Peptide G, Containing the Binding Site of the 67-kDa Laminin Receptor, Increases and Stabilizes Laminin Binding to Cancer Cells

Alessandra Magnifico,Elda Tagliabue,Simona Butó,Elena Ardini,Vincent Castronovo,Maria I Colnaghi,Sylvie Ménard

doi:10.1074/jbc.271.49.31179

Alessandra Magnifico, Elda Tagliabue + Show 5 more

Open Access

https://doi.org/10.1074/jbc.271.49.31179

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Abstract

We investigated the effect of peptide G, a synthetic peptide derived from the sequence of the 37-kDa laminin receptor precursor, on the interaction of laminin in two tumor cell lines one of which produces laminin and one of which does not. Addition of peptide G to the culture medium induced a significant increase in the amount of endogenous laminin detectable on the cell membrane of both cell lines. Moreover, pretreatment of exogenous laminin with peptide G dramatically increased laminin binding on both cell lines. Kinetics analysis of membrane-bound labeled laminin revealed a 3-fold decrease in the kd of peptide G-treated laminin compared with untreated or unrelated or scrambled peptide-treated laminin. Moreover, the affinity constant of peptide G-treated laminin increased 2-fold, with a doubling of the number of laminin binding sites, as determined by Scatchard analysis. Expression of the VLA6 integrin receptor on the cell membrane increased after incubation with peptide G-treated laminin. However, the lower binding inhibition of peptide G-treated laminin after anti-VLA6 antibody or cation chelation treatment indicates that membrane molecules in addition to integrin receptors are involved in the recognition of peptide G-modified laminin. These "new" laminin-binding proteins also mediated cell adhesion to laminin, the first step in tumor invasion. Together, the data suggest that peptide G increases and stabilizes laminin binding on tumor cells, involving surface receptors that normally do not take part in this interaction. This might explain the abundant clinical and experimental data suggesting a key role for the 67-kDa laminin receptor in the interaction between cancer cells and the basement membrane glycoprotein laminin during tumor invasion and metastasis.

Highlights

The complex process of tumor invasion and metastasis is a cascade of sequential steps in which interactions between cancer cells and laminin, the major glycoprotein of the basal membrane, play a critical role [1,2,3]
We investigated the effect of peptide G, a synthetic peptide derived from the sequence of the 37-kDa laminin receptor precursor, on the interaction of laminin in two tumor cell lines one of which produces laminin and one of which does not
Peptide G, corresponding to the 67-kDa laminin receptor (67LR) laminin binding domain, increased and stabilized laminin binding on tumor cells

Summary

Introduction

The complex process of tumor invasion and metastasis is a cascade of sequential steps in which interactions between cancer cells and laminin, the major glycoprotein of the basal membrane, play a critical role [1,2,3]. These interactions are mediated by different cell surface molecules, including heterodimeric integrins (4 – 8) and various monomeric receptors, such. After exposure of the cells to laminin, a number of these cytoplasmic molecules translocated from the cytoplasm to the plasma membrane [30] In light of these data, we investigated the role of the 67LR in the interaction of laminin with the tumor cell surface using peptide G. We found that peptide G stabilized laminin binding to tumor cells by increasing the number of laminin binding receptors and by decreasing the kd of laminin from the cell surface

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