Mammary gland Ca2+-binding (-dependent) proteins: identification as calelectrins and calpactin I/p36

CEACAM1, a Cell-Cell Adhesion Molecule, Directly Associates with Annexin II in a Three-dimensional Model of Mammary Morphogenesis

The epithelial cell adhesion molecule CEACAM1 (carcinoembryonic antigen cell adhesion molecule-1) is down-regulated in colon, prostate, breast, and liver cancer. Here we show that CEACAM1-4S, a splice form with four Ig-like ectodomains and a short cytoplasmic domain (14 amino acids), directly associates with annexin II, a lipid raft-associated molecule, which is also down-regulated in many cancers. Annexin II was identified using a glutathione S-transferase pull-down assay in which the cytoplasmic domain of CEACAM-4S was fused to glutathione S-transferase, the fusion protein was incubated with cell lysates, and isolated proteins were sequenced by mass spectrometry. The interaction was confirmed first by reciprocal immunoprecipitations using anti-CEACAM1 and anti-annexin II antibodies and second by confocal laser microscopy showing co-localization of CEACAM1 with annexin II in mammary epithelial cells grown in Matrigel. In addition, CEACAM1 co-localized with p11, a component of the tetrameric AIIt complex at the plasma membrane, and with annexin II in secretory vesicles. Immobilized, oriented peptides from the cytoplasmic domain of CEACAM1-4S were shown to directly associate with bovine AIIt, which is 98% homologous to human AIIt, with average KD values of about 30 nM using surface plasmon resonance, demonstrating direct binding of functionally relevant AIIt to the cytoplasmic domain of CEACAM1-4S.

Lipocortin 1 in apoptosis: mammary regression

BACKGROUND

Enigmatically, degradation of debris generated in programmed cell death (apoptosis) elicits little inflammation. Having previously detected the upregulation of lipocortin 1 (LC1), a 35-kDa protein with anti-inflammatory and immuno-suppressive properties, at sites of non-inflammatory phagocytosis in the central nervous system (J Neurosci Res 36:491-500, 1993), we sought to determine if LC1 was involved in apoptosis.

METHODS

LC1 immunoreactivity in mammary glands of adult rats was quantified in situ using video microdensitometry before and during postlactational regression.

RESULTS

LC1 is present in the mammary ducts but is absent from the alveoli during lactation. One day after weaning, however, LC1 is detected in the lactiferous cells and, as apoptosis proceeds over the ensuing 4 days, total LC1 in the gland increases > 10-fold over resting levels. LC1 remains high in both the apoptotic cells and epithelial phagocytes through day 10, but the total LC1 per gland drops as the apoptotic cells are cleared.

CONCLUSIONS

Published experiments have shown that LC1 specifically binds Ca++ and phosphatidylserine, and that these affinities are modulated by tyrosine phosphorylation and cross-linking with transglutaminase. Thus, LC1 appears to be a candidate for several putative activities in apoptosis (e.g., phagocyte recognition via phosphatidylserine binding and/or buffering intracellular Ca++) in addition to its anti-inflammatory role.

Differential expression of annexins I and II in normal and malignant human mammary epithelial cells

Collagen-binding proteins (CBPs) of rat mammary tumors are identical to Ca(2+)-binding annexins. We have now isolated a protein of 38 kDa from the human mammary tumor cell line ALAB by collagen type I affinity chromatography as well as by extraction of calcium-binding proteins. The 38-kDa band of both preparations was identified as annexin II (calpactin I) by its reaction with an annexin II-specific monoclonal antibody in Western blot analysis. Annexin I (lipocortin I) was not detectable in these cells. Two other human cell lines, the SV40-transformed cell line SV3 and cell line HBL-100, both established from normal mammary glands, were also positive for annexin II and negative for annexin I. In vivo expression of annexins was investigated by immunohistological staining of normal and malignant human mammary tissue. The annexin II-specific mAb reacted with normal and tumor parenchyma whereas the annexin I-specific mAb reacted with acini and ductal myoepithelium of the normal mammary gland but showed no reaction with tumor tissue. Immunolocalization studies also showed annexin II expression in both normal and tumor stroma while only tumor stromal cells were found to be reactive with the antibody against annexin I. The differential expression of annexins in normal and malignant human mammary tissue suggests special functions of these proteins in the mammary gland.

Stimulation of growth of human breast cancer cells (T47D) by platelet derived growth factor

The human breast cancer cell lines T47D and MCF-7, respond to the mitogenic action of exogenously added PDGF with a 2-3-fold increase in cell number. The maximal response was obtained at a concentration of 1.25 half maximal units/ml (125 ng/ml). PDGF-AA was even more effective than PDGF-AB while PDGF-BB was without effect. The growth-enhancing activity of PDGF was completely abolished by Fab fragments of anti PDGF. Within 7 min of addition of PDGF to cultures of T47D cells, specific phosphorylation of a 65-kDa protein was observed. T47D cells contain specific receptors for PDGF with approximately 4-7 x 10(4) sites (kDa of 3-4 x 10(-10) M) per cell.

Annexin II (calpactin I) in the mouse mammary gland: immunolocalization by light- and electron microscopy

To elucidate the putative role of annexin II (calpactin I) in the secretory function of mammary tissue its immunolocalization in the mammary gland of pregnant and lactating mice was investigated by light- and electron microscopy using the immunoperoxidase technique. A low level of fairly uniform annexin II staining was evident throughout the gland despite its mixed composition during pregnancy. In lactating tissue it was revealed that apparently mature alveoli contained a concentration of annexin II staining outlining their epithelium. The staining was localised by immuno-electron microscopy to the apical membrane of these alveolar epithelial cells and their microvillar extensions. There was also an apparent association of annexin II with vesicles of a range of sizes located near, or actually fused with, the apical membrane. Many of the small, stained vesicles could clearly be identified as casein-containing vesicles while the large vesicles were apparently associated with either casein granules or possibly lipid. The appearance of a selective concentration of annexin II in apparently actively secreting mammary epithelial cells, as revealed in this study, is consistent with a possible structural and/or functional role for this protein at the membranes participating in the secretion of protein and possibly lipid from these secretory cells.

Collagen-binding proteins of mammary epithelial cells are related to Ca2(+)- and phospholipid-binding annexins

Three major proteins of 34, 36, and 38 kDa were isolated from membrane preparations of chemically induced mammary tumors of the rat by collagen type I affinity chromatography and therefore were termed collagen-binding proteins (CBP). Three proteins in the same molecular weight range isolated from cell extracts by precipitation with calcium, solubilization of the precipitate with EGTA, and chromatography on hydroxylapatite were demonstrated to be immunologically related to CBP. As shown by immunoblot analysis, an antiserum directed against the cluster of the 34-38 kDa proteins reacted strongly with porcine intestinal protein I, weakly with porcine lipocortin I, and very weakly with porcine intestinal protein II. Antiserum against the 34 kDa protein reacted weakly with protein I but strongly with protein II. All three CBP reacted with protein I/calpactin I-specific antiserum of immunoblots and in immunoprecipitation experiments. However, antisera directed against CBP failed to show cross-reaction with collagen-binding protein anchorin II from chicken chondrocytes. Conversely, antisera against anchorin II did not react with CBP. Antiserum AS/87 immunoprecipitated CBP of 38 kDa that was labeled in a lactoperoxydase-catalyzed iodination, suggesting that this polypeptide is associated with the cell surface. Further, all three CBP were found to be phosphorylated by incubating mammary cells with 32P-orthophosphate. CBP bound to epithelial cell membranes in a Ca2+ dependent manner (= Triton X 100 insoluble form). Fractionated extraction and immunofluorescence microscopy also show that another form of CBP (= Triton X 100 soluble form) exists in these cells and is associated with a granular fraction. We therefore conclude that mammary collagen-binding proteins represent members of a family of Ca2(+)-binding membrane proteins. The 38 kDa CBP seems closely related to the pp60src kinase substrate protein I/calpactin I monomer, the 34 kDa CBP seems to be related or equivalent to protein II, while the relationship of the 36 kDa CBP to other defined proteins is still unclear.

DNA synthesis inhibition and reduced functional differentiation of midpregnant mouse mammary epithelia on collagen gels

Mammary epithelial cells were examined for a link between DNA synthesis and subsequent synthesis and secretion of casein. Cells isolated from mice midway through pregnancy and cultured on collagen gels spread to form monolayers (spreading phase). Release of monolayer/gels to float in surrounding culture medium induces synthesis and secretion of casein (secretory phase). DNA synthesis was blocked during the spreading phase with cytosine arabinofuranoside (ARA C). Culture medium was assayed for casein by direct quantification of protein from SDS-PAGE fluorographs, and by immunoblotting. When induced to become secretory, cells exposed to ARA C during the spreading phase showed a marked reduction of secretion of casein as compared to control cultures (72% reduction). In contrast, cells exposed to ARA C during the secretory phase (after monolayer formation was complete) showed no significant reduction in secretion of casein. Measurement of intracellular casein in secretory phase cells showed that reduced secretion of casein by cultures blocked during the spreading phase occurs as a consequence of reduced levels of casein synthesized, and not because of an inability to secrete intracellular accumulations. The inhibitor effect was specific; there was no significant reduction in levels of total intracellular protein synthesis, and neither cell spreading nor monolayer formation was impaired by treatments. These data support the notion that DNA synthesis is a prerequisite to functional differentiation of midpregnant mouse mammary epithelia maintained on floating collagen gels.

Purification, characterization, and localization of 70 kDa calcium-sensitive protein (calelectrin) from mammary glands

Mammary glands contain a group of calcium-sensitive proteins that bind to membranes in a calcium-dependent manner. Using the calcium-dependent binding to hydrophobic surfaces in combination with conventional techniques, we have purified the 70 kDa mammary calcium-binding protein (70 kDa M-CBP) to homogeneity. Antisera prepared to the 70 kDa M-CBP or to bovine liver 67 kDa calelectrin reacted in immunoblot analysis with the 70 kDa M-CBP antigen and with several additional mammary CBP species in crude tissue homogenates. Limited proteolysis of the 70 kDa M-CBP produced smaller immunoreactive species; extensive proteolysis resulted in more complete degradation of the protein. Identical data were obtained with digestion of 67 kDa calelectrin. The pl for the 70 kDa M-CBP was determined to be approximately 5.8; the same value reported for 67 kDa calelectrin. Phosphorylation of 70 kDa M-CBP was not detected in epithelial cell culture metabolic labeling. Immunohistochemical localization showed the protein to be located in ductal epithelia of virgin mouse mammary glands with a pattern of increased staining of the basal portions of the cells. Some stromal cells were also reactive. Apparently, the 70 kDa M-CBP and 67 kDa calelectrin are the same protein. Furthermore, like the 32.5 calelectrin (endonexin) and calpactin I/p36/lipocortin II, the 70 kDa protein appears to be a ductal epithelial cell associated protein in the mammary gland.

Synthesis of calelectrins and calpactin I during cytochalasin mediated cell spreading inhibition

Mammary epithelial cell spreading on collagen gels has previously been shown to be correlated with the synthesis of a group of calcium-binding proteins (CBPs) which we have identified as the calcium-binding proteins termed calelectrins and calpactin I monomer/p36. To determine whether cell spreading per se is required for CBP synthesis, we examined the effect of cytochalasin D on these two events. Concentrations of cytochalasin D that did not reduce total protein synthesis, caused inhibition of cell spreading in a dose-dependent manner, but did not cause inhibition of CBP synthesis. Synthesis of collagen also continued during cytochalasin inhibition of cell spreading. Removal of the inhibitor from the cultures initiated cell spreading and CBP synthesis continued. Membrane-cytoskeleton complexes from control and CD treated cells were identical in regard to binding CBPs in a calcium-dependent manner. Colchicine, which inhibited cell spreading, was shown to be toxic to general protein synthesis at 75 nM. The data clearly indicate that mere inhibition of epithelial cell spreading does not automatically suppress CBP synthesis.

Developmental regulation of calcium-binding proteins (calelectrins and calpactin I) in mammary glands

We recently showed that mammary glands contain a novel class of calcium-binding proteins (CBPs) that bind to membranes in a calcium-dependent manner. We have also established that these mammary CBPs are equivalent to the calelectrins and calpactin I/p36. Since it has been suggested that these proteins might be involved in exocytosis, we examined mammary glands for these CBPs during secretory differentiation. Immunohistochemical examination showed glands from virgin animals to be rich in calelectrins and calpactin I/p36, while glands from lactating animals contained little immunoreactive material. In addition, silver-staining and immunoblot estimation of the CBPs in lysates from collagenase harvested secretory epithelia showed these proteins to be significantly reduced compared to nonsecretory epithelia. Close examination of the CBP immunoreactive cells of the mammary gland shows that ductal cells are prominent in their staining and that the immunoreactive material is associated with the cell surface. Also, in juvenile glands the myoepithelial stem cells (cap cells) of the elongating end bud are devoid of the CBPs. In contrast to the in vivo data, epithelia cultivated on collagen gels demonstrate comparable levels of the CBPs in both nonsecretory and secretory monolayers. The in vivo data indicate that the CBPs are developmentally regulated during mammary gland differentiation such that secretory epithelia are essentially devoid of these novel proteins. Furthermore, a role for calelectrin and calpactin I/p36 in exocytotic casein secretion is questioned.