In the kidney, bulk reabsorption of filtered proteins occurs in the proximal tubule via receptor-mediated endocytosis (RME) through the multiligand receptor complex megalin-cubilin. Other mechanisms and nephron sites for RME of proteins are unclear. Recently, the secreted protein 24p3 (lipocalin-2, neutrophil gelatinase-associated lipocalin (NGAL)), which is expressed in the distal nephron, has been identified as a sensitive biomarker of kidney damage. A high-affinity receptor for 24p3 (24p3R) that is involved in endocytotic iron delivery has also been cloned. We investigated the localization of 24p3R in rodent kidney and its role in RME of protein-metal complexes and albumin. Immunostaining of kidney tissue showed expression of 24p3R in apical membranes of distal tubules and collecting ducts, but not of proximal tubule. The differential expression of 24p3R in these nephron segments was confirmed in the respective cell lines. CHO cells transiently transfected with 24p3R or distal tubule cells internalized submicromolar concentrations of fluorescence-coupled proteins transferrin, albumin, or metallothionein (MT) as well as the toxic cadmium-MT (Cd2+(7)-MT) complex, which caused cell death. Uptake of MT or transferrin and Cd2+(7)-MT toxicity were prevented by picomolar concentrations of 24p3. An EC50 of 123±50 nM was determined for binding of MT to 24p3R by microscale thermophoresis. Hence, 24p3R binds proteins filtered by the kidney with high affinity and may contribute to RME of proteins, including 24p3, and to Cd2+(7)-MT toxicity in distal nephron segments.