Structural characterizations of nonpeptidic thiadiazole inhibitors of matrix metalloproteinases reveal the basis for stromelysin selectivity

B. C. Finzel; E. T. Baldwin; G. L. Bryant; G. F. Hess; J. W. Wilks; C. M. Trepod; J. E. Mott; V. P. Marshall; G. L. Petzold; R. A. Poorman; T. J. O'Sullivan; H. J. Schostarez; M. A. Mitchell

doi:10.1002/pro.5560071008

Structural characterizations of nonpeptidic thiadiazole inhibitors of matrix metalloproteinases reveal the basis for stromelysin selectivity

B. C. Finzel, E. T. Baldwin, G. L. Bryant, G. F. Hess, J. W. Wilks, C. M. Trepod, J. E. Mott, V. P. Marshall, G. L. Petzold, R. A. Poorman, T. J. O'Sullivan, H. J. Schostarez, M. A. Mitchell

Medicinal Chemistry

Research output: Contribution to journal › Article › peer-review

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Abstract

The binding of two 5-substituted-1,3,4-thiadiazole-2-thione inhibitors to the matrix metalloproteinase stromelysin (MMP-3) have been characterized by protein crystallography. Both inhibitors coordinate to the catalytic zinc cation via an exocyclic sulfur and lay in an unusual position across the unprimed (P1-P3) side of the proteinase active site. Nitrogen atoms in the thiadiazole moiety make specific hydrogen bond interactions with enzyme structural elements that are conserved across all enzymes in the matrix metalloproteinase class. Strong hydrophobic interactions between the inhibitors and the side chain of tyrosine-155 appear to be responsible for the very high selectivity of these inhibitors for stromelysin. In these enzyme/inhibitor complexes, the S1' enzyme subsite is unoccupied. A conformational rearrangement of the catalytic domain occurs that reveals an inherent flexibility of the substrate binding region leading to speculation about a possible mechanism for modulation of stromelysin activity and selectivity.

Original language	English (US)
Pages (from-to)	2118-2126
Number of pages	9
Journal	Protein Science
Volume	7
Issue number	10
DOIs	https://doi.org/10.1002/pro.5560071008
State	Published - Oct 1998

Keywords

Collagenase
Drug design
Endopeptidase
Gelatinase
MMP
Matrix metalloproteinase

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Finzel, B. C., Baldwin, E. T., Bryant, G. L., Hess, G. F., Wilks, J. W., Trepod, C. M., Mott, J. E., Marshall, V. P., Petzold, G. L., Poorman, R. A., O'Sullivan, T. J., Schostarez, H. J., & Mitchell, M. A. (1998). Structural characterizations of nonpeptidic thiadiazole inhibitors of matrix metalloproteinases reveal the basis for stromelysin selectivity. Protein Science, 7(10), 2118-2126. https://doi.org/10.1002/pro.5560071008

Finzel, BC, Baldwin, ET, Bryant, GL, Hess, GF, Wilks, JW, Trepod, CM, Mott, JE, Marshall, VP, Petzold, GL, Poorman, RA, O'Sullivan, TJ, Schostarez, HJ & Mitchell, MA 1998, 'Structural characterizations of nonpeptidic thiadiazole inhibitors of matrix metalloproteinases reveal the basis for stromelysin selectivity', Protein Science, vol. 7, no. 10, pp. 2118-2126. https://doi.org/10.1002/pro.5560071008

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abstract = "The binding of two 5-substituted-1,3,4-thiadiazole-2-thione inhibitors to the matrix metalloproteinase stromelysin (MMP-3) have been characterized by protein crystallography. Both inhibitors coordinate to the catalytic zinc cation via an exocyclic sulfur and lay in an unusual position across the unprimed (P1-P3) side of the proteinase active site. Nitrogen atoms in the thiadiazole moiety make specific hydrogen bond interactions with enzyme structural elements that are conserved across all enzymes in the matrix metalloproteinase class. Strong hydrophobic interactions between the inhibitors and the side chain of tyrosine-155 appear to be responsible for the very high selectivity of these inhibitors for stromelysin. In these enzyme/inhibitor complexes, the S1' enzyme subsite is unoccupied. A conformational rearrangement of the catalytic domain occurs that reveals an inherent flexibility of the substrate binding region leading to speculation about a possible mechanism for modulation of stromelysin activity and selectivity.",

keywords = "Collagenase, Drug design, Endopeptidase, Gelatinase, MMP, Matrix metalloproteinase",

author = "Finzel, {B. C.} and Baldwin, {E. T.} and Bryant, {G. L.} and Hess, {G. F.} and Wilks, {J. W.} and Trepod, {C. M.} and Mott, {J. E.} and Marshall, {V. P.} and Petzold, {G. L.} and Poorman, {R. A.} and O'Sullivan, {T. J.} and Schostarez, {H. J.} and Mitchell, {M. A.}",

year = "1998",

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AU - Finzel, B. C.

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AU - Bryant, G. L.

AU - Hess, G. F.

AU - Wilks, J. W.

AU - Trepod, C. M.

AU - Mott, J. E.

AU - Marshall, V. P.

AU - Petzold, G. L.

AU - Poorman, R. A.

AU - O'Sullivan, T. J.

AU - Schostarez, H. J.

AU - Mitchell, M. A.

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N2 - The binding of two 5-substituted-1,3,4-thiadiazole-2-thione inhibitors to the matrix metalloproteinase stromelysin (MMP-3) have been characterized by protein crystallography. Both inhibitors coordinate to the catalytic zinc cation via an exocyclic sulfur and lay in an unusual position across the unprimed (P1-P3) side of the proteinase active site. Nitrogen atoms in the thiadiazole moiety make specific hydrogen bond interactions with enzyme structural elements that are conserved across all enzymes in the matrix metalloproteinase class. Strong hydrophobic interactions between the inhibitors and the side chain of tyrosine-155 appear to be responsible for the very high selectivity of these inhibitors for stromelysin. In these enzyme/inhibitor complexes, the S1' enzyme subsite is unoccupied. A conformational rearrangement of the catalytic domain occurs that reveals an inherent flexibility of the substrate binding region leading to speculation about a possible mechanism for modulation of stromelysin activity and selectivity.

AB - The binding of two 5-substituted-1,3,4-thiadiazole-2-thione inhibitors to the matrix metalloproteinase stromelysin (MMP-3) have been characterized by protein crystallography. Both inhibitors coordinate to the catalytic zinc cation via an exocyclic sulfur and lay in an unusual position across the unprimed (P1-P3) side of the proteinase active site. Nitrogen atoms in the thiadiazole moiety make specific hydrogen bond interactions with enzyme structural elements that are conserved across all enzymes in the matrix metalloproteinase class. Strong hydrophobic interactions between the inhibitors and the side chain of tyrosine-155 appear to be responsible for the very high selectivity of these inhibitors for stromelysin. In these enzyme/inhibitor complexes, the S1' enzyme subsite is unoccupied. A conformational rearrangement of the catalytic domain occurs that reveals an inherent flexibility of the substrate binding region leading to speculation about a possible mechanism for modulation of stromelysin activity and selectivity.

KW - Collagenase

KW - Drug design

KW - Endopeptidase

KW - Gelatinase

KW - MMP

KW - Matrix metalloproteinase

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ER -

Structural characterizations of nonpeptidic thiadiazole inhibitors of matrix metalloproteinases reveal the basis for stromelysin selectivity

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