Receptors and aging: structural selectivity of the rhamnose-receptor on fibroblasts as shown by Ca(2+)-mobilization and gene-expression profiles.

Qualitative and quantitative modifications of receptors were shown to play a key role in cell and tissue aging. We recently described the properties of a rhamnose-recognizing receptor on fibroblasts involved in the mediation of age-dependent functions of these cells. Using Ca(2+)-mobilization and DNA-microarrays we could show in the presence of rhamnose-rich oligo- and polysaccharides (RROPs) Ca(2+)-mobilization and changes in gene regulation. Here, we compared the effects of several RROPs, differing in their carbohydrate sequence and molecular weights, in normal human dermal fibroblasts (NHDFs). It appeared that different structural features were required for maximal effects on Ca(2+)-mobilization and gene-expression profiles. Maximal effect on Ca(2+) influx and intracellular free calcium regulation was exhibited by RROP-1, a 50 kDa average molecular weight polysaccharide, and RROP-3, a 5 kDa average molecular weight oligosaccharide with a different carbohydrate sequence. Maximal effect on gene-expression profiles was obtained with RROP-3. These results suggest the possibility of several different transmission pathways from the rhamnose-receptor to intracellular targets, differentially affecting these two intracellular functions, with potential consequences on aging. Although of only relative specificity, this receptor site exhibits a high affinity for rhamnose, absent from vertebrate glycoconjugates. The rhamnose-receptor might well represent an evolutionary conserved conformation of a prokaryote lectin.