> top > docs > PubMed:9499378 > spans > 928-932

PubMed:9499378 / 928-932 JSONTXT

Multivalent sialyl Lewis x ligands of definite structures as inhibitors of E-selectin mediated cell adhesion. We report on the efficiencies of structurally different but well defined multivalent sLex-ligands (di- and trivalent sLex-peptides and sLexbearing liposomes) to block receptor mediated HepG2-cell binding. Using three types of binding assays with distinct receptor accommodations (soluble anti-sLexmonoclonal antibody CSLEX1, immobilized E-selectin, activated HUVECs), we quantified considerable differences of the inhibition efficiencies for the same multivalent sLex-ligands. Compared to the monovalent sLexthe inhibition powers of both (sLex)2-peptides and (sLex)3-peptides were enhanced up to 50-fold for cell binding to the soluble antibody, and that of sLex-liposomes by 7 orders of magnitude. Directed to immobilized E-selectin the inhibition activity was enhanced only 3-fold for (sLex)2-peptides, 10-fold for (sLex)3-peptides but 5 orders of magnitude for sLex-liposomes, respectively. Further decrease of the inhibition efficiencies of glycoligands prepared was observed for cell binding to activated HUVECs. Compared to monovalent sLexwe measured relative efficiencies of 1 for (sLex)2-peptides, of 2 for (sLex)3-peptides but about 20,000 for sLex-liposomes. We concluded that the multivalency of the sLex-ligands prepared is an essential but not sufficient precondition for a high inhibition potency. Additionally, structural properties of the inhibitors determine their binding behavior, which must be considered for the design of potential therapeutic probes.

projects that have annotations to this span

Unselected / annnotation Selected / annnotation