Glycosylation-dependent cell adhesion molecule 1 (GlyCAM 1) mucin is expressed by lactating mammary gland epithelial cells and is present in milk.

Glycosylation-dependent cell adhesion molecule 1 (GlyCAM 1) is a mucinlike endothelial glycoprotein that acts as an adhesive ligand for L selectin by presenting one or more O-linked carbohydrates to the lectin domain of this leukocyte cell surface selectin. The GlyCAM 1 glycoprotein has been previously shown to be expressed specifically by the endothelial cells of peripheral and mesenteric lymph nodes and in an unknown site in lung. Here we report that this protein is also expressed during lactation by mammary epithelial cells. Northern blot analysis has shown that the mRNA for GlyCAM 1 appears to be induced during pregnancy in a manner similar to that previously described for hormonally induced milk proteins. In situ hybridization analysis reveals that the site of GlyCAM 1 synthesis in the mammary gland is in the epithelial cells that produce these same milk proteins. Immunohistochemistry of mammary glands using antisera directed against GlyCAM 1 peptides demonstrates that these epithelial cells contain GlyCAM 1 protein, and that this protein is also found lumenally in the milk of the secreting mammary gland. Analysis of murine milk shows that immunoreactive GlyCAM 1 is found in the soluble whey fraction. Finally, labeling analysis of milk GlyCAM 1 has demonstrated that this form of the glycoprotein lacks the sulfate-modified carbohydrate that has recently been shown to be required for the ligand binding activity to L selectin. The nonsulfated mammary GlyCAM 1 is unable to interact with L selectin, consistent with the hypothesis that milk GlyCAM 1 has a different function than endothelial GlyCAM 1. These data thus suggest that milk GlyCAM 1 is a hormonally regulated milk protein that is part of the milk mucin complex. In addition, the finding that the mammary form of GlyCAM 1 contains different carbohydrate modifications than the endothelial form suggests that this glycoprotein may be a scaffold for carbohydrates that mediate functions in addition to cell adhesion

Characterization of the murine homing receptor gene reveals correspondence between protein domains and coding exons.

Lymphocytes and other leukocytic cells traffic to diverse lymphoid organs and sites of inflammation by utilizing an adhesion molecule termed the homing receptor. Characterization of the cDNAs encoding the murine lymphocyte homing receptor has revealed an interesting mosaic structure containing three well-known protein motifs: a C-type lectin domain, an epidermal growth factor-like domain, and two exct copies of a short consensus repeat sequence homologous to those found in a family of complement regulatory proteins, in addition to a signal sequence, a transmembrane anchor, and a short cytoplasmic tail. Characterization of genomic clones encoding the murine homing receptor gene has revealed a high degree of correlation between these various structure/function motifs and exons that specify them. Interestingly, comparison of the exons encoding the two identical copies of the complement regulatory motif revealed that short intronic regions 5\u27 and 3\u27 of these exactly repeated exons are also identical. The gene was found to map to a region of chromosome 1, very near a site previously shown to contain the genes for the family of complement regulatory proteins which encode short consensus repeats similar to those found in the homing receptor, implying that these diverse proteins may have evolved in part by repeated duplications

Expression of GlyCAM-1, an endothelial ligand for L-selectin, is affected by afferent lymphatic flow

The interaction of naive, L-selectin-bearing lymphocytes with counterreceptors on the surface of high endothelial venules (HEV) is the initial step in the extravasation of these cells from the bloodstream into the peripheral lymph node. Recently, two sulfated glycoprotein ligands, 50 and 90 kDa, respectively, have been identified as ligands for L-selectin using an L-selectin-IgG chimera. cDNA cloning of one of these molecules, the 50-kDa sulfated glycoprotein (glycosylation-dependent cell adhesion molecule 1 [GlyCAM-1]), has shown it to be a mucinlike scaffold that presents a carbohydrate ligand(s) to the lectin domain of L-selectin. Herein, we analyze the factors that might regulate the expression of these ligands. Ligation of afferent lymphatics results in a complete loss of the mRNA for GlyCAM-1. In addition, L-selectin-mediated adhesion, as inferred by binding of an L-selectin-IgG chimera, is also lost on interruption of afferent flow. It thus appears that a soluble and/or cellular component(s) of afferent lymph regulates the expression of GlyCAM-1 mRNA and the resultant HEV adhesiveness for lymphocytes