Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: UMLS:C0178874 (
tumor progression
)
40,807
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The localization of proteolytic enzymes at the cell surface is a widely used strategy for facilitating tumor invasion. In this study, we have cloned a new member of the membrane-type subfamily of matrix metalloproteinases (MT-MMPs), a group of enzymes associated with
tumor progression
. The cloned cDNA encodes a protein of 562 amino acids with a domain organization similar to that of other MT-MMPs, including a prodomain with a cysteine switch, a catalytic domain with the zinc-binding site, a hemopexin-like domain, and a COOH-terminal extension rich in hydrophobic residues. The predicted protein sequence also contains a short insertion of basic residues located between the propeptide and the catalytic domain and involved in the proteolytic activation of MT-MMPs by furin-like enzymes. Furthermore, immunofluorescence and Western blot analysis of COS-7 cells transfected with the isolated cDNA revealed that the encoded protein is localized at the cell surface. Based on these properties, this novel human matrix metalloproteinase has been called
MT6-MMP
because it is the sixth identified member of this subfamily of matrix metalloproteinase. Cotransfection of expression plasmids encoding
MT6-MMP
and progelatinase A resulted in activation of COS-7-secreted progelatinase A, as demonstrated by gelatin zymography. In contrast, transfection of progelatinase A cDNA alone did not lead to the activation of the proenzyme. Northern blot analysis of polyadenylated RNAs isolated from human tissues demonstrated that
MT6-MMP
is predominantly expressed in leukocytes, lung, and spleen.
MT6-MMP
was also detected at high levels in SW480 colon carcinoma cells as well as in some anaplastic astrocytomas and glioblastomas, but not in normal colon or brain or in meningiomas. On the basis of these results, we propose that
MT6-MMP
may facilitate
tumor progression
through its ability to activate progelatinase A at the membrane of cells from colon carcinomas or brain tumors.
...
PMID:Human MT6-matrix metalloproteinase: identification, progelatinase A activation, and expression in brain tumors. 1070 98
Leukolysin/
membrane-type 6 matrix metalloproteinase
(leukolysin/
MT6-MMP
), a glycosylphosphatidylinositol-anchored neutrophil matrix metalloproteinase, is also abnormally expressed in brain cancer tissues. Yet, little is known about its role in
cancer progression
. Here we show that
MT6-MMP
is capable of activating proMMP-2, an enzyme implicated in tumor invasion and metastasis. Although
MT6-MMP
is only 10% as active as MT5-MMP in mediating proMMP-2 activation, it generates a higher ratio of mature/intermediate forms of MMP-2 than MT5-MMP. Consistently, purified CAT of
MT6-MMP
converts proMMP-2 into mostly the mature form. Using the catalytically inactive mutant MMP-2EA (the E404A mutant of proMMP-2), which cannot autocatalytically mature from the intermediate form into the mature one, we show that
MT6-MMP
cleaves not only the known MT-MMP-processing site at Asn(66)-Leu but also the previously unsuspected Asn(109)-Tyr to yield a fully mature molecule. Despite their difference in mediating proMMP-2 activation in transfected cells, the CAT of
MT6-MMP
appears to be as efficient as that of MT5-MMP in cleaving proMMP-2EA in buffer, suggesting that its CAT is a strong proMMP-2 activator. Indeed, the CAT of
MT6-MMP
can partially substitute the CAT of prototypical MT1-MMP in mediating proMMP-2 activation. Taken these facts together, we conclude that
MT6-MMP
may participate in tumor invasion and metastasis by directly converting proMMP-2 into active form.
...
PMID:Direct activation of pro-matrix metalloproteinase-2 by leukolysin/membrane-type 6 matrix metalloproteinase/matrix metalloproteinase 25 at the asn(109)-Tyr bond. 1458 71
The process of
cancer progression
involves the action of multiple proteolytic systems, among which the family of matrix metalloproteinases (MMPs) play a pivotal role. The MMPs evolved to accomplish their proteolytic tasks in multiple cellular and tissue microenvironments including lipid rafts by incorporation and deletions of specific structural domains. The membrane type-MMPs (MT-MMPs) incorporated membrane anchoring domains that display these proteases at the cell surface, and thus they are optimal pericellular proteolytic machines. Two members of the MT-MMP subfamily, MMP-17 (MT4-MMP) and MMP-25 (
MT6-MMP
), are anchored to the plasma membrane via a glycosyl-phosphatidyl inositol (GPI) anchor, which confers these enzymes a unique set of regulatory and functional mechanisms that separates them from the rest of the MMP family. Discovered almost a decade ago, the body of work on GPI-MT-MMPs today is still surprisingly limited when compared to other MT-MMPs. However, new evidence shows that the GPI-MT-MMPs are highly expressed in human cancer, where they are associated with progression. Accumulating biochemical and functional evidence also highlights their distinct properties. In this review, we summarize the structural, biochemical, and biological properties of GPI-MT-MMPs and present an overview of their expression and role in cancer. We further discuss the potential implications of GPI-anchoring for enzyme function. Finally, we comment on the new scientific challenges that lie ahead to better understand the function and role in cancer of these intriguing but yet unique MMPs.
...
PMID:MT4-(MMP17) and MT6-MMP (MMP25), A unique set of membrane-anchored matrix metalloproteinases: properties and expression in cancer. 1828 33
