COMPARATIVE PROTEOLYTIC PROCESSING OF RAT PROSOMATOSTATIN BY THE CONVERTASES PC1, PC2, FURIN, PACE4 AND PC5 IN CONSTITUTIVE AND REGULATED SECRETORY PATHWAYS

被引：67

作者：

BRAKCH, N

GALANOPOULOU, AS

PATEL, YC

BOILEAU, G

SEIDAH, NG

机构：

[1] CLIN RES INST MONTREAL,JA DESEVE LAB BIOCHEM NEUROENDOCRINOL,MONTREAL,PQ H2W 1R7,CANADA

[2] UNIV MONTREAL,FAC MED,DEPT BIOCHIM,MONTREAL,PQ H3C 3J7,CANADA

[3] MCGILL UNIV,ROYAL VICTORIA HOSP,DEPT MED,MONTREAL,PQ H3A 1A1,CANADA

[4] MCGILL UNIV,ROYAL VICTORIA HOSP,DEPT NEUROL & NEUROSURG,MONTREAL,PQ H3A 1A1,CANADA

[5] MONTREAL NEUROL INST,MONTREAL,PQ H3A 1A1,CANADA

来源：

FEBS LETTERS | 1995年 / 362卷 / 02期

基金：

英国医学研究理事会;

关键词：

SOMATOSTATIN; CONVERTASE; PROCESSING; COEXPRESSION; VACCINIA VIRUS; CONSTITUTIVE AND REGULATED CELL;

D O I：

10.1016/0014-5793(95)00229-3

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：

Recombinant vaccinia virus vectors were used to coexpress each of the candidate prohormone convertases PC1, PC2, furin, PACE4 and PC5 with rat prosomatostatin (rProSOM) in the constitutive secreting cell line LoVo and in the endocrine corticotroph cell line AtT-20, which exhibits regulated secretion, Mammalian ProSOM is cleaved at a dibasic Arg-Lys down arrow site to produce somatostatin-14 (S-14) and at a monobasic Gln-Arg down arrow site to yield somatostatin-2b (S-28), The analysis of processed products by gel-permeation high performance liquid chromatography shows that in LoVo cells PCI, furin and PACE4 generate S-14, S-28 and a mixture of S-14 and S-28, respectively, while PC2 is unable to process ProSOM in these constitutive cells, In contrast, PC2 can generate S-14 in AtT-20 cells, The convertase PC5 is unable to process ProSOM in either cell line, These data suggest that PC2, PC1 and PACE4 are candidate S-14 convertases, while PACE4 and furin are candidate S-28 convertases.

引用

页码：143 / 146

页数：4

共 29 条

[1]

Fuller, Sterne, Thorner, Annu. Rev. Physiol., 50, pp. 343-362, (1988)

[2]

Seidah, Day, Chretien, Biochem. Soc. Trans., 21, pp. 685-691, (1993)

[3]

Seidah, Chretien, TEM, 3, pp. 133-140, (1992)

[4]

Gabbay, Bergenstal, Wollff, Mako, Rubenstein, Proc. Natl. Acad. Sci. USA, 76, pp. 2881-2885, (1979)

[5]

Brakch, Rholam, Boussetta, Cohen, Biochemistry, 432, pp. 4925-4930, (1993)

[6]

Van de Ven, Roebroek, Crit. Rev. Oncog., 4, pp. 115-136, (1993)

[7]

Seidah, Chretien, Day, Biochimie, 76, pp. 197-209, (1994)

[8]

Seidah, Chretien, Methods Enzymol., 244, pp. 175-188, (1994)

[9]

Benjannet, Reudelhuber, Mercure, Rondeau, Chretien, Seidah, J. Biol. Chem., 267, pp. 11417-11423, (1992)

[10]

Thomas, Thorne, Thomas, Allen, Hruby, Fuller, Thorner, Science, 241, pp. 226-230, (1988)

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