Inhibitory Effect of Recombinant Fibronectin Polypeptides on the Adhesion of Liver-metastatic Lymphoma Cells to Hepatic Sinusoidal Endothelial Cells and Tumor Invasion

Abstract

We have investigated the inhibitory mechanism of the initial arrest of L5178Y‐ML25 lymphoma cells in a target organ (liver) by using recombinant fibronectin fragments with cell‐ and/or heparin‐binding domains (C‐274, H‐271 or the fusion fragment CH‐271). Pretreatment of hepatic sinusoidal endothelial (HSE) cell monolayers with lymphoma cells or their conditioned medium for 4 to 6 h resulted in the enhancement of lymphoma cell adhesion to HSE cell monolayer. The increased tumor adhesiveness was completely abolished by preincubation of the conditioned medium with anti interleukin‐1β monoclonal antibody (mAb). Synthetic sialyl Le^x (SLe^x) as a ligand for endothelial cell leukocyte adhesion molecule‐1 (ELAM‐1) adhesion receptor and anti ELAM‐1 mAb blocked the conditioned medium‐induced enhancement of tumor‐endothelial cell interaction, while pretreatment of the activated HSE cell monolayer with anti vascular cell adhesion molecule‐1 (VCAM‐1) mAb did not affect the enhanced tumor cell adhesion. These results indicate that tumor cell interaction with the stimulated HSE cells is mediated by ELAM‐1 molecules on HSE cells. However, the expression of SLe^x and SLe^a on the tumor surface was not observed by flow cytometric analysis. ELAM‐1‐mediated enhancement of tumor cell adhesion to HSE monolayer was also inhibited in a concentration‐dependent manner by CH‐271 fusion polypeptide or the sulfated chitin derivative sulfated carboxyntethyl‐chitin, which can bind to the heparin‐binding domain of CH‐271. In addition, CH‐271 inhibited not only tumor‐endothelium interaction hut also tumor cell invasion into reconstituted basement membrane Matrigel in vitro.