Lymphatic endothelial murine chloride channel calcium-activated 1 is a ligand for leukocyte LFA-1 and Mac-1.

The lymphatic circulation mediates drainage of fluid and cells from the periphery through lymph nodes, facilitating immune detection of lymph-borne foreign Ags. The 10.1.

Conditional knockout of fibronectin abrogates mouse mammary gland lobuloalveolar differentiation.

Fibronectin (Fn) plays an important part in the branching morphogenesis of salivary gland, lung, and kidney. Here, we examine the effect of the conditional knockout of Fn in the mammary epithelium [Fn(MEp-/-)] on postnatal mammary gland development, using Cre-loxP-mediated gene knockout technology. Our data show that Fn deletion causes a moderate retardation in outgrowth and branching of the ductal tree in 5-week-old mice.

Protein kinase Cepsilon mediates polymeric fibronectin assembly on the surface of blood-borne rat breast cancer cells to promote pulmonary metastasis.

Malignant breast cancer cells that have entered the blood circulation from primary mammary fat pad tumors or are grown in end-over-end suspension culture assemble a characteristic, multi-globular polymeric fibronectin (polyFn) coat on their surfaces. Surface polyFn is critical for pulmonary metastasis, presumably by facilitating lung vascular arrest via endothelial dipeptidylpeptidase IV (CD26). Here, we show that cell-surface polyFn assembly is initiated by the state of suspension, is dependent upon the synthesis and secretion of cellular Fn, and is augmented in a dose- and time-dependent manner by plasma Fn.

Both cleavage products of the mCLCA3 protein are secreted soluble proteins.

Members of the chloride channels, calcium-activated (CLCA) family of proteins and in particular the murine mCLCA3 (alias gob-5) and its human ortholog hCLCA1 have been identified as clinically relevant molecules in diseases with secretory dysfunctions including asthma and cystic fibrosis. Initial studies have indicated that these proteins evoke a calcium-activated chloride conductance when transfected into human embryonic kidney cells 293 cells. However, it is not yet clear whether the CLCA proteins form chloride channels per se or function as mediators of other, yet unknown chloride channels.

The putative chloride channel hCLCA2 has a single C-terminal transmembrane segment.

Calcium-activated chloride channel (CLCA) proteins were first described as a family of plasma membrane Cl(-) channels that could be activated by calcium. Genetic and electrophysiological studies have supported this view. The human CLCA2 protein is expressed as a 943-amino-acid precursor whose N-terminal signal sequence is removed followed by internal cleavage near amino acid position 680.

Developmental expression patterns and regulation of connexins in the mouse mammary gland: expression of connexin30 in lactogenesis.

The mammary gland reaches a fully differentiated phenotype at lactation, a stage characterized by the abundant expression of beta-casein. We have investigated the expression and regulation of gap junction proteins (connexins, Cx) during the various developmental stages of mouse mammary gland. Immunohistochemical analysis, with specific antibodies, reveals that Cx26 and Cx32 are expressed and confined to the cell borders of luminal epithelial cells in all developmental stages of the gland.

Re-expression of detachment-inducible chloride channel mCLCA5 suppresses growth of metastatic breast cancer cells.

The calcium-activated chloride channel hCLCA2 has been identified as a candidate tumor suppressor in human breast cancer. It is greatly down-regulated in breast cancer, and its re-expression suppresses tumorigenesis by an unknown mechanism. To establish a mouse model, we identified the mouse ortholog of hCLCA2, termed mCLCA5, and investigated its behavior in mammary epithelial cell lines and tissues.

The interacting binding domains of the beta(4) integrin and calcium-activated chloride channels (CLCAs) in metastasis.

CLCA (chloride channel, calcium-activated) proteins are novel pulmonary vascular addresses for blood-borne, lung-metastatic cancer cells. They facilitate vascular arrest of cancer cells via adhesion to beta4 integrin and promote early, intravascular, metastatic growth. Here we identify the interacting binding domains of endothelial CLCA proteins (e.

A novel consensus motif in fibronectin mediates dipeptidyl peptidase IV adhesion and metastasis.

Lung endothelial dipeptidyl peptidase IV (DPPIV/CD26) is a vascular address for cancer cells decorated with cell-surface polymeric fibronectin (poly-FN). Here, we identified the DPPIV-binding sites in FN and examined the effect of binding site peptides on DPPIV/poly-FN adhesion and metastasis. Using proteolytic fragments and maltose-binding protein fusion proteins that together span full-length FN, we found DPPIV-binding sites in type III repeats 13, 14, and 15 (FNIII13, -14, and -15, respectively).

Focal adhesion kinase activated by beta(4) integrin ligation to mCLCA1 mediates early metastatic growth.

Early metastatic growth occurs at sites of vascular arrest of blood-borne cancer cells and is entirely intravascular. Here we show that lung colonization by B16-F10 cells is licensed by beta(4) integrin adhesion to the mouse lung endothelial Ca(2+)-activated chloride channel protein mCLCA1. In a manner independent of Met, beta(4) integrin-mCLCA1-ligation leads to complexing with and activation of focal adhesion kinase (FAK) and downstream signaling to extracellular signal-regulated kinase (ERK).

Molecular and functional characterization of a murine calcium-activated chloride channel expressed in smooth muscle.

To identify the gene products responsible for the calcium-activated chloride current in smooth muscle, reverse transcription-PCR with degenerate primers was performed on mouse intestine and other organs. A new member of the CLCA gene family was identified, mCLCA4, that is expressed preferentially in organs containing a high percentage of smooth muscle cells, including intestine, stomach, uterus, bladder, and aorta. Reverse transcription-PCR using template RNA prepared from mouse bladder and stomach smooth muscle layers dissected free of mucosa yielded mCLCA4-specific bands.