Expression and distribution of MUC1 in the developing and adult kidney.

Mucin 1 (or MUC1) is a heterodimeric transmembrane glycoprotein expressed on the apical surface of polarized epithelial cells in several tissues including the kidney. Recent studies have revealed several novel roles of MUC1 in the kidney, potentially including bacterial infection, mineral balance, and genetic interstitial kidney disease, even though MUC1 levels are reduced not only in the kidney but also in all tissues due to MUC1 mutations. A careful localization of MUC1 in discrete segments of the nephron is the first step in understanding the multiple functional roles of MUC1 in the kidney. Most published reports of MUC1 expression to date have been largely confined to cultured cells, tumor tissues, and selective nephron segments of experimental rodents, and very few studies have been performed using human kidney tissues. Given the rising attention to the role of MUC1 in differing components of renal physiology, we carefully examined the kidney distribution of MUC1 in both human and mouse kidney sections using well-defined markers for different nephron segments or cell types. We further extended our investigation to include sections of early stages of mouse kidney development and upon injury in humans. We included staining for MUC1 in urothelial cells, the highly specialized epithelial cells lining the renal pelvis and bladder. These data implicate a role for MUC1 in antimicrobial defense. Our study provides the groundwork to test the physiological relevance of MUC1 in the urinary tract. MUC1 is a transmembrane glycoprotein expressed on the apical surface of polarized epithelial tissues and most carcinomas. MUC1 may play novel roles in the kidney including defense against infections. Here, we examine the expression of MUC1 in mouse and human kidneys. We show that the distal nephron and the urinary system are the predominant sites of expression of both message and protein, implicating segment-specific roles including distal nephron defense against ascending bacteria.