Overexpression of laminin ?1 chain in colonic cancer cells induces an increase in tumor growth

Arcangelis, Adèle De; Lefèbvre, Olivier; Méchine‐Neuville, Agnès; Arnold, Christiane; Klein, Albrecht; Rémy, Lionel; Kédinger, Michèle; Simon‐Assmann, Patricia

doi:10.1002/ijc.1444

Cited by 45 publications

(46 citation statements)

References 59 publications

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“…Laminin-10 has been observed at the leading edge of colon cancers (37,59) and is known to induce cell spreading (including the presence of pseudopod-like extensions) and increase motility of LIM1215 cells in the presence of epidermal growth factor (58,60). Although GrB pretreatment of laminin-10 matrix had no effect on the initial adhesion of LIM1215 cells (data not shown), cell spreading was significantly inhibited in the presence of GrB (Fig.…”

Section: Grb Efficiently Cleaves the Matrix Protein Vitronectin At Thmentioning

confidence: 84%

Extracellular Matrix Remodeling by Human Granzyme B via Cleavage of Vitronectin, Fibronectin, and Laminin

Buzza

Zamurs

Sun

et al. 2005

Journal of Biological Chemistry

235

262

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Human granzyme B (GrB) released from cytotoxic lymphocytes plays a key role in the induction of target cell apoptosis when internalized in the presence of perforin. Here we demonstrate that GrB also possesses a potent extracellular matrix remodeling activity. Both native and recombinant GrB caused detachment of immortalized and transformed cell lines, primary endothelial cells, and chondrocytes. Cell detachment by GrB induced endothelial cell death (anoikis). GrB also inhibited tumor cell spreading, migration, and invasion in vitro. Investigation into the underlying mechanism revealed that GrB efficiently cleaves three proteins involved in extracellular matrix structure and function: vitronectin, fibronectin, and laminin. In vitronectin, GrB cleaves after an Arg-Lys-Asp (RGD) motif, which is part of the integrin-binding site found in matrix proteins. We propose that targeting of the integrin-extracellular matrix interface by GrB may allow perforin-independent killing of target cells via anoikis, restrict motility of tumor cells, facilitate lymphocyte migration, or directly reduce virus infectivity. It may also contribute to tissue destruction in diseases in which extracellular GrB is evident, such as rheumatoid arthritis and atherosclerosis.

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Section: Grb Efficiently Cleaves the Matrix Protein Vitronectin At Thmentioning

confidence: 84%

Extracellular Matrix Remodeling by Human Granzyme B via Cleavage of Vitronectin, Fibronectin, and Laminin

Buzza

Zamurs

Sun

et al. 2005

Journal of Biological Chemistry

235

262

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“…Loss of a well-defined basement membrane is one of the features of neoplastic proliferation for epithelialderived tumors. Laminin (LN), a major glycoprotein of BM which has been shown to regulate a variety of biological phenomena including cell attachment, growth, morphology, and cell migration by specific high affinity receptors, and plays an important role in the interaction of tumor cells with the BM, the differentiation, invasion and metastasis of tumors [26].…”

Section: Introductionmentioning

confidence: 99%

Association Between Thrombospondin-1, Angiogenesis Related Markers, and Extracellular Matrix Components with Colorectal Cancer Outcome

Mitselou¹,

Arvanitis²,

Skoufi³

et al. 2013

TOCOLCJ

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Abstract:Background: Angiogenesis is a multistep process that depends on the balance of proangiogenic factors and inhibitors as well as on interactions with the extracellular matrix. Thrombospondin-1 (TSP-1) is an endogenous inhibitor of angiogenesis encoded by THBS1 gene, whose promoter is activated by p53. Aim:To evaluate the relevance of TSP-1 in patients with colorectal cancer. Material and Methods:We examined the immunohistochemical expression of angiogenic agents (VEGF and CD34), proliferation associated indices, extracellular matrix components (tenascin, fibronectin, laminin, and collagen type IV), and the antiangiogenic agent TPS-1 in 97 patients with colorectal carcinoma (CRC) and correlated their expression levels with clinicopathological parameters.Results: TSP-1 was detected in the tumor cells, stroma and perivascular tissue. High and moderate tumor TSP-1 expression was observed in 24.75%, weak in 19.6%, while 55.7% of the cases were negative. High stromal expression was observed in 40.2% and perivascular stain was noted in 31.95% of the cases. Stromal TSP-1 expression was correlated with tumor type and tumor grade (p=0.001, and p=0.041 respectively) and with ECM components expression: tenascin (p=0.053), fibronectin (p=0.063), collagen type IV (p=0.004) and laminin (p=0.0001). The relationship of TSP-1 expression with tumor angiogenesis, growth fraction, p53 protein expression, and overall survival was not significant. Conclusions:Our data suggest that both tumor and stromal TSP-1 expression may not be a direct antiangiogenic factor, although it seems to be implicated in the remodeling of colorectal cancer tissue through interaction with other extracellular matrix components.

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“…Laminins constitute the major noncollagenous protein component within the basement membrane and are crucial for its formation (1,2). Through their interactions with specific receptors, especially members of the ␤ 1 integrin family and ␣-dystroglycan, they induce many cellular effects, including differentiation and cellular and axonal migration.…”

mentioning

confidence: 99%

“…These parts of the ␤ and ␥ chains each contain two globular domains, designated IV and VI, whereas there are three, IVa, IVb, and VI, in the short arm contributed by the ␣ chain. The globules are interspersed by multiple laminin epidermal growth factor-like (LE) 1 domains forming rods. The VI domains are also designated laminin N-terminal (LN) domains, and this nomenclature will be used throughout.…”

mentioning

confidence: 99%

Molecular Analysis of Laminin N-terminal Domains Mediating Self-interactions

Odenthal

Haehn

Tunggal

et al. 2004

Journal of Biological Chemistry

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The ability of laminins to self-polymerize is crucial for the formation of basement membranes. Development of this polymerized network has profound effects upon tissue architecture as well as on the intracellular organization and differentiation of neighboring cells. The laminin N-terminal (LN) domains have been shown to mediate this interaction and studies using proteolytic fragments derived from laminin-1 led to the theory that network assembly depends on the formation of a heterotrimeric complex between LN domains derived from ␣, ␤, and ␥ chains in different laminin molecules with homologous interactions being insignificant. The laminin family consists of 15 known isoforms formed from five ␣, three ␤, and three ␥ chains, of which some are truncated and lack the N-terminal LN domain. To address whether the model of heterotrimeric complex formation is applicable to laminin isoforms other than laminin-1, eight LN domains found in the laminin protein family were recombinantly expressed and tested in three different assays for homologous and heterologous interactions. The results showed that the lack of homologous interactions is an exception, with such interactions being seen for LN domains derived from all ␣ chains and from the ␤ 2 and ␤ 3 subunits. The ␥ chain-derived LN domains showed a far more limited binding repertoire, particularly in the case of the ␥ 3 chain, which is found present in a range of non-basement membrane locations. Further, whereas the interactions depended upon Ca 2؉ ions, with EDTA reversibly abrogating binding, EDTA-induced conformational changes were not reversible. Together these results demonstrate that the assembly model proposed on the basis of laminin-1 may be a simplification, with the assembly of naturally occurring laminin networks being far more complex and highly dependent upon which laminin isoforms are present.Basement membranes are specialized extracellular matrices found underlying all epithelia and endothelia as well as surrounding many types of mesenchymal cells. Laminins constitute the major noncollagenous protein component within the basement membrane and are crucial for its formation (1, 2). Through their interactions with specific receptors, especially members of the ␤ 1 integrin family and ␣-dystroglycan, they induce many cellular effects, including differentiation and cellular and axonal migration. The prototype, laminin-1, isolated from embryonic carcinoma cells (3) or the Engelbreth-HolmSwarm tumor (4) has been shown to belong to a family consisting of 15 members (for nomenclature, see Refs. 5-7). Laminins are multidomain heterotrimers formed by the combination of one ␣, one ␤, and one ␥ chain. Laminin-1 is an 800-kDa glycoprotein composed of a 400-kDa ␣ 1 chain and ␤ 1 and ␥ 1 chains, each of 200 kDa. It has a cross structure with one long and three short arms, the latter being formed from the three free N-terminal ends of the ␣, ␤, and ␥ chains (8). These parts of the ␤ and ␥ chains each contain two globular domains, designated IV and VI, whereas there are three...

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Overexpression of laminin ?1 chain in colonic cancer cells induces an increase in tumor growth

Cited by 45 publications

References 59 publications

Extracellular Matrix Remodeling by Human Granzyme B via Cleavage of Vitronectin, Fibronectin, and Laminin

Extracellular Matrix Remodeling by Human Granzyme B via Cleavage of Vitronectin, Fibronectin, and Laminin

Association Between Thrombospondin-1, Angiogenesis Related Markers, and Extracellular Matrix Components with Colorectal Cancer Outcome

Molecular Analysis of Laminin N-terminal Domains Mediating Self-interactions

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