Folding and stability of the active N-terminal domain of tissue inhibitor of metalloproteinases-1 and -2

The truncated forms of tissue inhibitor of metalloproteinase-1and -2 (TIMP-1 and -2), comprising the N-terminal active domain,are ideal molecules for structural analysis by intrinsic fluorescenceas each contains a single conserved tryptophan residue. In thispaper we describe studies on their conformational stability,unfolding/refolding kinetics and the environment of the uniquetryptophan as judged by its fluorescence properties in the nativestate and exposure to an external quencher, acrylamide. Twoforms of TIMP-2 were studied: TIMP-2 T21 derived from the full-lengthcDNA clone isolated from a mixed-tumour library, and TIMP-2A21 containing the highly conserved V18IRAK22 sequence. In allthree TIMP proteins the tryptophan environments in the nativestate appeared to be similar, but substantial differences wereseen in their conformational stabilities and refolding kinetics.TIMP-1 was approximately twice as stable as TIMP-2 T21 and 1.4-foldmore stable than TIMP-2 A21. This stability difference betweenTIMP-1 and TIMP-2 was shown to be independent of N-linked glycosylation.TTMP-1 and TIMP-2 A21 both showed simple two-state refoldingkinetics, whereas TIMP-2 T21 refolding was more complex andbiphasic in character. These differences between TIMP-2 T21and A21 suggest that residue 21 is a structurally importantsite in the TIMP protein.All three truncated molecules can beconsidered as stable independent folding domains ideally suitedfor further structural analysis