Identification and purification of a cell surface glycoprotein mediating intercellular adhesion in embryonic and adult tissue

An antiserum against material shed into serum-free medium by MCF-7 human mammary carcinoma cells (anti-SFM II) disrupts cell-cell interactions in murine mammary tumor epithelial cells (MMTE). We now report purification of an 80 kd glycoprotein (GP80) from SFM of MCF-7 mammary carcinoma cells that blocks the activity of anti-SFM II. Anti-SFM II also inhibits compaction of eight-cell mouse embryos, and purified GP80 blocks this reaction. An antiserum against purified GP80 (anti-GP80) has all adhesion-disrupting activities displayed by anti-SFM II. It recognizes one band at 80 kd in SFM and a 120 kd band in detergent extracts of epithelial but not fibroblastic cells. In immunofluorescence studies it is restricted to sites of cell-cell interaction in cultured epithelial cells. Thus a cell surface glycoprotein of 120 kd, the medium form of which is approximately 80 kd, which is neither species nor tissue specific, is expressed at early stages of mammalian development and is found on epithelia.     

Collagen-binding proteins of rat mammary tumor epithelial cells: a biochemical and immunological study

Collagen-binding proteins were studied in mammary epithelial cells of 7,12-dimethylbenz[a]anthracene-induced rat mammary tumors. These proteins can be solubilized from cell membranes with 0.1% Triton. Using affinity chromatography on type I collagen-Sepharose and polyacrylamide slab gel electrophoresis, three major proteins of 34,000, 36,000, and 38,000 Da were found. Similar proteins were also present in several other cell types, including both epithelial and mesenchymal cells. Pulse-chase experiments did not indicate a precursor-product relationship of these proteins. Tryptic/chymotryptic peptide maps, however, revealed that the 36,000- and 38,000-Da proteins are very similar but are quite different from the 34,000-Da molecular form. The distribution and function of these proteins were then analyzed by using polyclonal antibodies directed against the entire set of major proteins. In immunofluorescence studies we observed a dense, punctate distribution of fluorescence on the cell surface of isolated and unfixed epithelial organoids and a bright pericellular staining in cultures after fixation. Treatment with the antiserum did not affect attachment and spreading of cuboidal mammary cells to plastic or to a collagen substratum. However, when the antiserum was added to the medium of growing cuboidal cells, it caused the formation of duct-like structures. These studies indicate that collagen-binding proteins may play a role in mammary gland morphology.     

Growth of mouse mammary epithelium in response to serum-free media conditioned by mammary adipose tissue

Normal mouse mammary epithelial cells, isolated from female Balb/c mice, were cultured as multicellular organoids either on or within collagen gel matrices. Cultures were maintained in either serum-free control medium or the same medium conditioned by mammary adipose tissue. A significant proliferative response above that observed in control cultures (2.5-3.5 fold increase) was induced by conditioned medium derived from either mammary fat-pad explants or isolated adipocytes. In addition, scanning electron microscopy revealed epithelial morphology to be preserved in a more in vivo-like state in the conditioned medium. We conclude that diffusible factors derived from the mouse mammary fat pad influence the proliferative activity and morphology of mammary epithelial cells in culture.     

Basement membrane collagen requirements for attachment and growth of mammary epithelium.

In vivo mammary epithelial cells rest upon a basement membrane composed in part of type IV collagen which is synthesized by these cells. In this study, basement membrane collagen is shown to be selectively recognized by normal mammary ducts and alveoli for attachment and growth when compared to the types of collagen derived from stroma (types I or III) or cartilage (type II). Cell attachment and growth on type I collagen is inhibited by the proline analogue, cis-hydroxyproline, which blocks normal collagen production. These effects of cis-hydroxyproline are not apparent when a basement membrane collagen substratum is provided. Unlike normal mammary epithelium, mammary fibroblasts show little preference for the collagen to which they will attach. A requirement of type IV collagen synthesis for normal mammary epithelial cell attachment and growth on stromal collagen in vitro may have significance in vivo where a basement membrane scaffold may be necessary for normal mammary morphogenesis and growth.     

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

Calcium-binding (-dependent) proteins (CBPs) associated with the spreading of mammary epithelial cell cultures have been identified as various calelectrins and calpactins (p36). In immunoblot analysis, the CBPs of 30–36 kD and 68–70 KD variously react with different calelectrin and calpactin I monomer/p36 antisera. The same immunoreactive proteins were shown to be present in virgin mammary glands and collagen gel mouse mammary epithelial cell cultures. The mammary CBPs show extensive immunochemical relatedness; however, they fail to show cross-reaction with antiserum to calpactin II (lipocortin) antiserum. These immunoreactive CBPs comigrate in electrophoresis with ³⁵S-methionine-labeled CBPs isolated from mammary epithelial cell cultures. Unlike calmodulin, the mammary CBPs that correspond to calelectrins and calpactin I monomer/p36 are not stable to thermal denaturation. The mammary CBPs bind to epithelial cell membranes in a Ca²⁺-dependent manner and are differentially released from ruptured cells, compared with calmodulin, suggesting subcellular localization. Phenothiazineagarose and phenylagarose are equivalent in their ability to bind the mammary CBPs. Thus, mammary gland CBPs of 30–36 kD and 68–70 kD have been shown to be related or equivalent to the calelectrins and to calpactin I monomer/p36. Since these proteins are known to bind Ca²⁺, we conclude that the mammary gland CBPs are also Ca²⁺-binding proteins. The mammary gland CBPs are immunologically related and probably represent members of a larger family of related proteins.     

Isolation of an Insulin-Responsive Preadipose Cell Line and a Mammary Tumor Virus-Producing, Dome-Forming Epithelial Cell Line from a Mouse Mammary Tumor

Two functional tissue culture cell lines, MTD and MTF cell lines, have been isolated from a mouse mammary tumor. MTD cells are epithelial and retain the ability to transport fluid leading to the formation of three-dimensional fluid-filled multicellular structures called "domes" or "hemicysts". Another property of MTD cells is the production of murine mammary tumor virus (MTV). Release of MTV into the culture medium was verified by immunological, electrophoretic and enzymatic analyses. Addition of dexamethasone in the culture medium enhanced both the formation of domes and the production of MTV. Thus, MTD cells retain the morphological and functional properties of the original mammary tumor cells.
MTF cells show the fibroblastic morphology in subconfluent cultures. After reaching confluence, however, these cells gradually accumulated triglycerides in the cytoplasm and eventually assumed the morphology of fat cells. This adipose conversion was greatly enhanced by the presence of insulin in the culture medium. The morphological resemblance of adipose-converted MTF cells to the mammary fat cells suggests that the MTF cell line was derived from the mammary fat pad stroma. These functional cell lines will be useful to study cell differentiation as well as cell-to-cell interactions in the mammary gland.     

Characterization of Cyp2d22, a novel cytochrome P450 expressed in mouse mammary cells

Endogenous steroids and numerous environmental agents have potent effects on mammary development and carcinogenesis. Locally produced cytochrome P450 enzymes that modify such molecules are therefore likely to be important regulators of these processes. Here we describe the characterization of a novel mouse gene, termed Cyp2d22, that is highly expressed in the mammary tumor derived cell line RIII/Prl. Cyp2d22 is expressed at intermediate levels in the weakly tumorigenic cell line RIII/MG, whereas expression is low or absent in all normal mouse mammary epithelial cell lines tested and three C3H mammary tumor derived cell lines. Immunoblot analysis of mouse tissues with highly specific antisera indicates that 2D22 protein levels are most abundant in liver, while intermediate levels of expression are seen in adrenal, ovary, and mammary gland. Immunohistochemical staining of liver sections with these antisera demonstrates that 2D22 is most abundant in the first layer or two of parenchymal cells surrounding the central vein, with virtually no expression detected in periportal cells. Interestingly, sequence similarity and functional data suggest that Cyp2d22 may be the mouse ortholog of human CYP2D6. These observations support the hypothesis that 2D22 mediates a distinct, biologically significant activity in relation to other mouse 2D family members.     

Mesosecrin: a secreted glycoprotein produced in abundance by human mesothelial, endothelial, and kidney epithelial cells in culture

Human mesothelial cells, endothelial cells, and type II kidney epithelial cells growing in culture devote approximately 3% of their total protein synthesis to the production of an Mr approximately 46-kD, pI 7.1, secreted glycoprotein (designated Sp46). Fibroblasts make about 1/10th as much Sp46 as these cell types, and their synthesis is dependent upon hydrocortisone. Keratinocytes, urothelial cells, conjunctival epithelial cells, and mammary epithelial cells do not make detectable amounts of Sp46. Mesothelial cells secrete Sp46 onto the substratum, and from there it is subsequently released into the medium. Immunofluorescence analysis using specific antisera discloses that Sp46 is deposited beneath cells as a fine coating on the substratum. In sparse cultures, Sp46 is detected in trails behind motile cells. In contrast, secreted fibronectin coalesces into fibers, most of which remain in contact with and on top of the cells; thus Sp46 does not preferentially bind to fibronectin. About 6 kD of the mass of human Sp46 is N-linked oligosaccharide, which is terminally sialated before secretion. Sp46 has a low glycine content, indicating that it is not a collagenlike protein. Its NH2-terminal sequence over the first 40 amino acids does not resemble any protein for which sequence information is available. Sp46 appears to be a novel extracellular glycoprotein, high-level constitutive expression of which is restricted to mesoderm-derived epithelial and endothelial cells. We therefore propose for it the name "mesosecrin."     

小鼠乳腺上皮细胞培养体系的建立及Heregulin-α的调控作用

旨在建立完善的小鼠乳腺上皮细胞体外培养体系,探讨Heregulin-α（HRG-α）对该体系乳腺上皮细胞增殖及代谢的影响,为进一步深入研究乳腺上皮细胞的形态、结构和功能,揭示HRG-α在小鼠乳腺发育中的作用及其规律提供理论依据.通过比较不同pH和不同血清浓度配比的生长培养液对小鼠乳腺细胞生长的影响,得出pH7.4,添加10%血清的生长培养液为乳腺上皮细胞生长的最佳条件.通过运用相差显微镜技术、MTT等研究方法进行不同取材时期乳腺上皮细胞的形态、接种存活率、倍增时间、生长曲线等生物学特性比较,获得妊娠15天为较好的乳腺细胞取材时期.采用免疫组化和RT-PCR方法对细胞重要的标志蛋白角蛋白-18进行检测,鉴定所获得的细胞为乳腺上皮细胞,成功建立小鼠乳腺上皮细胞体外培养体系.利用所建立的小鼠乳腺上皮细胞体外培养体系,采用液相色谱技术及MTT方法,初步探讨了HRG-α对小鼠乳腺上皮细胞的影响.结果表明,适宜量HRG-α对小鼠乳腺上皮细胞生长和分泌总蛋白、乳糖均有显著促进作用,0.1～20ng/mL的HRG-α可促进小鼠乳腺上皮细胞的增殖和总蛋白、乳糖含量的增加,20ng/mL时达到最大值（P〈0.01）,50和100ng/mLHRG-α抑制小鼠乳腺上皮细胞的增殖,降低小鼠乳腺上皮细胞的总蛋白、乳糖含量（P〈0.05）.     

An improved method for the isolation of type II and clara cells from mice

Identifying the causal events and temporal aspects of lung cancer development requires the ability to isolate target and nontarget cells for comparative analyses. Current methodology can either isolate only one pure specific cell population from a lung or multiple cell types at lower purity. Previous studies in our laboratory have identified the alveolar type II cell as the progenitor cell for tumor development in the A/J mouse. The purpose of this study was to develop new protocols for the isolation and culture of type II and Clara cells from the mouse lung. Both type II and Clara cells were obtained in high purity using a sequential centrifugal elutriation protocol. In the first elutriation, cell fractions were collected using a Standard chamber. The type II and Clara cell fractions were then elutriated separately (two different separations) using a Sanderson chamber. The final purity of the type II and Clara cell preparations was 73% and 76%, respectively. Colonies of 4 to 20 Clara cells exhibiting epithelial morphology were evident 1 wk after plating in low serum medium. The growth of type II cells required the addition of bronchioalveolar lavage fluid and acidic fibroblast growth factor to the medium. The isolation of viable mouse type II and Clara cells in high purity should facilitate the identification of cell-specific changes in gene expressions or in enzymatic pathways following in vivo or in vitro exposure to environmental carcinogens.     

Interaction of Wnt-1 proteins with the binding protein BiP.

The mouse Wnt-1 gene, a target for insertional activation in mouse mammary tumor virus-induced mammary tumors, encodes poorly secreted, cysteine-rich glycoproteins required for proper central nervous system development. We have been analyzing the biosynthesis of Wnt-1 proteins in several cell lines that express Wnt-1 cDNA from heterologous promoters. A protein of 78 kDa was found to be associated with the intracellular forms of Wnt-1 proteins in mammalian and avian cells by using multiple antisera against Wnt-1 proteins. We have identified p78 as the binding protein BiP with anti-BiP antisera and by its release from Wnt-1 immunoprecipitates upon incubation with MgCl2 and ATP. Experiments with a Wnt-1 mutant that lacks the sequence encoding the signal peptide indicates that Wnt-1 proteins must enter the secretory pathway in order to interact with BiP. We demonstrate that Wnt-1 proteins are associated with BiP in cells in which active Wnt-1 proteins are produced, such as a cultured mammary epithelial cell line and Wnt-1 transgenic mouse mammary tumor cells. The association of Wnt-1 proteins with BiP may be a factor in determining the efficiency of secretion of Wnt-1 gene products.     

Extracellular matrix and mouse mammary cell function: Comparison of substrata in culture

Summary Cultured mammary cells depend on interaction with a substratum for functional differentiation, even in the presence of lactogenic hormones. Protein synthesis and secretion by mouse mammary epithelial cells on floating collagen gels and (EHS) matrix were compared. Cells were prepared by collagenase digestion of tissue from mid-pregnant mice. Protein synthesis was consistently greater in cells attached to EHS matrix, and was associated with proportionately higher rates of protein secretion into culture medium. Cells on EHS secreted protein into a luminal space formed within multicellular alveoluslike structures. Luminal secreted protein, extracted by EGTA treatment of cells in situ, constituted up to 40% of total secreted radiolabeled protein for cells on EHS matrix. The EGTA extract contained a higher proportion of casein and lactoferrin, whereas transferrin was predominately in the medium. This indicated that cells on EHS matrix had become polarized and were secreting proteins vectorially. In contrast, EGTA treatment of cells on floating collagen gels released virtually no radiolabeled protein, showing that mammosphere formation was a property of cells on EHS. These biochemical observations were supported by ultrastructural evidence. In EHS cultures, the proportion of secreted protein in the luminal fraction, but not the distribution of secreted proteins, changed with time. This suggests that there may be leakage out of the lumen, or intraluminal degradation of protein after secretion. Nevertheless, the results suggest that cellular organization into mammospheres on EHS matrix promotes synthetic and secretory activity. This system provides a useful model for investigation of the regulation of milk secretion.     

Studies on the function of cell surface glycoproteins. I. Use of antisera to surface membranes in the identification of membrane components relevant to cell-substrate adhesion

An antiserum prepared against purified surface membranes of transformed BHK21/C13 cells (C13/B4) reversibly rounded and detached hamster cells from plastic tissue culture plates but did not affect cells of other species. Antiserum treatment did not alter the growth rate of C13/B4 or BHK21/C13 cells; however, NIL-8 cells exposed to the antiserum detached from the substrate and stopped growing, but remained viable for up to 72 h in the presence of the antiserum. Rounding and detachment were not inhibited by DNP or cycloheximide. Antiserum-detached cells did not reattach in the presence of these inhibitors. F(ab)' fragments also induced rounding, thus ruling out the involvement of complement and ligand-induced rearrangement of surface antigens in rounding and detachment. Three different surface-reactive immunoglobulin preparations were used in indirect immunoprecipitation studies in an attempt to identify cell surface antigens involved in regulating adhesion and morphology. Antiserum against surface membranes (anti-M) and against material shed by the cells into serum-free medium (anti-SFM) caused rounding and detachment, but a third antiserum (anti-LIS) prepared against a partially purified glycoprotein did not. All three immunoglobulin preparations precipitated glycoproteins with an apparent mol wt of 120,000 daltons from a crude membrane preparation solubilized by Nonidet NP-40. The two immunoglobulin preparations that caused rounding precipitated an additional glycoprotein peak of 140,000 daltons. Extensive preabsorption of the extract with anti-LIS immunoglobulin enriched the anti-membrane and antiserum-free medium precipitates for the 140,000-dalton peak. Anti-M immunoglobulin eluted from intact cells and subsequently used to precipitate NP-40 solubilized membrane constituents also reacted with a group of glycoproteins of approximately 140,000 mol wt. Therefore, this group of glycoproteins was considered most likely to be the glycoproteins involved in substrate adhesion and maintenance of cellular morphology.     

Absorption of antisera for studies on specific enzyme turnover.

Antisera were raised to acetyl-CoA carboxylase and 6-phosphogluconate dehydrogenase from mammary glands of lactating rabbits, and cytochrome oxidase from rat liver. The enzymes were all highly purified but gave rise to multispecific antisera when tested against tissue extracts. Absorption procedures were devised to free the antisera of contaminating antibodies. Antisera to acetyl-CoA carboxylase and cytochrome oxidase were absorbed with fractions discarded during enzyme purification. The antiserum to 6-phospho-gluconate dehydrogenase was absorbed with a tissue extract from an early stage in mammary-gland differentiation. Monospecific antisera are essential for enzyme turnover studies and therefore antisera should be extensively tested and absorbed before use. A general procedure for the absorption of antisera to purified enzymes has been devised on the basis of accepted principles of antisera absorption.     

Glycosaminoglycan accumulation by normal and malignant human mammary epithelial cells in primary culture

The effects of glycosaminoglycans (GAGs) on cell growth and differentiation appear to vary with cell type and stage of development. This study describes the types and distribution of GAGs accumulated by normal and malignant human mammary epithelial cells in primary culture during their exponential and stationary phases of growth. Cultures incubated with [3H]glucosamine or [35S]sulfate were separated into medium, extracellular matrix (ECM), and cell fractions. Labelled GAGs were identified by chemical and enzymatic degradations and cellulose acetate electrophoresis. Cultures of normal cells in the exponential phase of growth released the most labelled GAGs into the medium fraction, the majority of which was hyaluronic acid (HA). The increase in labelled GAG accumulation, the increase in sulfated GAGs localized in the ECM fraction correlated with the reduced proliferative activity and increased cell density of cells in stationary cultures. In contrast, cultures of mammary tumour cells had the same labelled GAG profile, regardless of their growth status. Although there was variation among tumours, in general, the majority of the labelled GAGs were secreted into the medium fraction and the predominant GAG was HA. The results are comparable with those obtained from studies on mammary tissue in vivo. Primary cultures of human mammary epithelial cells should be useful for determining how modulations of GAGs affect growth and differentiation of these cells.     

Purification of antigens of mammary tumor of the mouse by gel filtration

This study was designed to isolate the biologically active components from a perchloric acid (PCA) extract of mammary tumor virus (MTV)-induced mouse mammary tumors (AMMT) previously shown to be capable of inducing DNA synthesis in spleen cells of mice presensitized by inoculation of viable syngeneic mammary tumor cells. AMMT (450 mg) was eluted fom an Ultrogel AcA54 column with separation range of 5-70K in a buffer containing Tris-sodium chloride and EDTA. Two fractions were separated with estimated molecular weights of 68-70K (AMMT I) and 35-40K (AMMT II). AMMT I and AMMT II exhibited DNA synthetic activity 78-fold and 35-fold, respectively, greater than AMMT. The feasibility of further purification of AMMT I by isoelectric focusing was also demonstrated. These components provide the opportunity for further investigation into the molecular basis of tumor-host relationship in this animal model.     

In vitro analysis of proliferating epithelial cell populations from the mouse mammary gland: Fibroblast-free growth and serial passage

Summary Normal and neoplastic mouse mammary epithelial cells were cultured in nutrient medium containing D-valine substituted for L-valine. Fibroblast overgrowth was prevented and epithelial cell functions and morphology were retained in cultures maintained in, D-valine medium up to 2 months. A nonenzymatic technique was devised to dissociate epithelial cell monolayers. The combined use of this dissociation buffer and D-valine nutrient medium made it possible to passage serially normal and neoplastic mammary epithelial cells. Normal cells were derived from mammary glands of animals stimulated with exogenous hormones for various periods. The period of in vivo hormonal stimulation influenced the ability of normal mammary epithelial cells to attach and proliferate in primary and serially passaged cultures. A greater proportion of cells derived from glands following 2 to 4 weeks of hormonal stimulation were recovered after replating and showed higher labeling indices during serial passage than cells from unstimulated or 5- to 7-week stimulated groups. This investigation was supported by Grant No. CA 05388 from the National Cancer Institute and by Cancer Research Funds of the University of California.     

Cell surface proteoglycan associates with the cytoskeleton at the basolateral cell surface of mouse mammary epithelial cells

The cell surface proteoglycan on normal murine mammary gland mouse mammary epithelial cells consists of an ectodomain bearing heparan and chondroitin sulfate chains and a lipophilic domain that is presumed to be intercalated into the plasma membrane. Because the ectodomain binds to matrix components produced by stromal cells with specificity and high affinity, we have proposed that the cell surface proteoglycan is a matrix receptor that binds epithelial cells to their underlying basement membrane. We now show that the proteoglycan surrounds cells grown in subconfluent or newly confluent monolayers, but becomes restricted to the basolateral surface of cells that have been confluent for a week or more; Triton X-100 extraction distinguishes three fractions of cell surface proteoglycan: a fraction released by detergent and presumed to be free in the membrane, a fraction bound via a salt-labile linkage, and a nonextractable fraction; the latter two fractions co-localize with actin filament bundles at the basal cell surface; and when proteoglycans at the apical cell surface are cross- linked by antibodies, they initially assimilate into detergent- resistant, immobile clusters that are subsequently aggregated by the cytoskeleton. These findings suggest that the proteoglycan, initially present on the entire surface and free in the plane of the membrane, becomes sequestered at the basolateral cell surface and bound to the actin-rich cytoskeleton as the cells become polarized in vitro. Binding of matrix components may cross-link proteoglycans at the basal cell surface and cause them to associate with the actin cytoskeleton, providing a mechanism by which the cell surface proteoglycan acts as a matrix receptor to stabilize the morphology of epithelial sheets.     

Comparative analysis of casein synthesis during mammary cell differentiation in collagen and mammary gland development in vivo

Substrata upon which epithelial cells are cultured modulate their morphology,growth, and ability to differentiate. Mouse mammary epithelial cells cannot be induced to synthesize caseins, a marker of cell differentiation, when grown on a plastic surface. An analysis was made of the effect of time within a collagen matrix on the ability of normal mammary epithelial cells to be induced to synthesize caseins and that response was compared to mammary gland development in vivo. Primary cultures of mammary cells from unprimed virgin BALB/c mice were embedded in rat-tail collagen gel mixtures and maintained in growth medium. Induction medium containing lactogenic hormones was added at various times. The cells were monitored every 3-7 days over a period of 8 weeks for cell growth, casein synthesis, and ability to grow in vivo in cleared mammary fat pads. Casein accumulation was assayed quantitatively by an ELISA competition assay and qualitatively by the immunoblot procedure using specific antisera prepared against purified mouse caseins. No marked differences in cell numbers and transplantability potential were observed among cells cultured for various times in collagen. Mammary cells grown in collagen for up to 8 weeks retained the capacity to grow in vivo as normal ductal outgrowths. The duration of culture within collagen prior to hormonal stimulation did influence the kinetics of casein synthesis. Cells cultured for 1 week in growth medium did not accumulate detectable levels of casein until after 3 weeks of induction, whereas cells cultured for 2 or 4 weeks responded by accumulating caseins after 2 weeks and 3 days of induction, respectively. While the levels of total caseins that accumulated under optimal conditions of induction in culture approached levels found during lactation in vivo, the relative proportion of specific casein polypeptides synthesized in culture was altered from alpha casein (43K) in favor of the beta casein (30K) species. These results suggest that a period of culture within collagen is required to permit mammary epithelial cells to become responsive for hormone-induced differentiation. It is possible that during growth within the collagen the cells synthesize and deposit extracellular matrix components important in modulating gene expression.