The interacting binding domains of the beta(4) integrin and calcium-activated chloride channels (CLCAs) in metastasis.

Mossaad Abdel-Ghany, Hung Chi Cheng, Randolph C. Elble, Haiqun Lin, John DiBiasio, Bendicht U. Pauli

Research output: Contribution to journalArticlepeer-review

55 Citations (Scopus)


CLCA (chloride channel, calcium-activated) proteins are novel pulmonary vascular addresses for blood-borne, lung-metastatic cancer cells. They facilitate vascular arrest of cancer cells via adhesion to beta4 integrin and promote early, intravascular, metastatic growth. Here we identify the interacting binding domains of endothelial CLCA proteins (e.g. hCLCA2, mCLCA5, mCLCA1, and bCLCA2) and beta4 integrin. Endothelial CLCAs share a common beta4-binding motif (beta4BM) in their 90- and 35-kDa subunits of the sequence F(S/N)R(I/L/V)(S/T)S, which is located in the second extracellular domain of the 90-kDa CLCA and near the N terminus of the 35-kDa CLCA, respectively. Using enzyme-linked immunosorbent, pull-down, and adhesion assays, we showed that glutathione S-transferase fusion proteins of beta4BMs from the 90- and 35-kDa CLCA subunits bind to the beta4 integrin in a metal ion-dependent manner. Fusion proteins from fibronectin and the integrins beta1 and beta3 served as negative controls. beta4BM fusion proteins competitively blocked the beta4/CLCA adhesion and prevented lung colonization of MDA-MB-231 breast cancer cells. A disrupted beta4BM in hCLCA1, which is not expressed in endothelia, failed to interact with beta4 integrin. The corresponding CLCA-binding domain of the beta4 integrin is localized to the specific determining loop (SDL). Again enzyme-linked immunosorbent, pull-down, and adhesion assays were used to confirm the interaction with CLCA proteins using a glutathione S-transferase fusion protein representing the C-terminal two-thirds of beta4 SDL (amino acids 184-203). A chimeric beta4 integrin in which the indicated SDL sequence had been replaced with the corresponding sequence from the beta1 integrin failed to bind hCLCA2. The dominance of the CLCA ligand in beta4 activation and outside-in signaling is discussed in reference to our previous report that beta4/CLCA ligation elicits selective signaling via focal adhesion kinase to promote metastatic growth.

Original languageEnglish
Pages (from-to)49406-49416
Number of pages11
JournalThe Journal of biological chemistry
Issue number49
Publication statusPublished - 2003 Dec 5

All Science Journal Classification (ASJC) codes

  • Biochemistry
  • Molecular Biology
  • Cell Biology


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