c-Met-induced epithelial carcinogenesis is initiated by the serine protease matriptase

Szabo, Roman; Rasmussen, Amber L; Moyer, Amanda; Kósa, Péter; Schafer, Johanna M.; Molinolo, Alfredo A.; Gutkind, J. Silvio; Bugge, Thomas H.

doi:10.1038/onc.2010.586

Cited by 98 publications

(95 citation statements)

References 50 publications

(81 reference statements)

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“…The role that matriptase, which is expressed on the surface of cancerous epithelial cells, plays in cancer is unclear; however, matriptase has been shown to cleave a number of cancerpromoting substrates from growth factors to basement membrane proteins (8,9). In addition to adenocarcinomas, studies have implicated matriptase in the initiation of oncogenic activity in squamous cell carcinoma models (10). Matriptase is expressed in a range of normal human tissue types with high transcript levels found in the colon, rectum, and pancreas (11).…”

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confidence: 99%

“…Matriptase is expressed in a range of normal human tissue types with high transcript levels found in the colon, rectum, and pancreas (11). In healthy tissue, matriptase is responsible for regulating barrier formation in the skin, intestines, and during embryonic development (10,12,13). The proteolytic activity of matriptase is closely regulated by its cognate macromolecular inhibitor hepatocyte growth factor activator inhibitor-1 (HAI-1) (8).…”

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confidence: 99%

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Imaging a functional tumorigenic biomarker in the transformed epithelium

LeBeau

Lee

Murphy

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

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Proteases responsible for the increased peritumoral proteolysis associated with cancer represent functional biomarkers for monitoring tumorigenesis. One attractive extracellular biomarker is the transmembrane serine protease matriptase. Found on the surface of epithelial cells, the activity of matriptase is regulated by its cognate inhibitor hepatocyte growth factor activator inhibitor-1 (HAI-1). Quantitative mass spectrometry allowed us to show that, in selected cancers, HAI-1 expression decreases, leading to active matriptase. A preclinical probe specific for the measurement of emergent active matriptase was developed. Using an active-site-specific, recombinant human antibody for matriptase, we found that the selective targeting of active matriptase can be used to visualize the tumorigenic epithelium. Live-cell fluorescence imaging validated the selectivity of the antibody in vitro by showing that the probe localized only to cancer cell lines with active matriptase on the surface. Immunofluorescence with the antibody documented significant levels of active matriptase in 68% of primary and metastatic colon cancer sections from tissue microarrays. Labeling of the active form of matriptase in vivo was measured in human colon cancer xenografts and in a patient-derived xenograft model using near-infrared and single-photon emission computed tomography imaging. Tumor uptake of the radiolabeled antibody, 111 In-A11, by active matriptase was high in xenografts (28% injected dose per gram) and was blocked in vivo by the addition of a matriptase-specific variant of ecotin. These findings suggest, through a HAI-1-dependent mechanism, that emergent active matriptase is a functional biomarker of the transformed epithelium and that its proteolytic activity can be exploited to noninvasively evaluate tumorigenesis in vivo.cancer biomarker | molecular imaging

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confidence: 99%

mentioning

confidence: 99%

Imaging a functional tumorigenic biomarker in the transformed epithelium

LeBeau

Lee

Murphy

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

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“…Three major macromolecular substrates of matriptase have been identified: hepatocyte growth factor, protease-activated receptor 2 (PAR-2), and urokinase-type plasminogen activator (6). Through the cleavage of these substrates, matriptase triggers specific responses, including cell proliferation, migration, inflammatory cytokine production, inflammatory cell recruitment, hyperplasia, and fibrosis (8,9). These responses are crucial in fibrotic diseases (10,11), but the role of matriptase in fibrotic disorders has thus far never been explored.…”

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confidence: 99%

Membrane-anchored Serine Protease Matriptase Is a Trigger of Pulmonary Fibrogenesis

Bardou

Menou

François

et al. 2016

Am J Respir Crit Care Med

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Rationale: Idiopathic pulmonary fibrosis (IPF) is a devastating disease that remains refractory to current therapies.Objectives: To characterize the expression and activity of the membrane-anchored serine protease matriptase in IPF in humans and unravel its potential role in human and experimental pulmonary fibrogenesis.Methods: Matriptase expression was assessed in tissue specimens from patients with IPF versus control subjects using quantitative reverse transcriptase-polymerase chain reaction, immunohistochemistry, and Western blotting, while matriptase activity was monitored by fluorogenic substrate cleavage. Matriptaseinduced fibroproliferative responses and the receptor involved were characterized in human primary pulmonary fibroblasts by Western blot, viability, and migration assays. In the murine model of bleomycin-induced pulmonary fibrosis, the consequences of matriptase depletion, either by using the pharmacological inhibitor camostat mesilate (CM), or by genetic down-regulation using matriptase hypomorphic mice, were characterized by quantification of secreted collagen and immunostainings.Measurements and Main Results: Matriptase expression and activity were up-regulated in IPF and bleomycin-induced pulmonary fibrosis. In cultured human pulmonary fibroblasts, matriptase expression was significantly induced by transforming growth factor-b. Furthermore, matriptase elicited signaling via protease-activated receptor-2 (PAR-2), and promoted fibroblast activation, proliferation, and migration. In the experimental bleomycin model, matriptase depletion, by the pharmacological inhibitor CM or by genetic downregulation, diminished lung injury, collagen production, and transforming growth factor-b expression and signaling.Conclusions: These results implicate increased matriptase expression and activity in the pathogenesis of pulmonary fibrosis in human IPF and in an experimental mouse model. Overall, targeting matriptase, or treatment by CM, which is already in clinical use for other diseases, may represent potential therapies for IPF.

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“…Calreticulin associates with the "eat me" signal phosphatidyl serine on the cell surface of apoptotic, but not viable, cells to promote internalization. 9 Although the mechanism by which calreticulin redistributes from ER to the plasma membrane is not known, it is plausible that KDEL-deficient calreticulin, as identified by Theocharides et al, would fail to reach the cell surface, thereby depriving the apoptotic neutrophil one of the determinants that drive its removal by macrophages, and leaving the uningested cell to undergo necrosis and promote inflammation. Such a scenario occurs in the setting of cyclin-dependent kinase deficiency, whereby apoptotic smooth muscle cells lack surface calreticulin and resist efferocytosis by local macrophages.…”

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confidence: 99%

“…Tumorexpressed matriptase activation by coagulation proteases could contribute to facilitating the activation of pro-HGF, pro-uPA, and potentially other matriptase substrates alongside PAR2 and fibrin downstream of TF to promote tumor growth and dissemination. 9,10 Future investigations of PAR2 activation by the TF-dependent FVII/Xa/matriptase pathway are warranted in order to extend these findings to human pathology.…”

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confidence: 99%

Coagulation signaling to epithelia

Antalis¹

2016

Blood

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c-Met-induced epithelial carcinogenesis is initiated by the serine protease matriptase

Cited by 98 publications

References 50 publications

Imaging a functional tumorigenic biomarker in the transformed epithelium

Imaging a functional tumorigenic biomarker in the transformed epithelium

Membrane-anchored Serine Protease Matriptase Is a Trigger of Pulmonary Fibrogenesis

Coagulation signaling to epithelia

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