分均以Leu - pNA和Arg - pNA为底物，在体内晶状体pH（6.9）和亮氨酸氨肽酶的最适pH（8.5）下进行测定。对主要肽酶进行纯化，并将其活性与从牛晶状体中分离出的LAP和AP III的活性进行比较。通过对反应产物的氨基酸分析，测定牛和人晶状体提取物以及纯化的牛晶状体LAP和AP III水解合成肽VHLPTVEK、缓激肽和Ile - Ser - 缓激肽中各种肽键的能力。

结果

Sephadex G - 200凝胶色谱分析以及在pH 6.9条件下对所有级分的测定表明，牛晶状体提取物中主要氨肽酶的洗脱体积与同一晶状体中纯化的AP III的洗脱体积相同。然而，当在pH 8.5条件下进行测定时，从Sephadex G - 200柱上洗脱的主要活性存在于具有LAP的级分中。对人晶状体提取物在pH 6.9和8.5条件下进行的类似研究显示，有一个主要峰，其洗脱体积与纯化的牛晶状体AP III的洗脱体积相对应：人晶状体提取物显示出非常低水平的LAP活性。在pH 6.9条件下，AP III对肽底物的水解模式与牛和人晶状体提取物的水解模式相似。肽底物VHLTPVEK中对LAP具有抗性的X - Pro键被AP III以及晶状体提取物水解。