Calmodulin inhibitors trigger the proteolytic processing of membrane type-1 matrix metalloproteinase, but not its shedding in glioblastoma cells

Most transmembrane proteins are subjected to limited proteolysis by cellular proteases, and stimulation of cleavage of membrane proteins by calmodulin (CaM) inhibitors was recently shown. The present study investigated the ability of several CaM inhibitors to induce the proteolytic cleavage of the membrane type-1 matrix metalloproteinase (MT1-MMP) from the cell surface of highly invasive U-87 glioblastoma cells. Although no shedding of a soluble MT1-MMP form was induced by CaM inhibitors in the conditioned media, we showed that these inhibitors induced MT1-MMP proteolytic processing to the 43kDa membrane-bound inactive form that was not correlated with an increase in proMMP-2 activation but rather with an increase in tissue inhibitor of MMPs (TIMP)-2 expression levels. Moreover, this proteolytic processing was sensitive to marimastat suggesting the involvement of MMPs. Interestingly, CaM inhibitors antagonized concanavalin A- and cytochalasin D-induced proMMP-2 activation, and affected the cytoskeletal actin organization resulting in the loss of migratory potential of U-87 glioblastoma cells. Cytoplasmic tail-truncated MT1-MMP constructs expressed in COS-7 cells were also affected by CaM inhibitors suggesting that these inhibitors stimulated MT1-MMP proteolytic processing by mechanisms independent of the CaM–substrate interaction. We also propose that TIMP-2 acts as a negative regulator of MT1-MMP-dependent activities promoted by the action of CaM inhibitors in U-87 glioblastoma cells.

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Calmodulin inhibitors trigger the proteolytic processing of membrane type-1 matrix metalloproteinase, but not its shedding in glioblastoma cells

Biochemical Journal ◽

10.1042/0264-6021:3590325 ◽

2001 ◽

Vol 359 (2) ◽

pp. 325 ◽

Cited By ~ 8

Author(s):

Borhane ANNABI ◽

Anthony PILORGET ◽

Nathalie BOUSQUET-GAGNON ◽

Denis GINGRAS ◽

Richard BÉLIVEAU

Keyword(s):

Matrix Metalloproteinase ◽

Proteolytic Processing ◽

Glioblastoma Cells ◽

Calmodulin Inhibitors ◽

Membrane Type

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Proteolytic processing of membrane-type-1 matrix metalloproteinase is associated with gelatinase A activation at the cell surface

Biochemical Journal ◽

10.1042/bj3340345 ◽

1998 ◽

Vol 334 (2) ◽

pp. 345-353 ◽

Cited By ~ 156

Author(s):

Kaisa LEHTI ◽

Jouko LOHI ◽

Heli VALTANEN ◽

Jorma KESKI-OJA

Keyword(s):

Cell Surface ◽

Matrix Metalloproteinase ◽

Human Fibroblasts ◽

Proteolytic Processing ◽

Gelatinase A ◽

Surface Binding ◽

Fibrosarcoma Cells ◽

Subsequent Activation ◽

Membrane Type

Human fibroblasts and HT-1080 fibrosarcoma cells express membrane-type-1 matrix metalloproteinase (MT1-MMP), the cell surface activator of gelatinase A, in separate forms of 63 kDa, 60 kDa and in some cases 43 kDa. In the present work the interrelationships between MT1-MMP processing and gelatinase A activation were analysed using HT-1080 fibrosarcoma cells as a model. It was found that MT1-MMP was synthesized as a 63 kDa protein, which was constitutively processed to a 60 kDa active enzyme with N-terminal Tyr112, as shown by immunoprecipitation, immunoblotting and sequence analyses. Co-immunoprecipitation results indicated that only the active 60 kDa form of MT1-MMP bound gelatinase A at the cell surface. Both the activation of pro-MT1-MMP and the membrane binding of the tissue inhibitor of metalloproteinases type 2 (TIMP-2) and gelatinase A, and subsequent activation of gelatinase A, were inhibited by calcium ionophores. Although the active MT1-MMP was required for cell surface binding and activation of gelatinase A, it was inefficient in activating gelatinase A in fibroblasts or in control HT-1080 cells alone. Low expression levels of TIMP-2 and rapid synthesis of MT1-MMP were found to be critical for gelatinase A activation. In HT-1080 cells, MT1-MMP was further processed to an inactive, 43 kDa cell surface form when overexpressed, or when the cells were treated with PMA. Under these conditions, the activated gelatinase A was detected in the culture medium, in cell membrane extracts and in MT1-MMP-containing complexes. These results indicate that proteolytic processing (activation and degradation/inactivation) of MT1-MMP and MT1-MMP/TIMP-2 relationships at the cell surface are important regulatory levels in the control of gelatinolytic activity.

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Concanavalin-A-induced autophagy biomarkers requires membrane type-1 matrix metalloproteinase intracellular signaling in glioblastoma cells

Glycobiology ◽

10.1093/glycob/cws093 ◽

2012 ◽

Vol 22 (9) ◽

pp. 1245-1255 ◽

Cited By ~ 43

Author(s):

J. Pratt ◽

R. Roy ◽

B. Annabi

Keyword(s):

Matrix Metalloproteinase ◽

Concanavalin A ◽

Intracellular Signaling ◽

Glioblastoma Cells ◽

Membrane Type

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Faculty Opinions recommendation of Membrane type-1 matrix metalloproteinase confers aneuploidy and tumorigenicity on mammary epithelial cells.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.1053708.505629 ◽

2006 ◽

Author(s):

Mina J Bissell

Keyword(s):

Epithelial Cells ◽

Matrix Metalloproteinase ◽

Mammary Epithelial Cells ◽

Mammary Epithelial ◽

Membrane Type

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Extracellular Matrix Regulations of Membrane Type 1-Matrix Metalloproteinasis (MT1-MMP) and Matrix Metalloproteinase-2 (MMP-2) in Human Breast Fibroblasts

10.21236/ada395355 ◽

2000 ◽

Author(s):

Sonia Hernandez-Barrantes ◽

Rafael Fridman

Keyword(s):

Extracellular Matrix ◽

Matrix Metalloproteinase ◽

Matrix Metalloproteinase 2 ◽

Human Breast ◽

Membrane Type ◽

Breast Fibroblasts

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Immunohistochemical detection of membrane-type-1-matrix metalloproteinase in colorectal carcinoma

British Journal of Cancer ◽

10.1054/bjoc.2000.1195 ◽

2000 ◽

Vol 83 (2) ◽

pp. 215-218 ◽

Cited By ~ 35

Author(s):

R Kikuchi ◽

T Noguchi ◽

S Takeno ◽

N Kubo ◽

Y Uchida

Keyword(s):

Colorectal Carcinoma ◽

Matrix Metalloproteinase ◽

Immunohistochemical Detection ◽

Membrane Type

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Extracellular matrix metalloproteinase inducer (CD147) and membrane type 1-matrix metalloproteinase are expressed on tissue macrophages in calcific aortic stenosis and induce transmigration in an artificial valve model

Journal of Thoracic and Cardiovascular Surgery ◽

10.1016/j.jtcvs.2010.09.051 ◽

2011 ◽

Vol 142 (1) ◽

pp. 191-198 ◽

Cited By ~ 8

Author(s):

Nader Joghetaei ◽

Payam Akhyari ◽

Bernhard H. Rauch ◽

Paul Cullen ◽

Artur Lichtenberg ◽

...

Keyword(s):

Extracellular Matrix ◽

Aortic Stenosis ◽

Matrix Metalloproteinase ◽

Calcific Aortic Stenosis ◽

Artificial Valve ◽

Extracellular Matrix Metalloproteinase Inducer ◽

Membrane Type ◽

Valve Model

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Mutational and Structural Analyses of the Hinge Region of Membrane Type 1-Matrix Metalloproteinase and Enzyme Processing

Journal of Biological Chemistry ◽

10.1074/jbc.m414379200 ◽

2005 ◽

Vol 280 (28) ◽

pp. 26160-26168 ◽

Cited By ~ 12

Author(s):

Pamela Osenkowski ◽

Samy O. Meroueh ◽

Dumitru Pavel ◽

Shahriar Mobashery ◽

Rafael Fridman

Keyword(s):

Matrix Metalloproteinase ◽

Hinge Region ◽

Membrane Type

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4-Methylumbelliferone induces the expression of membrane type 1-matrix metalloproteinase in cultured human skin fibroblasts

Biochemical and Biophysical Research Communications ◽

10.1016/s0006-291x(02)02516-0 ◽

2002 ◽

Vol 298 (5) ◽

pp. 646-650 ◽

Cited By ~ 8

Author(s):

Toshiya Nakamura ◽

Takashi Ishikawa ◽

Naoki Nanashima ◽

Tomisato Miura ◽

Hiroyuki Nozaka ◽

...

Keyword(s):

Matrix Metalloproteinase ◽

Human Skin ◽

Skin Fibroblasts ◽

Human Skin Fibroblasts ◽

Membrane Type

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Piezo1 mediates angiogenesis through activation of MT1-MMP signaling

AJP Cell Physiology ◽

10.1152/ajpcell.00346.2018 ◽

2019 ◽

Vol 316 (1) ◽

pp. C92-C103 ◽

Cited By ~ 19

Author(s):

Hojin Kang ◽

Zhigang Hong ◽

Ming Zhong ◽

Jennifer Klomp ◽

Kayla J. Bayless ◽

...

Keyword(s):

Shear Stress ◽

Wall Shear Stress ◽

Matrix Metalloproteinase ◽

Matrix Metalloproteinase 2 ◽

Sprouting Angiogenesis ◽

Sphingosine 1 Phosphate ◽

Wall Shear ◽

Membrane Type

Angiogenesis is initiated in response to a variety of external cues, including mechanical and biochemical stimuli; however, the underlying signaling mechanisms remain unclear. Here, we investigated the proangiogenic role of the endothelial mechanosensor Piezo1. Genetic deletion and pharmacological inhibition of Piezo1 reduced endothelial sprouting and lumen formation induced by wall shear stress and proangiogenic mediator sphingosine 1-phosphate, whereas Piezo1 activation by selective Piezo1 activator Yoda1 enhanced sprouting angiogenesis. Similarly to wall shear stress, sphingosine 1-phosphate functioned by activating the Ca2+ gating function of Piezo1, which in turn signaled the activation of the matrix metalloproteinase-2 and membrane type 1 matrix metalloproteinase during sprouting angiogenesis. Studies in mice in which Piezo1 was conditionally deleted in endothelial cells demonstrated the requisite role of sphingosine 1-phosphate-dependent activation of Piezo1 in mediating angiogenesis in vivo. These results taken together suggest that both mechanical and biochemical stimuli trigger Piezo1-mediated Ca2+ influx and thereby activate matrix metalloproteinase-2 and membrane type 1 matrix metalloproteinase and synergistically facilitate sprouting angiogenesis.

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