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The Dimer Interface of the Membrane Type 1 Matrix Metalloproteinase Hemopexin Domain: CRYSTAL STRUCTURE AND BIOLOGICAL FUNCTIONS
Homodimerization is an essential step for membrane type 1 matrix metalloproteinase (MT1-MMP) to activate proMMP-2 and to degrade collagen on the cell surface. To uncover the molecular basis of the hemopexin (Hpx) domain-driven dimerization of MT1-MMP, a crystal structure of the Hpx domain was solved...
| Autores principales: | , , , , , , , , , , , , , |
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| Formato: | Texto |
| Lenguaje: | English |
| Publicado: |
American Society for Biochemistry and Molecular Biology
2011
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| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3045013/ https://www.ncbi.nlm.nih.gov/pubmed/21193411 http://dx.doi.org/10.1074/jbc.M110.178434 |
| _version_ | 1782198790936068096 |
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| author | Tochowicz, Anna Goettig, Peter Evans, Richard Visse, Robert Shitomi, Yasuyuki Palmisano, Ralf Ito, Noriko Richter, Klaus Maskos, Klaus Franke, Daniel Svergun, Dmitri Nagase, Hideaki Bode, Wolfram Itoh, Yoshifumi |
| author_facet | Tochowicz, Anna Goettig, Peter Evans, Richard Visse, Robert Shitomi, Yasuyuki Palmisano, Ralf Ito, Noriko Richter, Klaus Maskos, Klaus Franke, Daniel Svergun, Dmitri Nagase, Hideaki Bode, Wolfram Itoh, Yoshifumi |
| author_sort | Tochowicz, Anna |
| collection | PubMed |
| description | Homodimerization is an essential step for membrane type 1 matrix metalloproteinase (MT1-MMP) to activate proMMP-2 and to degrade collagen on the cell surface. To uncover the molecular basis of the hemopexin (Hpx) domain-driven dimerization of MT1-MMP, a crystal structure of the Hpx domain was solved at 1.7 Å resolution. Two interactions were identified as potential biological dimer interfaces in the crystal structure, and mutagenesis studies revealed that the biological dimer possesses a symmetrical interaction where blades II and III of molecule A interact with blades III and II of molecule B. The mutations of amino acids involved in the interaction weakened the dimer interaction of Hpx domains in solution, and incorporation of these mutations into the full-length enzyme significantly inhibited dimer-dependent functions on the cell surface, including proMMP-2 activation, collagen degradation, and invasion into the three-dimensional collagen matrix, whereas dimer-independent functions, including gelatin film degradation and two-dimensional cell migration, were not affected. These results shed light on the structural basis of MT1-MMP dimerization that is crucial to promote cellular invasion. |
| format | Text |
| id | pubmed-3045013 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2011 |
| publisher | American Society for Biochemistry and Molecular Biology |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-30450132011-03-07 The Dimer Interface of the Membrane Type 1 Matrix Metalloproteinase Hemopexin Domain: CRYSTAL STRUCTURE AND BIOLOGICAL FUNCTIONS Tochowicz, Anna Goettig, Peter Evans, Richard Visse, Robert Shitomi, Yasuyuki Palmisano, Ralf Ito, Noriko Richter, Klaus Maskos, Klaus Franke, Daniel Svergun, Dmitri Nagase, Hideaki Bode, Wolfram Itoh, Yoshifumi J Biol Chem Enzymology Homodimerization is an essential step for membrane type 1 matrix metalloproteinase (MT1-MMP) to activate proMMP-2 and to degrade collagen on the cell surface. To uncover the molecular basis of the hemopexin (Hpx) domain-driven dimerization of MT1-MMP, a crystal structure of the Hpx domain was solved at 1.7 Å resolution. Two interactions were identified as potential biological dimer interfaces in the crystal structure, and mutagenesis studies revealed that the biological dimer possesses a symmetrical interaction where blades II and III of molecule A interact with blades III and II of molecule B. The mutations of amino acids involved in the interaction weakened the dimer interaction of Hpx domains in solution, and incorporation of these mutations into the full-length enzyme significantly inhibited dimer-dependent functions on the cell surface, including proMMP-2 activation, collagen degradation, and invasion into the three-dimensional collagen matrix, whereas dimer-independent functions, including gelatin film degradation and two-dimensional cell migration, were not affected. These results shed light on the structural basis of MT1-MMP dimerization that is crucial to promote cellular invasion. American Society for Biochemistry and Molecular Biology 2011-03-04 2010-12-30 /pmc/articles/PMC3045013/ /pubmed/21193411 http://dx.doi.org/10.1074/jbc.M110.178434 Text en © 2011 by The American Society for Biochemistry and Molecular Biology, Inc. Author's Choice—Final version full access. Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0/) applies to Author Choice Articles |
| spellingShingle | Enzymology Tochowicz, Anna Goettig, Peter Evans, Richard Visse, Robert Shitomi, Yasuyuki Palmisano, Ralf Ito, Noriko Richter, Klaus Maskos, Klaus Franke, Daniel Svergun, Dmitri Nagase, Hideaki Bode, Wolfram Itoh, Yoshifumi The Dimer Interface of the Membrane Type 1 Matrix Metalloproteinase Hemopexin Domain: CRYSTAL STRUCTURE AND BIOLOGICAL FUNCTIONS |
| title | The Dimer Interface of the Membrane Type 1 Matrix Metalloproteinase Hemopexin Domain: CRYSTAL STRUCTURE AND BIOLOGICAL FUNCTIONS |
| title_full | The Dimer Interface of the Membrane Type 1 Matrix Metalloproteinase Hemopexin Domain: CRYSTAL STRUCTURE AND BIOLOGICAL FUNCTIONS |
| title_fullStr | The Dimer Interface of the Membrane Type 1 Matrix Metalloproteinase Hemopexin Domain: CRYSTAL STRUCTURE AND BIOLOGICAL FUNCTIONS |
| title_full_unstemmed | The Dimer Interface of the Membrane Type 1 Matrix Metalloproteinase Hemopexin Domain: CRYSTAL STRUCTURE AND BIOLOGICAL FUNCTIONS |
| title_short | The Dimer Interface of the Membrane Type 1 Matrix Metalloproteinase Hemopexin Domain: CRYSTAL STRUCTURE AND BIOLOGICAL FUNCTIONS |
| title_sort | dimer interface of the membrane type 1 matrix metalloproteinase hemopexin domain: crystal structure and biological functions |
| topic | Enzymology |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3045013/ https://www.ncbi.nlm.nih.gov/pubmed/21193411 http://dx.doi.org/10.1074/jbc.M110.178434 |
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