From Tumor Necrosis Factor Receptor to RANK, from the Selectins and Link Proteins to CD44: New Molecular Models of Cell Surface Receptors and Analysis of Specificity Determinants

Abstract

Modeling and structure-function studies on two cell surface proteins are presented, which are implicated in the regulation of immune responses and cell adhesion. In the first part, model building of RANK, a new member of the tumor necrosis factor receptor (TNFR) superfamily (TNFRSF), is reported. The model is analyzed in light of structural studies on the TNFR-ligand complex and molecular model-based mutagenesis analyses of CD40-ligand and Fas-ligand interactions. The study makes it possible to predict residues important for ligand binding to RANK and further rationalizes differences in specificity between TNFR-like cell surface receptors. In the second part, recent investigations on the structure and carbohydrate binding site of CD44, a member of the link protein family, are discussed. The binding site in CD44 is compared to calcium-dependent (C-type) lectins, which include the selectins, another family of cell adhesion molecules. The studies on TNFRSF members and link proteins reported herein complement a recent review article in this journal, which focused on modeling and binding site analysis of immune cell surface proteins.