Increased abundance of a normal cell mRNA sequence accompanies the conversion of rat mammary cuboidal epithelial cells to elongated myoepithelial-like cells in culture.

Rat mammary cuboidal epithelial cell lines in culture convert to elongated myoepithelial-like cells. This conversion is accompanied by the appearance of a 9,000 molecular weight acidic polypeptide (p9ka), abundant in the elongated convertants, but which is hardly detectable in the cuboidal epithelial cells. A cDNA library corresponding to a low-molecular-weight fraction of poly(A)- containing RNA from a myoepithelial-like cell line, has been constructed. Recombinant plasmids containing cDNA complementary to p9ka mRNA have been identified by hybrid-selected translation. The mRNA for p9ka has been identified by Northern blotting and is found to be at least five-times more abundant in cultured myoepithelial-like rat mammary cells when compared to the cuboidal epithelial cells. This cytoplasmic mRNA sequence, which is present in increased abundance in cultured mammary myoepithelial-like cells, is also present, at lower levels, in normal rat tissues, including the mammary glands.     

Microtubule-disrupting drugs increase the frequency of conversion of a rat mammary epithelial stem cell line to elongated, myoepithelial-like cells in culture

Rat mammary (Rama) 25 cuboidal epithelial stem cells convert at a low frequency to elongated, Thy-1-positive, myoepithelial-like cells in culture; one such cell line is termed Rama 29. Addition of increasing concentrations of the microtubule-disrupting drug colchicine to sparse cultures of Rama 25 dramatically increases the percentage of colonies containing elongated cells and the percentage of Thy-1-positive cells when the drug is removed. Similar results on the formation of elongated cell colonies are obtained with other microtubule disruptors, such as vinblastine, vincristine, demecolcine, and nocodazole. The inactive analogues of colchicine beta- and delta-lumicolchicine and the microfilamental-disruptors cytochalasin B and D are without effect on the formation of elongated cell colonies and Thy-1-positive cells. For a given concentration of colchicine the percentage of elongated cell colonies and Thy-1-positive cells increases the longer the cells are exposed to the drug (range 8-96 hr) and the longer the drug-treated cultures are subsequently grown in drug-free medium. Colchicine fails to display this morphological change on Rama 29 elongated cells and on Rama 600 epithelial cells from a rat mammary metastasizing tumor. Immunofluorescent localization of antisera to tubulin confirms that colchicine disrupts the microtubules in all three cell lines at similar concentrations (0.1 to 1 microM) to those required to increase the percentage of elongated cell colonies in Rama 25. The DNA synthesis inhibitor cytosine arabinoside fails to inhibit this conversion process, and time-lapse cinematographic studies confirm that the conversion of a cuboidal to an elongated cell can take place without cell division. However, cell division may sometimes be required for subsequent stabilization events. Treatment of Rama 25 cells with colchicine under the same conditions also increases the abundance of elongated cell (Rama 29)-associated polypeptides, and elongated cell clones isolated after such treatment show an overall pattern of protein synthesis very similar to that of Rama 29.     

Enhanced synthesis of basement membrane proteins during the differentiation of rat mammary tumour epithelial cells into myoepithelial-like cells in vitro

Rama 25, an epithelial cell line obtained from a dimethylbenzanthracene-induced rat mammary tumour differentiates spontaneously in culture forming elongated myoepithelial-like cells. The elongated cells form multilayered ridge structures from which cultures of elongated cells, relatively uncontaminated by epithelial cells, can be obtained. By using immunofluorescence techniques, both the elongated cells and the cells in ridges, but not undifferentiated Rama 25 cells, have been demonstrated to synthesize three basement membrane proteins, laminin, type IV collagen, and fibronectin. The identity of these basement membrane proteins has been confirmed by immunoprecipitation. These proteins appear to be located in a fibrillar extracellular matrix. We suggest that the ability to synthesize basement membrane proteins by mammary epithelial cells in vitro on plastic is a characteristic of myoepithelial-like cells.     

Synthesis of basic fibroblast growth factor upon differentiation of rat mammary epithelial to myoepithelial-like cells in culture

Acidic fibroblast growth factor (aFGF) mRNA was detected in a rat mammary fibroblastic cell line, but not in rat mammary epithelial cell lines or myoepithelial-like cell lines. Basic FGF (bFGF) mRNA was detected in both the fibroblasts and the myoepithelial-like cells, but was absent from the epithelial cells. A series of cell lines representing stages in the differentiation pathway of epithelial cells to a myoepithelial-like morphology showed an increase in the amount of bFGF mRNA and activity present and the FGF from the myoepithelial-like rat mammary 29 cells was able to displace [125I]-bFGF specifically bound to rat mammary fibroblasts. FGF activity was also present in an extract of rat mammary gland. Analysis of cell extracts and conditioned medium indicated that FGF activity was cell-associated. The cell-associated bFGF was resistant to degradation by trypsin. Extraction of myoepithelial-like cells with Triton X-100 and 2 M NaCl showed that 50-65% of the cell-associated bFGF was in a detergent-resistant but 2 M NaCl-labile structure. Thus, the synthesis of bFGF is developmentally regulated in rat mammary cell lines, and at least 50% is present in the extracellular matrix.     

Isolation and properties of rat cell lines morphologically intermediate between cultured mammary epithelial and myoepithelial-like cells

The cloned cuboidal epithelial cell line Rat Mammary (Rama) 25 converts at low frequency in culture to elongated cells that possess some of the properties of myoepithelial cells; one such clonal cell line is termed Rama 29. Three morphologically intermediate clonal cell lines have been isolated from Rama 25 which form a morphological series in the order: Rama 25 cuboidal cells, Rama 25-Intermediate 2(I2), Rama 25-I1, Rama 25-I4, and Rama 29 elongated cells. This same order is largely maintained for increasing percentages of elongated cells, decreasing percentages of cuboidal cells, decreasing tubular structures on collagen gels, and increasing times of appearance of tumors in nude mice. The fully elongated cells fail to revert to cuboidal cells and to form tumors. Binding of antisera to epithelial-specific milk fat globule membranes and human keratin declines whereas binding of antisera to myoepithelial-associated laminin, vimentin, and Thy-1 increases in the cell lines in the same order. Similarly 7 polypeptides characteristic of elongated cells increase and 4 polypeptides characteristic of cuboidal cells decrease in the cell lines in the same way. Anti-actin serum binds equally to all cell lines grown on plastic, except for Rama 25-I4, where its binding is increased. Rama 25-I1 and Rama 25-I4 cells also give rise to anti-actin, anti-myoglobin, and phosphotungstic acid hematoxylin-staining giant, striated cells on collagen gels and in tumors that also have ultrastructural characteristics of skeletal muscle. Fresh elongated converts of Rama 25 bind appreciably more anti-actin serum than many of the clonal elongated cell lines such as Rama 29. Ultrastructural analysis confirms the gradual loss of epithelial characteristics and the acquisition of immature myoepithelial characteristics in the same sequence of cell lines. It is suggested that such a linear sequence of intermediate morphological states occurs between the Rama 25 cuboidal cells and the elongated myoepithelial-like cells in vitro, and that a similar morphological sequence may exist in terminal ductal structures in vivo.     

The identification of a normal rat gene located close to the gene for the potential myoepithelial cell calcium-binding protein, p9Ka

The potential calcium-binding protein p9Ka is related to S-100 protein and the vitamin D-dependent intestinal calcium-binding protein. p9Ka accumulates abundantly in cultured rat mammary myoepithelial-like cells but is very much less abundant in the parental cuboidal epithelial cells. p9Ka mRNA is found in normal rat mammary gland, and preliminary experiments suggest that it is found in the mammary myoepithelial cells. A 17-kilobase pair fragment of cloned normal rat DNA contains the gene for p9Ka, but it also contains the gene for two additional polypeptides of molecular mass 6 kDa that are resolved as two isoelectric focusing variants by two-dimensional gel electrophoresis. These two isoelectric focusing variants correspond to two abundant polypeptides present in the cultured myoepithelial cells and probably arise from postsynthetic modification of the product of a single gene. The mRNA for the product of this gene and the p9Ka mRNA are both found in the normal rat mammary gland, but these two mRNAs are differentially expressed in certain tumor-derived rat cell lines.     

Isolation and differentation of cloned epithelial cell lines from normal rat mammary glands

Summary Single-cell-cloned cell lines have been established from primary cultures of neonatal rat mammary glands. A representative cuboidal cell line, Rama 704, shows the presence of intermediate filamental proteins keratin and vimentin, and occasional cells express milk fat globule membrane antigens on their apical surfaces. Rama 704 cells grow as a cuboidal pavement in culture and produce hemispherical blisters or domes when confluent. Noteworthy ultrastructural features are the presence of junctional complexes, desmosomes, and apical microvilli typical of epithelia. Cells seeded within floating collagen gels with form a variety of multicellular outgrowths, some of which are ductlike in morphology and are composed of polarized cells surrounding a central lumen. The cuboidal cells produce elongated cells under conditions of high cell density and also when cells float off collagen gels and reattach to the plastic substrate. The former elongated cells have been cloned and three cel lines established: Rama 710, 711, and 712; the latter uncloned elongated cells are termed Rama 704E. The cloned elongated cells show an increase in the amounts of basement membrane proteins deposited, a lack of junctional complexes and microvilli, and an increase in the amount of rough endoplasmic reticulum compared with their parental cells. Rama 704E cells show an enhanced deposition of basement membrane proteins and increased amounts of actin in the cytoplasm over the elongated cell lines and contain microfilaments and pincocytotic vesicles similar to those seen in myoepithelial cells. All the elongated cells and lines fail to form ductlike structures within collagen gels. None of the cell lines form tumors in syngeneic rats although they all produce some tumors in nude mice, which are composed of cords of epithelioid cells and spindle cells in varying proportions. In addition, some of the Rama 704 tumors contain rhabdomyoblastic elements that penetrate the host fat pad. This is the first report of the isolation and characterization of a stable cuboidal cell line from a neonatal rat mammary gland. The Rama 704 cell line shows morphological and biochemical features of mammary epithelial cells and converts at high cell density to elongated cells that have also been cloned.     

Isolation of simian virus 40-transformed human mammary epithelial stem cell lines that can differentiate to myoepithelial-like cells in culture and in vivo

Simian Virus 40 (SV40) transformation of primary cultures of human mammary epithelial cells has yielded a cloned epithelial-like cell line and a representative, single-cell subclone. Although apparently homogeneous, both cloned cell lines can also yield small numbers of three other cell types. The more-elongated cell type can be obtained directly by replating cells from the medium of the epithelial-like cell cultures or by picking and culturing single cells to form representative lines. Immunofluorescent and immunocytochemical analysis of these cell lines growing on plastic or as tumor-nodules in nude mice for epithelial membrane antigens, various cytokeratins, various actins, laminin, Type IV collagen, the common acute lymphoblastic leukemia antigen (CALLA), and a 135-kDa glycoprotein confirm the epithelial nature of the epithelial-like cells and suggest a myoepithelial origin for the more-elongated cell type. Ultrastructural analysis largely confirms the results, although the myofilamental bundles can be scanty in the growing myoepithelial-like cells. The other two cell types are possibly related to the keratinizing and casein-secreting cells seen in the epithelial tumor-nodules before and after mating the mice, respectively. The myoepithelial-like cells produce 5- to 17-fold more laminin, Type IV collagen, CALLA, and the 135-kDa glycoprotein than the epithelial cells, and all of these antigens are preferentially found on myoepithelial cells in vivo. It is suggested that the SV40-transformed epithelial cell is an immortalized form of human mammary stem cell which can differentiate in culture and in vivo to myoepithelial-like cells.     

Bindings of the lectins Griffonia simplicifolia-1 and pokeweed mitogen mark discrete stages of myoepithelial-like differentiation of cell lines from the rat mammary gland

Individual single-cell-cloned cell lines of the different rat mammary (Rama) cell types have been tested for their ability to bind the lectins Griffonia simplicifolia-1 (GS-1) and pokeweed mitogen (PWM) using fluorescent, histochemical, and radioactive assays. Myoepithelial-like cell lines isolated from neonatal rat mammary glands and from nonmetastasizing tumors strongly bind GS-1 and PWM, whereas the corresponding epithelial and fibroblastic cell lines do not. When the epithelial cell lines are grown on floating gels of polymerised rat tail collagen, the basally situated or peripheral cells are stained strongly with peroxidase-conjugated lectins, whereas the apically or luminally situated cells are unstained. The capacity of cell lines intermediate in morphology between epithelial and myoepithelial-like cells to bind to GS-1 is as follows: Rama 25 epithelial less than Rama 25-12 less than Rama 25-11 less than Rama 25-14 less than Rama 29 myoepithelial-like cells, the same order as for other markers of myoepithelial cells. Conjugated PWM, however, binds only to the myoepithelial-like cell lines. Treatment of Rama 25 epithelial cells with agents that disrupt microtubules accelerates their conversion to elongated, myoepithelial-like cells in culture. The binding of cells to GS-1 is observed prior to, and that to PWM after, the major morphological change. It is suggested that the stepwise appearances of carbohydrate receptors for GS-1 and PWM mark discrete stages in the differentiation of epithelial to myoepithelial-like cells in culture, in the same way that they mark similar differentiation stages in ductal development in mammary glands of prepubertal rats.     

Different growth factors stimulate cell division of rat mammary epithelial, myoepithelial, and stromal cell lines in culture

A number of single-cell-cloned cell lines have been used to examine the growth-promoting effects of putative mammotrophic agents on the various cell types in normal and neoplastic rat mammary glands. A partially purified novel pituitary-derived growth factor stimulates only cuboidal epithelial cells to divide whereas fibroblast growth factor (FGF) stimulates the growth of stromal and myoepithelial-like cells. Epidermal growth factor (EGF) has a widespread but variable growth-stimulating action, but prolactin and growth hormone are essentially inactive when added alone at a concentration of 5 micrograms/ml. Phosphoethanolamine stimulates the growth of one epithelial cell line and a derivative myoepithelial-like cell line, but is inactive on the other cell lines tested. The use of defined cloned cell lines provides a direct and reproducible assay for the identification and purification of inducers of mammary growth.     

Differentiation of simian virus 40 transformed human mammary epithelial stem cell lines to myoepithelial-like cells is associated with increased expression of viral large T antigen

Cloned simian virus 40 (SV40)-transformed human breast epithelial cell lines can differentiate to myoepithelial-like cells, and these can be isolated as clonal cell lines. Immunofluorescent and immunocytochemical analysis of such cell lines growing on plastic surfaces, collagen gels, and as tumor-nodules in nude mice indicate that all the cell lines produce SV40 large T antigen, but that the production of this antigen is qualitatively increased in the myoepithelial-like cells and cell lines. The myoepithelial-like cell lines produce 4-6 times more immunoprecipitable large T antigen than the parental epithelial cells. The amount of mRNA for large T antigen is also increased by 3.5-5-fold in the myoepithelial-like cell lines when analysed by dot-blot or by Northern hybridisations. Thus, differentiation along the myoepithelial-like cell pathway is associated in these SV40-transformed cells with increased expression of the viral large T antigen. It is suggested that immortalization of primary breast epithelial cell cultures may be, in part, due to the expression of large T antigen preventing processes of terminal keratinization.     

Immunocytochemical identification of myoepithelial cells in normal and neoplastic rat mammary glands with the lectins Griffonia simplicifolia-1 and pokeweed mitogen

Peroxidase-conjugated Griffonia simplicifolia-1 (GS-1) and pokeweed mitogen (PWM) histochemically stain only the myoepithelial cells and not the epithelial or fibroblastic cells of rat mammary glands preserved in methacarn or glutaraldehyde and embedded in paraffin. This pattern of staining occurs in other rat exocrine glands except the pancreas, but is the reverse of that seen in most lining epithelium. The histochemical binding of GS-1 and PWM to myoepithelial cells is inhibited specifically by D-galactose and by polymers of N-acetylglucosamine, respectively. GS-1 and its subcomponent, GS-1-B4, also bind to extracellular structures similar to those stained by anti-laminin serum. At the ultrastructural level, both conjugated GS-1 and PWM bind to the plasma membrane of the myoepithelial cells, as well as to the adjacent basement membrane. Non-metastasizing rat mammary tumors produced by dimethylbenz[a]anthracene, by derivative epithelial stem-cell lines, and by a transplantable tumor all contain more elongated myoepithelium-like cells as well as cuboidal epithelium-like cells; both cell types are neoplastic. The more elongated myoepithelium-like cells are stained by GS-1 and PWM, whereas the cuboidal epithelium-like cells are unstained. Moderately and strongly metastatic rat mammary tumors produced by epithelial cell lines and by transplantable tumors, respectively, contain no such neoplastic cells that bind either lectin. We suggest that the carbohydrate receptors for GS-1 and PWM are consistent markers for the presence of the myoepithelial cell in normal and tumorous rat mammary glands.     

Characterization of a myoepithelial cell line derived from a neonatal rat mammary gland

A clonal, myoepithelial-like cell line has been obtained from a primary culture established from the mammary gland of a 7-d-old rat. In a number of respects, this cell line, termed Rama 401, resembles the myoepithelial cells of the mammary gland, especially when grown on floating collagen gels. The cells grow as multilayers on the gel surface and form branching structures that do not appear to contain a lumen. They are rather elongated, with irregular-shaped, flattened nuclei that contain large amounts of peripheral chromatin. Elongated processes project from the cell surface and numerous membrane pinocytotic vesicles can be seen. The cytoplasm is filled with linear arrays of 5- to 7-nm filaments with occasional dense foci. Cell junctions with associated 8- to 11-nm tonofilaments are also observed. Immunofluorescence techniques reveal actin and myosin filaments and also intermediate filaments of both prekeratin and vimentin types. Rama 401 cells secrete an amorphous material that, when an immunoperoxidase technique is used, stains with antibodies to basement membrane-specific type IV collagen. Localized densities of the cell membrane, which resemble hemidesmosomes, are located adjacent to these extracellular deposits. Immunofluorescence staining and immunoprecipitation techniques reveal that the cells also synthesize two other basement membrane proteins, laminin and fibronectin. The type IV collagen consists of two chains with molecular weights of 195,000 and 185,000.     

Appearance of basic fibroblast growth factor receptors upon differentiation of rat mammary epithelial to myoepithelial-like cells in culture

The binding of [125I]-epidermal growth factor (EGF) and [125I]-basic fibroblast growth factor (bFGF) to a number of single-cell cloned rat mammary cell lines was measured using a saturation assay. Similar numbers of high-affinity [125I]-EGF binding sites (KD 1.3 nM) were found in epithelial and myoepithelial-like cell lines. In contrast, high-affinity (KD 35-276 pM) [125I]-bFGF binding sites were present on fibroblastic and myoepithelial-like cell lines but were not detectable on epithelial cell lines. A series of cell lines representing stages in the differentiation pathway of epithelial cells to an elongated myoepithelial-like morphology showed a graded increase in the number of bFGF receptors. The sensitivity of a cell line to stimulation of DNA synthesis by bFGF correlated with the level of expression of bFGF receptors on the cellular surface. Complexes of cell surface receptors affinity-cross-linked to [125I]-bFGF were analysed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). In each case two distinct complexes having apparent molecular weights of 180 kDa and 160 kDa were observed.     

Epithelial organoids and mononuclear phagocytes from DMBA-induced mammary tumors of the rat secrete collagenase in vitro

The production of collagenase has been examined in primary cultures of multicellular epithelial organoids and of stromal cells isolated from DMBA-induced mammary tumors of the rat. Plastic culture dishes and dishes coated with collagen fibrils were used to study the effect of such a substrate on collagenase release. Cultures of 51-μm epithelial organoids consisted of cuboidal cells and a myoepithelial-like cell type which formed a continuous layer under the cuboidal cells. A transient low production of collagenase with an apparent molecular weight (MW) of 72 kD was detected on both substrates. Upon separation by trypsin only cuboidal cells released collagenase. Cultures of 27-μm organoids contained only few myoepithelial-like cells. On plastic, they formed dense monolayers of cuboidal cells and released more collagenase than the greater aggregates. On collagen fibrils, these organoids formed cords and ridges and collagenase production was about 4- to 6-fold higher. These results indicate that collagenase release is influenced by the nature of the interaction of cuboidal cells with the substrate on which they grow. Similar organoids prepared from virgin mammary glands failed to secrete collagenase on either substrate. Primary cultures of stromal cells derived from tumor tissues comprised one basic cell type that expressed a series of properties characteristic for monocytes/macrophages. These cultures were capable of producing collagenase with an apparent MW of 56 kD. Collagenase with a similar size was detected in the extracts of 51 from 65 mammary tumors.     

Elongated cells derived from rat mammary cuboidal epithelial cell lines resemble cultured mesenchymal cells in their pattern of protein synthesis

Two-dimensional gel electrophoresis has been used to identify polypeptide patterns characteristic of rat mammary cuboidal epithelial cells or mesenchyme-derived cells. Elongated cells and cell lines derived from cloned cuboidal epithelial cells in culture possess a polypeptide pattern which resembles that of the cultured mesenchymal cells rather than that of the cuboidal epithelial cells from which they were derived. These elongated converts also resemble cultured mesenchymal cells in possessing a Triton-insoluble matrix in which vimentin and not prekeratin predominates.     

Distribution and synthesis of type V collagen in the rat mammary gland

In the 100-day-old virgin and lactating rat mammary glands, type V collagen is mainly present in the interstitial connective tissue and in association with blood vessels. It is not present in the basement membrane region surrounding the ducts in mature virgin glands but is present in this region in neonatal and lactating glands. Ultrastructural localization of type V collagen reveals that it is mainly located on the basal surface (i.e., the surface in contact with the basement membrane) of epithelial but not myoepithelial cells. In addition, type V collagen is located on some interstitial collagen fibers and on a large number of granules that are in close proximity to the basal surface of both epithelial and myoepithelial cells. Immunofluorescence and biochemical studies indicate that several clonal mammary fibroblastic cell lines synthesize type V collagen in vitro. In some cell lines, type V collagen is secreted as an extensive fibrillar meshwork on the surface of the cells, whereas in other cell lines, it is secreted beneath the cells around their periphery. A number of mammary epithelial and myoepithelial-like cells, however, do not synthesize type V collagen in vitro.     

Regulation of rat mammary gene expression by extracellular matrix components

In the mammary gland the induction and maintenance of differentiation are dependent on both lactogenic hormones and the extracellular matrix (ECM). Since mammary epithelial cells differentiate on a basement membrane in vivo we have examined the effects of basement membrane components on the expression of milk protein genes in primary rat mammary cultures. We examined the effects of a basement membrane gel derived from the Englebreth-Holm-Swarm tumor as well as its major component, laminin, on the expression of a group of milk protein genes. We demonstrate that the basement membrane gel induces alpha-casein and alpha-lactalbumin (alpha-LA) accumulation up to 160- and 70-fold, respectively, of that on tissue culture plastic. Laminin, a major component of the basement membrane, also caused significant induction of these same proteins. In order to determine whether these ECM effects occurred at a translational or post-translational level, pulse-chase experiments were performed. These experiments demonstrated that a laminin substratum selectively effects milk protein turnover and secretion. In order to demonstrate whether ECM effects occurred at the level of steady state accumulation of mRNA we performed dot blot and Northern analyses using cloned cDNA probes for alpha-, beta-, and gamma-caseins and alpha-LA. These studies demonstrated that ECM components induced alpha- and beta-caseins up to 10-fold, and alpha-LA up to 3-fold, with no significant effect on gamma-casein. These results demonstrate that milk protein genes are not coordinately regulated by ECM components. Furthermore, since the amount of induction of milk proteins exceeds the amount of induction of mRNAs for these proteins, we conclude that in our system a major effect of ECM components is at the translational and/or post-translational levels. Based on these findings we propose a model in which basement membrane components effect mammary gene expression at multiple levels.     

Characterization of human mammary cell types in primary culture: Immunofluorescent and immunocytochemical indicators of cellular heterogeneity

Summary Parenchymal organoidal structures that were obtained from collagenase digestion of reduction mammoplasty specimens of apparently normal human breasts have been grown in short-term primary cultures, either on plastic or on floating gels of polymerized rat-tail collagen. Three morphologically distinct major cell types are readily observed in both systems: cuboidal cells, which occupy apical positions on collagen gels; larger, epithelioid, or basal cells on gels; and elongated cells which penetrate into the gel. In addition, a fourth cell type, that of a large, flat cell, is observed less readily by phase contrast microscopy on the surface of cultures grown on plastic. Immunofluorescent and immunocytochemical staining of cultures on plastic or histologic sections of cultures on gels have been undertaken with antisera and other histochemical reagents that stain the different parenchymal cell types in vivo. Thus antisera to epithelial membrane antigen(s), monoclonal antibodies (MABs) to the defatted mammary milk fat globule membrane, peanut lectin, and keratin MAB LE61, which preferentially stain the epithelial cells of ducts in vivo, also stain the cuboidal/apical cells in vitro. The large, flat cells are stained intensely by the first three reagents but not by the last one. Antisera to collagen IV, laminin, fibronectin, actin, keratin MAB LP34, MABs to the common acute lymphoblastic leukemia antigen, and MAB LICR-LON-23.10, which showed enhanced staining for the ductal myoepithelial cells in vivo, also stain the epithelioid/elongated cells in vitro. However, the effect of the last four reagents is reduced considerably in most elongated cells, and MAB LP34 stains the large, flat cells intensely. Heterogeneous cells of intermediate morphologies and staining patterns between the cuboidal/flat cells and large epithelioid cells have also been identified. The results suggest that the cuboidal cells and large, flat cells are related to mammary epithelial cells, whereas the large epithelioid/elongated cells have some characteristics of myoepithelial cells, and that intermediate forms may exist in culture between the two parenchymal cell types. This work was supported in part by the Ludwig Institute for Cancer Research and the Cancer and Polio Research Fund. Dr. M. J. Warburton is supported by the Cancer Research Campaign.