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.     

Characterization of cells cultured from early lactation milks

Summary Two major types of cells can be cultured from early lactation human milks: a colony-forming epithelial cell and an adherent nondividing cell referred to as a foam cell The epithelial cells show a positive reaction with a specific antiserum reactive against membrane components of the milk fat globule, whereas the foam cells do not. The nondividing foam cells are phagocytic and can be killed by silica particles; they produce lysozyme, are resistant to trypsinization, and have Fc receptors. These properties, together with the lack of reaction with antiserum to the milk fat globule membrane, suggest that the foam cells are not terminally differential epithelial cells, but tissue macrophages. R. L. C. was supported by Grant No. Ca 19455 from the National Cancer Institute, a Yamagiawa-Yoshida Memorial International Cancer Study Grant, and the Imperial Cancer Research Fund. J. A. P. was supported by Grant No. CA 19455 from the National Cancer Institute.     

Dome formation of keratin-containing agranular cells from rat anterior pituitary gland in vitro

Summary A certain kind of cell in the pituitary gland exhibited immunoreactive keratin and dome formations in vitro. We obtained epithelial cells, which were able to subculture, from the outgrowth of anterior pituitary organ cultures. These cells lacked hormone secretory granules and exhibited immunoreactive keratin. Furthermore, they produced dome formations or cystic structures in monolayer culture and under three-dimensional culture condition using type I collagen gel. Dome formation was stimulated by dibutyryl cyclic AMP (dbcAMP, 10⁻³ to 10⁻⁵ M). Their responsiveness to dbcAMP is similar to that of several other epithelial cells that possess transport functions in vivo and in vitro. Although the origin of our cultured cells is unknown, these cells formed dome formations that possessed transport function and were related to cystic structures in the pituitary gland in vivo. The study was supported by Grants in Aid for Scientific Research 60570018, 60870002 (for Dr. H. Ishikawa), and by The Science Research Promotion Fund from Japan Private School Promotion Foundation (for Dr. H. Ishikawa).     

Effect of serum on cells cultured from human mammary tumors

Summary Clusters of cells derived from biopsy specimens of human mammary ductal carcinomas form two morphologically distinct epithelial colonies in culture, designated as E and E′. The proportion of E′ cell clusters that attached and formed colonies ranged from 0.3 to 13.0% with different tumors. Attachment was independent of tumor grade. Microscopic observations revealed that the survival of E′ cell colonies was limited to approximately 10 days with rapid cell degeneration commencing about 7 days. A comparison of sera showed that colony formation by cells from malignant tumors during the 1st week of culture was maximum in the presence of fetal bovine serum. Human serum alone was 70 to 100% less effective in promoting E′ colonies. The most significant finding was that human serum from normal donors inhibited E′ colony development in the presence of FBS. Although human serum was less effective than FBS in promoting colony formation by clusters of E cells, an inhibition was not observed. Inhibitory activity could not be attributed to either antagonistic hormones or the source of human serum. THese results demonstrate that normal human serum contains a factor(s) that exhibits an inhibitory activity specific for human epithelial cells (E′) derived from malignant tumors. Supported by NCI Contract CB-33898 and a Fellowship from the Imperial Cancer Research Fund, London, England.     

Histochemical identification of cultured cells from human endometrium

Summary Histochemical techniques have been applied to the identification of cell types cultured from human endometrium. Previous work from this laboratory characterized two principtal cell types found in cultures of endometrium: a mature epithelial cell and another cell which was classified as the endometrial stromal cell based on light and electron microscopy. In this report we compare the histochemical staining of endometrial tissue in frozen sections to that of cultured cells. These results confirm the epithelial and stromal nature of the respective cell types. Several markers were found that could distinguish between cells of epithelial and stromal origin. The enzymes alkaline phosphatase, γ-glutamyltranspeptidase, peroxidase, and β-glucuronidase were localized in glandular and surface epithelia in frozen sections and in colonies of epithelial cells in culture. Stroma in frozen sections and cultured stromal cells contained leucine aminopeptidase and fibronectin. Epithelial sections and in culture could also be distinguished from cells of stromal origin by preferential binding of lotus and peanut lectin. Several other markers were found in both endometrial epithelium and stroma. J. M. S. was recipient of National Research Service Award CA09156 (National Cancer Institute); K. G. N. was recipient of National Research Service Award ES07017 (National Institute of Environmental Health Sciences); and D. G. K. was recipient of Research Career Development Award CA00431 from the National Cancer Institute, Bethesda, MD. Supported by Grant CA 31733 from the National Cancer Institute, Bethesda, MD.     

Morphogenetic behavior of simian virus 40-transformed human mammary epithelial stem cell lines on collagen gels

Summary Transformation of primary cultures of human breast cells with simian virus 40 and clonal selection has yielded single-cell-cloned, epithelial cell lines, as well as myoepithelial-related cell lines. When grown on floating collagen gels, the epithelial cell lines give rise to branching rays of cells, thick fingerlike protrusions, saclike structures, and degenerating areas. The myoepithelial-related cell lines give rise only to the branching rays. Epidermal growth factor stimulates the production of the thick protrusions, whereas cholera toxin stimulates the production of the degenerating areas. Immunocytochemical staining of these cultures using reagents directed against the cell surface-extracellular matrix or the cellular cytoskeleton confirms the epithelial and myoepithelial nature of the cells, and demonstrates that the degenerating areas are undergoing squamous metaplasia. The fingerlike protrusions consist of cords of cells composed of inner, epithelial and outer, myoepithelial-related cells sometimes surrounding a central lumen reminiscent of ducts. The saclike structures resemble alveoli. Ultrastructural analysis confirms the identification of the basic cell types and also identifies indeterminate cells possessing features of both epithelial and myoepithelial cells. It is suggested that the epithelial cell lines represent human mammary stem cells that can undergo processes of morphogenesis and differentiation in vitro to form many of the three-dimensional structures found within the breast. This work was supported by the North West Cancer Research Fund and the Cancer and Polio Research Fund.     

Nuclear accumulation of a heat-shock 70-like protein during herpes simplex virus replication

A monoclonal antibody defines an antigen, p68, related to hsp70, which is located in nuclei of uninfected exponential cells. Nuclear p68 is released by DNase but not RNase treatment suggesting an association with DNA. Lytic productive infection of confluent quiescent BHK 21 cells with herpes simplex virus type-2 causes p68 to accumulate in nuclei. The effect is specific for HSV-2, and does not occur in HSV-1 infected cells. Maximum nuclear accumulation of p68 requires virus DNA synthesis although a significant accumulation occurs in the absence of such synthesis. It is suggested that the nuclear accumulation of p68 is an aspect of a cellular stress response to lytic infection with HSV-2.Imperial Cancer Research Fund, Tumour Immunology Unit.     

Monolayer culture of human endometrium: Methods of culture and identification of cell types

Summary Monolayer cultures can be established from human endometrial tissue after enzymatic dispersal into isolated glands or single cells. Three cell types that have distinct morphology by light and electron microscopy are observed in the resulting primary cultures. One cell type, an elongated spindle cell, is similar in appearance to fibroblasts derived from other tissues. A second cell type forms colonies of tightly cohesive cells, ranging in shape from oval to polygonal. These cells have typical organelles and junctional complexes characteristic of epithelial cells from the endometrium. The third cell type assumes a pavement-like appearance composed of polygonal cells when viewed by phase contrast microscopy, but lacks distinctive ultrastructural features of epithelial cells. These cells in culture resemble the endometrial stromal cell, the predominant cell type of the human endometrium in vivo. The epithelial cell does not survive subculturing but the other two cell types can be passaged through several generations and can be stored in liquid nitrogen and subsequently returned to culture. This work was supported by contract N01-CP75956 and grant R01-CA31733 from the National Cancer Institute. V. A. Varma is a recipient of an American Cancer Society fellowship; B. H. Dorman, a predoctoral fellowship from the Chemical Industry Institute of Toxicology; J. M. Siegfried, a training grant (CA09156) from the National Cancer Institute; and D. G. Kaufman, a Research Career Development Award (K04-CA-00431) from the National Cancer Institute.     

Establishment of a primary culture model of mouse uterine and vaginal stroma for studying in vitro estrogen effects

Effects of 17beta-estradiol (E2) on uterine and vaginal epithelial cell proliferation could be mediated by stromal cell-derived paracrine factors. To study the epithelial-stromal interactions in mice, an in vitro model of uterine and vaginal stromal cells of immature mice is essential. Therefore, we established a primary culture model of stromal cells both from uterus and vagina and examined the effect of E2 on proliferation of cultured stromal cells. We found that E2 stimulated proliferation of stromal cells from both organs in vitro, showing an increase in the number of cells and the percentage of 5-bromo-2'-deoxyuridine (BrdU)-labeled cells. Interestingly, vaginal stromal cells responded to lower E2 than uterine stromal cells in proliferation (10(-12) M vs. 10(-8) M) and BrdU labeling (10(-14) - 10(-10) M vs. 10(-10) - 10(-6) M). To examine the effect of E2 in vivo, cells were grafted into the subrenal capsule of the host mice and grown for 2 weeks. The BrdU labeling in cultured stromal cells was increased by E2 in vivo. To examine the effect of cultured stromal cells on epithelial cell proliferation, uterine and vaginal epithelium of adult mice were separated, recombined with the cultured stromal cells, and grafted under the renal capsule of hosts for 3 weeks. Epithelial cells recombined with cultured stromal cells showed simple columnar morphology in uterine grafts and stratified and keratinized morphology in vaginal grafts under the influence of the hormonal environment of the hosts. The BrdU labeling in epithelial cells was increased by E2, suggesting that cultured stromal cells can stimulate epithelial cell proliferation. In conclusion, we established a primary culture model of uterine and vaginal stromal cells, which can be mitogenically stimulated by E2 in vitro and in vivo after being grafted under the renal capsule. This culture system will be useful for investigating the underlying molecular mechanisms of uterine and vaginal epithelial-stromal interactions.     

Morphology and growth potential of stromal cell cultures derived from human endometrium

Summary Propagable cell cultures derived from human endometrial tissue were determined to contain cells predominantly of stromal cell origin based on their morphologic resemblance to endometrial stromal cells. These features included nexi, solitary cilia, and predecidual cytology. In addition to morphology the cell cultures retained a normal karyotype and responded to steroid hormones as evidenced by cellular aggregation. The stromal cells were evaluated for a variety of characteristics associated with transformed cells and seemed to be biologically normal without neoplastic phenotypes. Growth potential of the stromal cell cultures was also characterized in normal maintenance medium, in nutritionally depleted medium with reduced levels of calcium or serum, and in medium with increased levels of serum. The prolonged survival of the stromal cells in vitro coupled with the retention of in vivo characteristics and an absence of neoplastic phenotype provides a human cell system that is amenable to a variety of long-term experimental analyses. This work was supported by contract CP75956 and grant CA31733 from the National Cancer Institute. B. Hugh Dorman was the recipient of a predoctoral scholarship from the Chemical Industry Institute of Toxicology. Jill M. Siegfried was supported by National Research Service Award CA09156. David G. Kaufman is the recipient of a Research Career Development Award (CA00431) from the National Cancer Institute.     

Human pancreatic adenocarcinoma: In vitro and in vivo morphology of a new tumor line established from ascites

Summary A human pancreatic tumor cell line has been established from the ascites of a patient with histopathologically confirmed adenocarcinoma of the head of the pancreas and maintained for more than 12 months in the laboratory. Epitheloid tumor cell colonies, which resulted from primary tissue cultures of the ascitic cell component, were mechanically isolated by needle micromanipulation. Tumorigenicity was proven in athymic nude mice. Morphologically the pancreatic tumor epithelial cells grew to confluency with moderately tight adhesion to the culture plastic surface and with free-floating cells in the medium. Upon re-establishment of the tumoral xenograft in tissue culture, the epithelial cells retained their original morphology. Histologically the tumor grown in nude mice exhibited prototypic characteristics of the primary adenocarcinoma in the patient, producing abundant mucin and displaying a broad spectrum of glandular differentiation, which ranged from well to poorly differentiated adenocarcinomas with occasionally localized lymphocytic infiltrations. Furthermore, the tumor expressed carcinoembryonic antigen and human pancreas cancer associated antigen. This tumor line, designated AsPC-1, has been cultured for at least 10 passages in vitro and 3 in vivo. It represents a new model for human pancreatic cancer. This work was supported in part by Research Grant CA-18410 awarded by the National Cancer Institute through the National Pancreatic Cancer Project.     

In vitro deregulation of markers characteristic of human prostate epithelial cells

We have screened primary cultures of human prostate for the expression of markers reported to be characteristic of specific cell lineages in vivo, in order to ascertain whether human prostate cells in vitro maintain and reflect their in vivo differentiated phenotypes and to evaluate the homogeneity of the populations of cells that can be derived from this tissue. Using single and dual stain immunofluorescent microscopy to analyse very early organoid and subsequently derived monolayer stage cultures, we have observed that expression of markers characteristic of human prostate epithelial cells in vivo is deregulated within 48h, indicating that dissociation of human prostate tissue and cultivation of prostate epithelial cells in culture can result in promiscuous expression of cell type specific markers of prostate epithelial cells. These observations have important implications for studies of cell lineage and differentiation of prostate cells in vitro.     

Human mammary cell survival following ionizing radiation

We have developed and evaluated methods of culturing defined stromal and epithelial populations of normal human breast cells. These cell populations were used to generate radiation dose/survival curves. The epithelial cell population required specific hormones, growth factors, and conditioned media, as well as fibroblast feeder layers for clonal growth. Stromal cells grew well in a less complex medium. The stromal and parenchymal cell populations of the normal human breast were characterized by light and electron microscopy, immunohistochemical human fibronectin staining, gamma glutamyltranspeptidase histochemical staining, and cell sizing. Survival curves were generated using cells from four donors. The average D0 for epithelial cells was 122 cGy, with an average n value of 2.4. The average D0 and n values for stromal cells were 114 cGy and 2.0. The survival of human breast epithelial cells is compared to that of the cells of the rat mammary gland. The D0 values of both species are essentially the same, while the n value for human epithelial cells is lower. This difference in the n value may be a species specific response to radiation, or may merely reflect a difference in the two assay systems used to generate the survival curves.     

Characterization and co-culture of novel nontransformed cell lines derived from rat endometrial epithelium and stroma

Summary Normal and neoplastic growth of epithelial cells depends on mutual interactions between epithelial and stromal cells. As a tool for the study of the underlying molecular mechanisms, we have developed temperature-sensitive, nontransformed cell lines derived from rat uterine epithelium and stroma by transfecting primary cultures with a temperature-sensitive mutant of the SV40 large T antigen. The epithelial and stromal cell lines obtained shared relevant morphological characteristics with the primary cells from which they were derived. Immunocytochemical analysis showed that the epithelial cell lines expressed the intermediate filament cytokeratin, whereas the stromal lines expressed the intermediate filament vimentin. Alkaline phosphatase activity was present in all cell lines examined. All cell lines were anchorage dependent and did not form foci. One epithelial cell line expressed oxytocin mRNA, a gene product recently shown to be highly expressed in vivo in the uterine epithelium at term. If grown on Matrigel, this cell line formed domelike structures, a further characteristic of its differentiated phenotype. In an attempt to reconstitute an endometrium in vitro, epithelial cells were seeded on top of a layer of stromal cells. Paraffin cross sections showed that this in vitro system consisted of a bilayer structure. Four to five cuboidal epithelial cells were typically anchored atop one stromal cell, forming an endometriumlike tissue. The present in vitro system should provide a useful model for further studies on endometrial functions and epithelial/stromal cell interactions at a molecular level.     

Outgrowth in vitro of cervical epithelium separated from the uterovaginal anlage of newborn mice

Summary After gentle trypsinization, the pseudostratified columnar Müllerian epithelium that lines the uterine cervix of newborn mice could be separated from the enclosing stromal tissue. Pure epithelial tubes explanted in vitro and were allowed to grow in a standard medium for 3–4 days forming a confluent colony of rather closely-fitting cells. The cell sheet was studied by a preparatory technique that allows examination of a large number of cells with preserved intercellular spatial orientation. Attempts were made to identify cultured cells according to the morphology of cell types in the cervicovaginal epithelium in vivo.Electron micrographs revealed that, close to the explant, the cultured cell sheet exhibited several features similar to the Müllerian epithelium in vivo. Outside these central areas of the colony was a broad transitional zone consisting of thin platelike cells distinguished by an abundance of microfilaments. At the periphery of the colonies, bulky cells possessing microvilli and a vacuolated cytoplasm tended to overlap adjoining platelike cells. These bulky cells had a morphology resembling that of the superficial cells seen in the upper vagina and common cervical canal of immature and diestrous animals. The epithelial development in the cultures apparently simulated the transformation in vivo from a pseudostratified Müllerian epithelium in the newborn to a stratified epithelium resembling that of the uppermost vagina and common cervical canal of immature animals. Judged by morphological and cytochemical criteria, the Müllerian cells in the outgrowth obviously had many changed features. It thus seems questionable whether the cells grown in vitro are comparable with the corresponding cells in vivo when used for experiments requiring the controlled conditions of the culture environment.Supported by grants from the Norwegian Research Council for Science and the Humanities and from the Norwegian Cancer Society     

Cell replication and aging: in vitro and in vivo studies.

The relationship between human aging and cell replication has been investigated using two complementary approaches: in vitro studies of human fibroblasts derived from young and old volunteer members of the Baltimore Longitudinal Study and in vivo examinations of bone marrow cell populations from young and old mice and rats. Total proliferative capacity measured as either the onset of cell culture senescence or as in vitro life span was significantly diminished in cell cultures derived from old human donors when compared to parallel cultures established from young donors. Acute replicative abilities as measured by percent replicating cells, cell pupulation doubling time, cell number at confluency, and colony size distribution were also significantly decreased in human old cell populations. An in vivo cytogenetic technique for measuring cell replication was developed utilizing the differential staining properties of metaphase chromosomes of cells that have replicated in the presence of bromodeoxyuridine. With this technique, cell cycle times have been derived in vivo as well as in vitro. Preliminary in vivo results in both mice and rats indicate that cell replication is slowed in old animal cell populations. Further research will be directed both in vitro and in vivo at discerning the mechanisms for this impairment of cellular replication with aging.     

Enhancement of rat ACT-1 tumor clonogenicity by xenogeneic mouse macrophages

Summary In vitro growth of rat atriocaval epithelial tumor cells (ACT-1) was enhanced by the inclusion of xenogeneic mouse adherent peritoneal exudate cells (PECs) in a two-layer soft agar system. A linear relationship was found between the number of cells plated and the number of colonies when ACT-1 tumor cells were plated at plating densities of between 1 and 5×10⁵ cell/60 mm plate (r=0.9,P<0.001). Inclusion of irradiated PECs in the bioassay for tumor stem cells resulted in a two and a half-fold increase in colony formation in three separate experiments (P<0.001). This work was supported by grants from the Cancer Research Trust, the University of Otago Cancer Research Fund and by the Medical Research Committee (Golden Kiwi).     

A novel tissue-slice culture model for non-malignant human prostate

A novel tissue culture system was established for modeling the non-neoplastic human prostate in vitro. Precision-cut prostate slices were cultivated in culture plates with a gas-permeable base in a novel serum-free mixture. Cultivated specimens was evaluated by an immunohistochemical analysis of cytokeratins 18 and 14, androgen receptor (AR), prostate specific antigen (PSA), prostate acid phosphatase (PAP), and the endothelial cell marker von Willebrand factor. Epithelial viability in the presence and absence of dihydrotestosterone (DHT) was also assessed. Satisfactory maintenance of glandular cytoarchitecture was observed in the presence of DHT with approximately half of the glands displaying a columnar or cuboidal phenotype and an intact layer of basal cells. In the absence of DHT, the corresponding percentage was significantly lower. The occurrence of involutive changes and epithelial cell death was significantly higher in the absence of DHT. Glandular and stromal cells maintained their capacity to express AR. PSA and PAP were expressed throughout the culture period, albeit at a lower level than in uncultured tissue. The viability of endothelial cells differed markedly between individual samples. During culture, the tissue slices became covered with epithelial cells originating from glands that were cut open during tissue slicing. This cell layer consisted of a stratified basal compartment overlaid by cells with a luminal phenotype. The present culture system provides a novel in vitro setting in which to study normal human prostate biology and pathobiology and may help to obviate problems related to the use of established cancer cell lines and animal models. This study was supported by grants from competitive research funding of the Pirkanmaa Hospital District, TEKES Drug 2000, and the Juliana von Wendt Fund.     

Rabbit sperm function after co-culture with uterine epithelial cells

The effects of spermatozoa:uterine epithelial cell interactions in vitro on various sperm functions were studied using monolayers of uterine epithelial cells, endometrial stromal cells and fetal fibroblasts. Epithelial and stromal cells were isolated from uteri of rabbits in estrus, while fibroblasts were derived from 12-d-old rabbit fetuses. Twenty-nine to 31 h after culture initiation, washed, ejaculated rabbit spermatozoa were incubated with epithelial cells, uterine stromal or fetal fibroblastic cells, medium or conditioned medium. Sperm viability and loss of acrosome were measured after 10 to 20 h of incubation. Progressive sperm motility and fertilizing ability, which was assessed by an in vivo fertilization assay, were determined after 12 h co-culture. Sperm viability decreased throughout the culture period and was not affected by treatment. Sperm co-cultured with epithelial cells or incubated in medium had fewer acrosomes after 20 h than after 10 h. Fewer sperm co-cultured with stromal or fibroblastic cells lost their acrosomes. Progressive motility was positively affected by sperm-epithelium interaction as 39% of the co-cultured sperm were motile compared with 18% of the sperm incubated in media. In vivo fertilization experiments suggested that sperm incubated with epithelial cells or in medium had similar fertilizing ability. The co-culture of sperm with uterine cells provides an in vitro model to evaluate the effect of gamete-genital tract interaction on sperm function.