Regulation Of Collagenase Activity By Extracellular Matrix In Lung Remodelling

To investigate mechanisms of tissue fibrosis, we developed a model of ovine fetal bladder fibrosis due to surgically induced obstruction. Tissues were analyzed for matrix metalloproteinases (MMPs) and their inhibitors, the tissue inhibitors of metalloproteinases (TIMPs). Active MMP-2 was not detected in obstructed bladders, while latent and active forms were detected in normal bladders. MMP-1 (interstitial collagenase) activity was lower in obstructed bladders. MMP inhibitory activity was increased with obstruction, as were levels of TIMP mRNA and protein. These results indicate that the proteins responsible for collagen degradation are present in the developing bladder, and a shift in the proteolytic balance favoring inhibition of degradation occurs in a model of obstruction-induced fibrosis. This altered proteolytic balance favors accumulation of extracellular matrix and decreased tissue compliance characteristic of this and perhaps other fibrotic conditions.

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An improved assay of mammalian collagenase activity, and its use to determine hepatic extracellular matrix susceptibility to degradation.

Clinical Chemistry ◽

10.1093/clinchem/28.10.2134 ◽

1982 ◽

Vol 28 (10) ◽

pp. 2134-2138 ◽

Cited By ~ 9

Author(s):

W J Lindblad ◽

G C Fuller

Keyword(s):

Extracellular Matrix ◽

Enzyme Activity ◽

Normal Liver ◽

Collagenase Activity ◽

Lower Detection Limit ◽

Enzyme Substrate ◽

Lower Detection ◽

Normal Rat ◽

Competitive Substrate ◽

Sensitive Method

Abstract This rapid, sensitive method of determining collagenase (EC 3.4.24.7) activity incorporates several advantages of previous methods. Soluble [14C]acetylated collagen is prepared as the enzyme substrate and collagen-cleavage products are separated from noncleaved collagen by precipitation with dioxane/methanol. The assay is more reproducible than previous methods and has a lower detection limit, 15 mU of enzyme activity. We used the method in a competitive substrate assay with isolated extracellular hepatic matrix from cirrhotic and normal rat liver. Purified collagenase was consistently bound to normal rat matrix to a greater extent than to cirrhotic matrix, suggesting that in hepatic fibrosis the extracellular matrix is not as susceptible to collagenase degradation as that in normal liver.

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Tonsil-derived mesenchymal stem cells enhance allogeneic bone marrow engraftment via collagen IV degradation

Stem Cell Research & Therapy ◽

10.1186/s13287-021-02414-6 ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Hyun-Ji Lee ◽

Yu-Hee Kim ◽

Da-Won Choi ◽

Kyung-Ah Cho ◽

Joo-Won Park ◽

...

Keyword(s):

Stem Cells ◽

Bone Marrow ◽

Extracellular Matrix ◽

Mesenchymal Stem Cells ◽

Mrna Expression ◽

Collagen Iv ◽

Allogeneic Bone ◽

Collagenase Activity ◽

Western Blots ◽

Promising Source

Abstract Background Co-transplantation of bone marrow cells (BMCs) and mesenchymal stem cells (MSCs) is used as a strategy to improve the outcomes of bone marrow transplantation. Tonsil-derived MSCs (TMSCs) are a promising source of MSCs for co-transplantation. Previous studies have shown that TMSCs or conditioned media from TMSCs (TMSC-CM) enhance BMC engraftment. However, the factors in TMSCs that promote better engraftment have not yet been identified. Methods Mice were subjected to a myeloablative regimen of busulfan and cyclophosphamide, and the mRNA expression in the bone marrow was analyzed using an extracellular matrix (ECM) and adhesion molecule-targeted polymerase chain reaction (PCR) array. Nano-liquid chromatography with tandem mass spectrometry, real-time quantitative PCR, western blots, and enzyme-linked immunosorbent assays were used to compare the expression levels of metalloproteinase 3 (MMP3) in MSCs derived from various tissues, including the tonsils, bone marrow, adipose tissue, and umbilical cord. Recipient mice were conditioned with busulfan and cyclophosphamide, and BMCs, either as a sole population or with control or MMP3-knockdown TMSCs, were co-transplanted into these mice. The effects of TMSC-expressed MMP3 were investigated. Additionally, Enzchek collagenase and Transwell migration assays were used to confirm that the collagenase activity of TMSC-expressed MMP3 enhanced BMC migration. Results Mice subjected to the myeloablative regimen exhibited increased mRNA expression of collagen type IV alpha 1/2 (Col4a1 and Col4a2). Among the various extracellular matrix-modulating proteins secreted by TMSCs, MMP3 was expressed at higher levels in TMSCs than in other MSCs. Mice co-transplanted with BMCs and control TMSCs exhibited a higher survival rate, weight recovery, and bone marrow cellularity compared with mice co-transplanted with BMCs and MMP3-knockdown TMSCs. Control TMSC-CM possessed higher collagenase activity against collagen IV than MMP3-knockdown TMSC-CM. TMSC-CM also accelerated BMC migration by degrading collagen IV in vitro. Conclusions Collectively, these results indicate that TMSCs enhance BMC engraftment by the secretion of MMP3 for the modulation of the bone marrow extracellular matrix.

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Cardiac myocytes cultured on a basement membrane extract of the ehs tumor

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100142979 ◽

1986 ◽

Vol 44 ◽

pp. 270-271

Author(s):

L. Terracio ◽

A. Dewey ◽

K. Rubin ◽

T.K. Borg

Keyword(s):

Extracellular Matrix ◽

Basement Membrane ◽

Cardiac Myocytes ◽

Normal Tissue ◽

Cell Spreading ◽

Collagen Iv ◽

Basement Membrane Extract ◽

Membrane Extract ◽

Growth Development ◽

Multicellular Organisms

The recognition and interaction of cells with the extracellular matrix (ECM) effects the normal physiology as well as the pathology of all multicellular organisms. These interactions have been shown to influence the growth, development, and maintenance of normal tissue function. In previous studies, we have shown that neonatal cardiac myocytes specifically interacts with a variety of ECM components including fibronectin, laminin, and collagens I, III and IV. Culturing neonatal myocytes on laminin and collagen IV induces an increased rate of both cell spreading and sarcomerogenesis.

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Neutrophil migration through in vitro interstitial matrix

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100124872 ◽

1992 ◽

Vol 50 (1) ◽

pp. 894-895

Author(s):

J. Roemer ◽

S.R. Simon

Keyword(s):

Extracellular Matrix ◽

Smooth Muscle ◽

Cell Migration ◽

Smooth Muscle Cells ◽

Inflammatory Cell ◽

Neutrophil Migration ◽

Culture Conditions ◽

Aortic Smooth Muscle ◽

Specific Culture

We are developing an in vitro interstitial extracellular matrix (ECM) system for study of inflammatory cell migration. Falcon brand Cyclopore membrane inserts of various pore sizes are used as a support substrate for production of ECM by R22 rat aortic smooth muscle cells. Under specific culture conditions these cells produce a highly insoluble matrix consisting of typical interstitial ECM components, i.e.: types I and III collagen, elastin, proteoglycans and fibronectin.

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The extracellular matrix of echinoderm and amphibian eggs: Visualization in quick-frozen, deep-etched, and rotary-shadowed specimens

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s042482010015784x ◽

1990 ◽

Vol 48 (3) ◽

pp. 60-61

Author(s):

Barry Bonnell ◽

Carolyn Larabell ◽

Douglas Chandler

Keyword(s):

Extracellular Matrix ◽

Plasma Membrane ◽

Sea Urchin ◽

Crystalline Structure ◽

Cortical Granule ◽

Two Dimensional ◽

Small Peptides ◽

Deep Etching ◽

Quick Freezing ◽

Acrosomal Reaction

Eggs of many species including those of echinoderms, amphibians and mammals exhibit an extensive extracellular matrix (ECM) that is important both in the reception of sperm and in providing a block to polyspermy after fertilization.In sea urchin eggs there are two distinctive coats, the vitelline layer which contains glycoprotein sperm receptors and the jelly layer that contains fucose sulfate glycoconjugates which trigger the acrosomal reaction and small peptides which act as chemoattractants for sperm. The vitelline layer (VL), as visualized by quick-freezing, deep-etching, and rotary-shadowing (QFDE-RS), is a fishnet-like structure, anchored to the plasma membrane by short posts. Orbiting above the VL are horizontal filaments which are thought to anchor the thicker jelly layer to the egg. Upon fertilization, the VL elevates and is transformed by cortical granule secretions into the fertilization envelope (FE). The rounded casts of microvilli in the VL are transformed into angular peaks and the envelope becomes coated inside and out with sheets of paracrystalline protein having a quasi-two dimensional crystalline structure.

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Extracellular matrix: the gatekeeper of tumor angiogenesis

Biochemical Society Transactions ◽

10.1042/bst20190653 ◽

2019 ◽

Vol 47 (5) ◽

pp. 1543-1555 ◽

Cited By ~ 10

Author(s):

Maurizio Mongiat ◽

Simone Buraschi ◽

Eva Andreuzzi ◽

Thomas Neill ◽

Renato V. Iozzo

Keyword(s):

Extracellular Matrix ◽

Tumor Angiogenesis ◽

Signaling Cascades ◽

Cancer Growth ◽

Cell Behavior ◽

Metastatic Progression ◽

Surface Receptors ◽

The Matrix ◽

Multiple Signaling

Abstract The extracellular matrix is a network of secreted macromolecules that provides a harmonious meshwork for the growth and homeostatic development of organisms. It conveys multiple signaling cascades affecting specific surface receptors that impact cell behavior. During cancer growth, this bioactive meshwork is remodeled and enriched in newly formed blood vessels, which provide nutrients and oxygen to the growing tumor cells. Remodeling of the tumor microenvironment leads to the formation of bioactive fragments that may have a distinct function from their parent molecules, and the balance among these factors directly influence cell viability and metastatic progression. Indeed, the matrix acts as a gatekeeper by regulating the access of cancer cells to nutrients. Here, we will critically evaluate the role of selected matrix constituents in regulating tumor angiogenesis and provide up-to-date information concerning their primary mechanisms of action.

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