U. Benbow et al., CHARACTERIZATION OF THE 46-KDA INTERMEDIATES OF MATRIX METALLOPROTEINASE-3 (STROMELYSIN-1) OBTAINED BY SITE-DIRECTED MUTATION OF PHENYLALANINE-83, The Journal of biological chemistry, 271(18), 1996, pp. 10715-10722
The precursor of matrix metalloproteinase 3 (MMP-3/stromelysin 1) is a
ctivated in vitro by proteinases or mercurial compounds by stepwise pr
ocesses which include the initial formation of short-lived intermediat
es and the subsequent intermolecular cleavage of the His(82)-Phe(83) b
ond to generate the fully activated mature MMP-3 (Nagase, H., Enghild,
J. J., Suzuki, K., and Salvesen, G. (1990) Biochemistry 29, 5783-5789
), To study the enzymatic properties of the intermediates we have muta
ted either His(82) or Phe(83) to Arg to obtain a stable MMP-3 intermed
iate, The mutant proteins were expressed in Chinese hamster ovary K-1
cells using a mammalian expression system. The proMMP-3(H82R) mutant w
as activated by chymotrypsin, elastase, and 4-aminophenylmercuric acet
ate to the 45-kDa MMP-3 with similar mechanism and kinetics as the wil
d-type. In contrast, the activation of the proMMP-3(F83R) mutant by pr
oteinases or 4-aminophenylmercuric acetate resulted in 46-kDa forms, w
hich retained 13, 14, or 15 amino acids of the pro-domain depending on
the activators, The proteinase-activated MMP-3(F83R) intermediates ex
hibited little enzymatic activity, but they were partially active afte
r treatment with SH-reacting reagents. These molecules could bind to t
he tissue inhibitor of metalloproteinases-1 and alpha(2)-macroglobulin
. However, the SH group of Cys(75) of the intermediates was not modifi
ed by SH-reagents, indicating that the enzymatic activity generated by
SH-reagents resulted from molecular perturbation of the enzyme rather
than their interaction with Cys(75). When gelatin and transferrin wer
e digested with the 46-kDa intermediates the products were different f
rom those generated by the wild-type MMP-3, suggesting an alteration i
n substrate specificity, The treatment of proMMP-3 with trypsin result
ed in the formation of a 45-kDa MMP-3 with an NH2-terminal Thr(85), wh
ose activity and substrate specificity were similar to those of the 46
-kDa MMP-3(F83R) obtained from the proMMP-3(F83R) mutant. These observ
ations indicate that the correct processing at the His(82)-Phe(83) bon
d is critical for expression of the full activity and the specificity
of MMP-3.