The extracellular portion of the macrophage mannose receptor, an endocytic receptor involved in clearance of glycoconjugates, contains eight domains related to the Ca(2+)-dependent carbohydrate-recognition domains (CRDs) of other C-type animal lectins. The characteristics of ligand binding to an expressed form of one of these CRDs (CRD-4) have been investigated. The expressed domain was found to be a monomer in solution. Results of a solid phase binding assay and a protease resistance assay show that CRD-4 of the mannose receptor undergoes a conformational rearrangement upon binding of Ca2+, correlating with its ability to bind sugar. CRD-4 requires two Ca2+ for sugar binding, even though sequence comparisons with other C-type CRDs suggested that it might bind only one Ca2+. The results are consistent with a ternary complex being formed between CRD-4, sugar, and Ca2+ as is seen in the crystal structure of the CRD of rat mannose-binding protein in complex with an oligosaccharide. The stability of Ca2+ binding is shown to be pH-dependent, a result that is pertinent to release of ligand by the receptor in the endosome. However, CRD-4 retains sugar binding activity at a lower pH than does the whole receptor, suggesting that the conformational change in this CRD alone may not be sufficient to allow release of ligand in the endosomes.