TY - JOUR
T1 - Furin is a subtilisin-like proprotein processing enzyme in higher eukaryotes
AU - van de Ven, W. J.
AU - Voorberg, J.
AU - Fontijn, R.
AU - Pannekoek, H.
AU - van den Ouweland, A. M.
AU - van Duijnhoven, H. L.
AU - Roebroek, A. J.
AU - Siezen, R. J.
PY - 1990
Y1 - 1990
N2 - The human fur gene encodes a protein, designated furin, the C-terminal half of which contains a transmembrane and a cysteine-rich receptor-like domain. The N-terminal half of furin exhibits striking primary amino acid sequence similarity to the catalytic domains of members of the subtilisin family of serine proteases. We here report characteristics of the furin protein and propose a three-dimensional model for its presumptive catalytic domain with characteristics, that predict furin to exhibit an endoproteolytic cleavage selectivity at paired basic residues. This prediction is substantiated by transfection and cotransfection experiments, using COS-1 cells. Full length fur cDNA evokes the specific synthesis of two polypeptides of about 100 kDa and 90 kDa as appeared from Western blot analysis of transfected COS-1 cells using a polyclonal anti-furin antiserum. Functional analysis of furin was performed by cotransfection of fur cDNA with cDNA encoding the 'wild type' precursor of von Willebrand factor (pro-vWF) and revealed an increased proteolytic processing of provWF. In contrast, cotransfection of fur cDNA with a recombinant derivative (provWFgly763), having the arginine residue adjacent to the proteolytic cleavage site (arg-ser-lys-arg) replaced by glycine, revealed that provWFgly763 is not processed by the fur gene product. We conclude that in higher eukaryotes, furin is the prototype of a subtilisin-like class of proprotein processing enzymes with substrate specificity for paired basic residues
AB - The human fur gene encodes a protein, designated furin, the C-terminal half of which contains a transmembrane and a cysteine-rich receptor-like domain. The N-terminal half of furin exhibits striking primary amino acid sequence similarity to the catalytic domains of members of the subtilisin family of serine proteases. We here report characteristics of the furin protein and propose a three-dimensional model for its presumptive catalytic domain with characteristics, that predict furin to exhibit an endoproteolytic cleavage selectivity at paired basic residues. This prediction is substantiated by transfection and cotransfection experiments, using COS-1 cells. Full length fur cDNA evokes the specific synthesis of two polypeptides of about 100 kDa and 90 kDa as appeared from Western blot analysis of transfected COS-1 cells using a polyclonal anti-furin antiserum. Functional analysis of furin was performed by cotransfection of fur cDNA with cDNA encoding the 'wild type' precursor of von Willebrand factor (pro-vWF) and revealed an increased proteolytic processing of provWF. In contrast, cotransfection of fur cDNA with a recombinant derivative (provWFgly763), having the arginine residue adjacent to the proteolytic cleavage site (arg-ser-lys-arg) replaced by glycine, revealed that provWFgly763 is not processed by the fur gene product. We conclude that in higher eukaryotes, furin is the prototype of a subtilisin-like class of proprotein processing enzymes with substrate specificity for paired basic residues
U2 - https://doi.org/10.1007/BF00429896
DO - https://doi.org/10.1007/BF00429896
M3 - Article
C2 - 2094803
SN - 0301-4851
VL - 14
SP - 265
EP - 275
JO - Molecular Biology Reports
JF - Molecular Biology Reports
IS - 4
ER -