miR-125a-3p suppresses the growth and progression of papillary thyroid carcinoma cell by targeting MMP11.

The dysregulation of miR-125a-3p has been observed in multiple tumor types. Nevertheless, the function of miR-125a-3p in papillary thyroid carcinoma (PTC) is yet to be explored. Herein, we find that miR-125a-3p is markedly downregulated in PTC tissues, and its level is inversely related to the histological grade of PTC. Upregulation of miR-125a-3p suppresses the pulmonary metastatic ability as well as the tumor growth of PTC cell in vivo. Consistently, the colony formation ability and other metastasis-related traits of PTC cell are inhibited by miR-125a-3p transfection in vitro. In addition, we identify that matrix metalloprotease 11 (MMP11) is the direct target gene of miR-125a-3p, and that miR-125a-3p inhibits cell viability, migration, and invasiveness of PTC cell by reducing MMP11 expression in vitro. Together, these data testify that the miR-125a-3p/MMP11 axis plays vital roles in the growth and progression of human PTC cells.

Functional relationship between matrix metalloproteinase-11 and matrix metalloproteinase-14.

MMP-11 is a key factor in physiopathological tissue remodeling. As an active form is secreted, its activity must be tightly regulated to avoid detrimental effects. Although TIMP-1 and TIMP-2 reversibly inhibit MMP-11, another more drastic scenario, presumably via hydrolysis, could be hypothesized. In this context, we have investigated the possible implication of MMP-14, since it exhibits a spatiotemporal localization similar to MMP-11. Using native HFL1-produced MMP-11 and HT-1080-produced MMP-14 as well as recombinant proteins, we show that MMP-11 is a MMP-14 substrate. MMP-14 cleaves MMP-11 catalytic domain at the PGG(P1)-I(P1')LA and V/IQH(P1)-L(P1')YG scissile bonds, two new cleavage sites. Interestingly, a functional test showed a dramatical reduction in MMP-11 enzymatic activity when incubated with active MMP-14, whereas inactive point-mutated MMP-14 had no effect. This function is conserved between human and mouse. Thus, in addition to the canonical reversible TIMP-dependent inhibitory system, irreversible MMP proteolytic inactivation might occur by cleavage of the catalytic domain in a MMP-dependent manner. Since MMP-14 is produced by HT-1080 cancer cells, whereas MMP-11 is secreted by HFL1 stromal cells, our findings support the emerging importance of tumor-stroma interaction/cross-talk. Moreover, they highlight a Janus-faced MMP-14 function in the MMP cascade, favoring activation of several pro-MMPs, but limiting MMP-11 activity. Finally, both MMPs are active at the cell periphery. Since MMP-14 is present at the cell membrane, whereas MMP-11 is soluble into the cellular microenvironment, this MMP-14 function might represent one critical regulatory mechanism to control the extent of pericellular MMP-11 bioavailability and protect cells from excessive/inappropriate MMP-11 function.

microRNA­145 inhibits cell proliferation, migration and invasion by targeting matrix metallopeptidase-11 in renal cell carcinoma.

microRNA­145 (miR­145) has been reported to be frequently downregulated in various types of cancer, including renal, prostate, bladder, lung and colon cancer, as well as B­cell malignancies. The present study examined the effects of miR­145 on the cell proliferation, migration and invasion of renal cell carcinoma (RCC). Following transfection of miR­145, an MTT, cell migration, cell invasion and luciferase assays, and western blot analysis were conducted in RCC cell lines. The present study demonstrated that miR­145 inhibited cell proliferation, migration and invasion in 786­O and A498 cells. The present study also demonstrated for the first time, to the best of our knowledge, that miR­145 may directly target matrix metallopeptidase­11 (MMP­11) in RCC. miR­145 was demonstrated to suppress cell proliferation, migration and invasion by targeting MMP­11 in RCC cell lines. These results suggested that it may be investigated as a predictive marker for the early detection of tumor metastasis and for targeting therapeutic drugs to inhibit the invasion of RCC.

Heterologous expression and functional characterization of matrix metalloproteinase-11 from canine mammary tumor.

Matrix metalloproteinases (MMPs) are reported to be involved in tumor growth, apoptosis, angiogenesis, invasion, and development of metastases. These are zinc containing metalloproteases, known for their role in extracellular matrix degradation. MMP-11 (stromelysin3) is reported to be highly expressed in breast cancer, therefore it may act as marker enzyme for breast cancer progression. The present work was carried out to produce recombinant canine (Canis lupus familiaris) MMP-11 lacking the signal and propeptide in E. coli by optimizing its expression and purification in biologically active form and to functionally characterize it. A bacterial protein expression vector pPROEX HTc was used. The MMP-11 mature peptide encoding gene was successfully cloned and expressed in E. coli and the purified recombinant enzyme was found to be functionally active. The recombinant enzyme exhibited caseinolytic activity and could be activated by Trypsin and 4-Amino phenyl mercuric acetate (APMA). However Ethylene diamine tertra acetate (EDTA) inhibited the enzyme's caseinolytic activity. The recombinant enzyme degraded extracellular matrix constituents and facilitated migration of MDCK (Madin-Darby canine kidney) cells through BD Biocoat Matrigel invasion chambers. These results suggest that in vivo MMP-11 could play a significant role in the turnover of extracellular matrix constituents.

Extra- and intracellular imaging of human matrix metalloprotease 11 (hMMP-11) with a cell-penetrating FRET substrate.

Matrix metalloprotease 11 (MMP-11), a protease associated with invasion and aggressiveness of cancerous tissue, was postulated as a prognostic marker for pancreatic, breast, and colon cancer patients. Expression analysis, however, did not reveal localization and regulation of this protease. Thus, cellular tools for the visualization of MMP-11 are highly desirable to monitor presence and activity and to elucidate the functional role of MMP-11. Therefore, fluorescein-Dabcyl-labeled Foerster resonance energy transfer (FRET) substrates were developed. The design focused on enhanced peptide binding to human MMP-11, employing an unusual amino acid for the specificity pocket P1'. The addition of several arginines resulted in a cell-permeable FRET substrate SM-P124 (Ac-GRRRK(Dabcyl)-GGAANC(MeOBn)RMGG-fluorescein). In vitro evaluation of SM-P124 with human MMP-11 showed a 25-fold increase of affinity (k(cat)/K(m) = 9.16 × 10(3) m(-1) s(-1), K(m) = 8 µm) compared with previously published substrates. Incubation of pancreatic adenocarcinoma cell line MIA PaCa-2 and mamma adenocarcinoma cell line MCF-7 with the substrate SM-P124 (5 µm) indicated intra- and extracellular MMP-11 activity. A negative control cell line (Jurkat) showed no fluorescent signal either intra- or extracellularly. Negative control FRET substrate SM-P123 produced only insignificant extracellular fluorescence without any intracellular fluorescence. SM-P124 therefore enabled intra- and extracellular tracking of MMP-11-overexpressing cancers such as pancreatic and breast adenocarcinoma and might contribute to the understanding of the activation pathways leading to MMP-11-mediated invasive processes.

Matrix metalloproteinase 11 (MMP-11; stromelysin-3) and synthetic inhibitors.

Matrix metalloproteinase (MMP)-11, or Stromelysin 3, is a particular member of MMP family, a group of zinc-dependent endopeptidases involved in matrix degradation and tissue remodeling. Despite intense efforts since its first characterization 15 years ago, its role and target substrates in different diseases remain largely unknown. While mice with MMP-11 deficiency display no particular phenotype, analysis of different tumorigenesis models with these mice lead to the conclusion that MMP-11 promotes tumor development. In contrast with other MMPs, MMP-11 is unable to degrade any major extracellular matrix component and unlike most of other MMPs that are secreted as inactive proenzymes and activated extracellularly, MMP-11 is secreted under active form. MMP-11 may thus play a unique role in tissue remodeling processes, including those associated with tumor progression. Although MMP-11 and other MMPs have been considered as promising targets to combat cancer, a first series of clinical trials using broad-spectrum MMP inhibitors have not led to significant therapeutic benefits. These disappointing results highlight the need for better understanding of the exact role played by each MMP during the different stages of tumor progression. Among the different strategies to fill this gap, highly specific MMP inhibitors would be of great value. This review provides an update on the selectivity profile of phosphinic MMP-11 synthetic inhibitors developed and discusses the opportunities and limitations to identify inhibitors able to fully discriminate MMP-11 from the other MMPs.

[Menstrual blood identification and matrix metalloproteinase-11].

The identification of menstrual blood belongs to the forensic examination of bloodstains. The traditional methods for detecting menstrual blood were reviewed and their obstacles in forensic application were discussed. Matrix metalloproteinase-11 is a kind of protease which degrades the extracellular matrix. Some researches had indicated that matrix metalloproteinase-11 might be a new marker for specifically and sensitively detecting menstrual blood. The structure, function of matrix metalloproteinase-11 and its application in menstrual blood identification were reviewed.

Reactivity of antibodies against 10-amino acid residue and pro-domain of stromelysin-3.

Stromelysin-3 (ST3) has two highly conserved domains in the pro-domain. In particular, an unusual 10-amino acid residue sandwiched between the pro-domain and the catalytic domain of ST3 exists in ST3 but not in other matrix metalloproteinases (MMPs). To specifically detect ST3 expression in human tumors, we have made two kinds of ST3-specific polyclonal antibodies. One was raised against the synthetic 10-amino acid residue (88GLSARNRQKR97) specific to ST3, and the other against recombinant ST3 pro-domain (62APATQEAPRPASSLRPPRCGVPDPSDGLSARNRQKR97) containing the decapeptide and PRCGVPD sequence obtained by expression in Escherichia coli. Two protein species, 59 kDa and 45 kDa which were consistent with those expected for pro-ST3 and the mature form of ST3, were specifically detected in 100-fold concentrated conditioned media of fetal lung fibroblast by Western blot analysis. Immunohistochemical staining indicated that in infiltrating ductal breast carcinoma and squamous cell carcinoma of the uterine cervix, reactivity of those antibodies was found not only in fibroblastic cells surrounding cancer cells but also in neoplastic cells. However, reactivity of two ST3 antibodies was inhibited by excess of the synthetic peptide (10-amino acid residue) not only in fibroblastic cells but also in neoplastic cells. These findings suggest that antibodies against the ST3 specific region may cross react with the recently known membrane type-metalloproteinase (MT-MMP), which have RXKR sequences between the pro- and catalytic domain.