MECHANISMS OF A CONVERSION FROM MEMBRANE-ASSOCIATED LYSOSOMAL ACID-PHOSPHATASE TO CONTENT FORMS

被引：5

作者：

HIMENO, M

NAKAMURA, K

TANAKA, Y

YAMADA, H

IMOTO, T

KATO, K

机构：

[1] KYUSHU UNIV,FAC PHARMACEUT SCI,DEPT PHYSIOL CHEM,HIGASHI KU,FUKUOKA 812,JAPAN

[2] OKAYAMA UNIV,FAC ENGN,DEPT BIOENGN SCI,OKAYAMA 700,JAPAN

来源：

BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS | 1991年 / 180卷 / 03期

关键词：

D O I：

10.1016/S0006-291X(05)81363-4

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

We reported that membrane-associated APase (M-APase) is anchored in the lipid bilayer through its hydrophobic sequence close to the COOH-terminus [Biochem. Biophys. Res. Commun. (1989) 162, 1044-1053] and is released from lysosomal membranes into the lysosomal contents by limited proteolysis with cathepsin D [J. Biochem. (1990) 108, 287-291]. We here report the conversion process of M-APase to three forms of the content enzyme (C-APase I, II, and III) by assigning the COOH-terminus of each APase in lysosomes. The purified M-APase (67 kDa) was subjected to COOH-terminal determination after digestion with cathepsin D. The COOH-terminus of cathepsin D-digested M-APase (65 kDa) ended at the position of the 382nd leucine residue. The COOH-termini of C-APase I (48 kDa) and III (64 kDa) were also determined. Since the two enzymes ended at the same position of the 373rd alanine residue, this COOH-terminal is 9 amino acid residues shorter than that of cathepsin D-digested M-APase. Then, we compared NH2-terminal sequences of the three enzymes, and found that those of three enzymes are exactly the same. Therefore, protein portions of C-APase I and III proved to be identical. The above results indicate that in lysosomes M-APase is first hydrolyzed between amino acid residues 382 and 383 by cathepsin D, and after solubilization, the enzyme is converted to C-APase III by losing 9 amino acid residues by lysosomal carboxypeptidase(s). Molecular weight differences among three C-APases (III, 64 kDa; II, 55 kDa; I, 48 kDa) probably are due to different degrees of carbohydrate chain degradations as reported previously [J. Biochem. (1989) 105, 449-456]. © 1991 Academic Press, Inc.

引用

页码：1483 / 1489

页数：7

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