LaurenJansen/Sandbox1
From Proteopedia
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==References== | ==References== | ||
| - | <ref>PMID:11687497<ref> M. Sternlicht, et al., How Matrix Metalloproteinases Regulate Cell Behavior, Annu Rev Cell Dev Biol, 2001. 17: p. 463–516. | + | <ref>PMID:11687497</ref> M. Sternlicht, et al., How Matrix Metalloproteinases Regulate Cell Behavior, Annu Rev Cell Dev Biol, 2001. 17: p. 463–516. |
| - | <ref> PMID:11923519<ref> L. Coussens, et al., Matrix Metalloproteinase Inhibitors and Cancer: Trials and Tribulations, Science, 2002. 295: p. 2387-92 | + | <ref> PMID:11923519</ref> L. Coussens, et al., Matrix Metalloproteinase Inhibitors and Cancer: Trials and Tribulations, Science, 2002. 295: p. 2387-92 |
| - | <ref> PMID:11990853<ref> Egeblad, et. al., New Functions for the Matrix Metalloproteinases in Cancer Progression, Nat. Rev. Can., 2002, 2: 162-74 | + | <ref> PMID:11990853</ref> Egeblad, et. al., New Functions for the Matrix Metalloproteinases in Cancer Progression, Nat. Rev. Can., 2002, 2: 162-74 |
Revision as of 17:46, 1 November 2013
Contents |
Membrane Type 1 Matrix Metalloproteinase
One of the CBI Molecules being studied in the University of Massachusetts Amherst Chemistry-Biology Interface Program at UMass Amherst and on display at the Molecular Playground. Molecular Playground banner: "MMP-14 allows for 3D in vitro cell migration"
Structure
Membrane Type 1 Matrix Metalloproteinase (MT1-MMP) is 1 of ~21 members of the human MMP family of endopeptidases. MMPs are zinc dependent proteinases that are capable of degrading virtually any extracellular matrix component. Inherently, this enables MMPs to be a key player in regulation of cell behavior.
There are 8 structure classes for MMPs, of which 5 are secreted molecules and 3 are membrane-type. MT1-MMP or also known as MMP-14 is covalently bound to the cell membrane and
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Inhibition
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Extracellular Matrix Components
My Research Interest
In the Peyton Lab I work to combine materials science with stem cell and cancer biology to design in vitro model biomaterial systems to understand cell motility. My project aims to design 3D biomaterial tissue mimics using poly(ethylene glycol) and I incorporate degradable MMP crosslinkers into these materials to allow cells the opportunity to remodel their surrounding matrix.
References
[1] M. Sternlicht, et al., How Matrix Metalloproteinases Regulate Cell Behavior, Annu Rev Cell Dev Biol, 2001. 17: p. 463–516.
[2] L. Coussens, et al., Matrix Metalloproteinase Inhibitors and Cancer: Trials and Tribulations, Science, 2002. 295: p. 2387-92
[3] Egeblad, et. al., New Functions for the Matrix Metalloproteinases in Cancer Progression, Nat. Rev. Can., 2002, 2: 162-74
