Growth and differentiation of the cultured secretory cells of the cow oviduct on reconstituted basement membrane

H. pylori-encoded CagA disrupts tight junctions and induces invasiveness of AGS gastric carcinoma cells via Cdx2-dependent targeting of Claudin-2

Helicobacter pylori encoded CagA is presently the only known virulence factor that is injected into gastric epithelial cells where it destroys apical junctional complexes and induces dedifferentiation of gastric epithelial cells, leading to H. pylori-related gastric carcinogensis. However, little is known about the molecular mechanisms by which CagA mediates these changes. Caudal-related homeobox 2 (Cdx2) is an intestine-specific transcription factor highly expressed in multistage tissues of dysplasia and cancer. One specific target of Cdx2, Claudin-2, is involved in the regulation of tight junction (TJ) permeability. In this study, our findings showed that the activity of Cdx2 binding to Cdx binding sites of CdxA (GTTTATG) and CdxB (TTTTAGG) of probes corresponding to claudin-2 flanking region increased in AGS cells, infected with CagA positive wild-type strain of H. pylori, compared to CagA negative isogenic mutant-type strain. Moreover, Cdx2 upregulated claudin-2 expression at transcriptional level and translational level. In the meantime, we found that TJs of AGS cells, infected with CagA positive wild-type strain of H. pylori, compared to CagA negative isogenic mutant-type strain, were more severely destroyed, leading to wider cell gap, interference of contact, scattering and highly elevated migration of cells. Herein, this study is firstly demonstrated that H. pylori-encoded CagA disrupts TJs and induces invasiveness of AGS gastric carcinoma cells via Cdx2-dependent targeting of Claudin-2. This provides a new mechanism whereby CagA induced dedifferentiation of AGS cells, leading to malignant behavior of biology.

Bovine oviductal epithelial cells: their cell culture and applications in studies for reproductive biology

Epithelial cells of the mammalian oviduct play an important role in reproductive and developmental events that occur there. Oviductal epithelial cells from several mammalian species can be isolated and cultured in serum or serum-free medium in vitro and cell culture of bovine oviductal epithelial cells (BOEC) has been described by many investigators. Cultured BOEC show a wide variety of secretory activities and these secretory factors may influence early embryonic development or sperm function. Monolayer cultures of BOEC have been widely used for in vitro co-culture of bovine preimplantation embryos. The use of BOEC co-culture systems has improved embryonic development in nearly all the studies conducted. In addition, interaction of bovine spermatozoa with BOEC, in a similar manner to that observed for spermatozoa in vivo, induced specific changes in sperm capacitation and consequently improved the fertilizing capacity of bovine spermatozoa in vitro. Thus co-culture systems with BOEC may not only offer an excellent model for studying the mechanisms of capacitation and acrosome reaction of bovine spermatozoa but also provide a useful tool for the improvement of embryo development in vitro.

Isolation and characterization of oviduct-specific glycoproteins from ampulla and isthmus parts of cyclic and acyclic buffalo for studying differential microenvironment

The present study characterized the glycoproteins synthesized by buffalo oviduct. Scanning electron microscopy analyses of the ampullary and isthmic segments of cyclic and acyclic buffaloes showed ultrastructural variations in ciliated and nonciliated cells. Mucosal proteins were extracted by scrapping of different segments of oviduct and, after centrifugation, the remainder tissues were subjected to establish primary cell culture system of oviduct epithelial cells and conditioned media were prepared. Time- and concentration-dependent effects of trypsinization on the establishment of primary monolayer culture showed that 0.25% trypsin for 1-2 min at 37 °C were the optimal conditions. Total protein content in oviductal tissues and conditioned media was quantified and analyzed by SDS-PAGE which showed marked variation in different segments of the oviduct. Western blot analysis revealed five major oviduct-specific glycoproteins (OGPs) in cyclic oviduct (ampulla and isthmus) with Mw 180, 95, 75, 66 and 35 kDa in the oviduct extract and two glycoproteins with Mw 95 and 66 kDa in conditioned media. However, in acyclic oviduct (ampulla and isthmus), three glycoproteins were immunostained with Mw 180, 95 and 66 kDa in the oviduct extract and one glycoprotein with Mw 66 kDa in conditioned media. Indirect Enzyme-Linked Immuno Sorbent Assay (ELISA) results showed significant differences of OGPs in different segments of cyclic and acyclic buffaloes and, thus, indicative of segmental variation in the synthesis and secretion of glycoproteins. Oviductal extract secretes more amounts of OGPs as compared to the conditioned medium. The role of these OGPs may be defined and exploited for influencing the fertilization process and/or subsequent embryonic development.

In vitro systems for intercepting early embryo-maternal cross-talk in the bovine oviduct

A comprehensive understanding of the complex embryo-maternal interactions during the preimplantation period requires the analysis of very early stages of pregnancy. These are difficult to assess in vivo due to the small size of the embryo exerting local paracrine effects. Specifically designed experiments and holistic transcriptome and proteome analyses to address the early embryo-maternal cross-talk in the oviduct require sufficient numbers of well-defined cells in a standardized experimental environment. The pronounced estrous cycle-dependent changes in gene expression and morphology of bovine oviduct epithelial cells (BOECs) clearly show that a precise definition of the stage of estrous cycle is essential for obtaining a well-defined homogenous population of functional cells. The number of intact cells isolated from individual ampullae by solely mechanical means was 10-fold higher than previously reported cell yields after enzymatic treatment, and the purity was comparable. Bovine oviduct epithelial cells have been cultured as monolayers or in suspension. Proliferating cells grown in monolayers dedifferentiated, with a concomitant loss of important morphologic characteristics. After several days in culture, BOECs in monolayers are less likely to mimic the oviduct environment in vivo than BOEC vesicles formed of epithelial sheets in short-term suspension culture. A 24-h culture system for BOECs isolated on Day 3.5 of the estrous cycle showed excellent preservation of morphologic criteria, marker gene expression, and hormone responsiveness. The short-term BOEC culture system provides well-defined and functional BOECs in sufficient quantities for studies of early embryo-maternal interactions in experiments that mimic the environment in the oviduct in vivo.

Preparation of gelled substrates

Gelled substrates can be used for a variety of in vitro and in vivo experiments. A type I collagen gelled substrate will promote cell growth and differentiation. Gelled Matrigel substrate promotes the survival of explanted cells and tissues and the differentiation of a variety of epithelial and endothelial cell types in vitro and to assess angiogenesis and increase tumor growth in vivo. Preparation of the matrices and their use are described in this unit.

Sperm binding properties and secretory activity of the bovine oviduct immediately before and after ovulation

The possibility that differences in hormonal regimes between the two oviducts in the cow around ovulation affects secretory activity of the oviduct epithelial cells and/or sperm-oviduct binding was studied. Oviducts were collected immediately after slaughter at 6 hr before to 5 hr after timed ovulation of 14 normally cyclic cows that had been inseminated (n = 6) or not (n = 8) and material obtained from the same cows was processed in three ways. First, in vivo, after artificial insemination of the cows, low numbers of sperm cells (approx. 15 per oviduct) were found within the entire oviducts as observed by scanning electron microscopy (SEM). Almost all sperm were located in the isthmus and then only on ciliated cells and showed without exception fully matured, intact morphology. Secretory activity of noninseminated oviduct epithelia was induced after ovulation which was most predominant in the pockets of the ipsi-lateral ampulla compared to the contra-lateral ampulla (P < 0.01). Second, ex vivo, explants dissected from oviducts of the noniseminated cows were incubated with sperm. In all cases, the sperm bound to the explants in a similar pattern as observed in vivo and this binding was strictly fucose-dependent. The main difference with in vivo experiments was the high numbers of sperm bound at any site of the oviduct ( approximately 3,000 cells per mm(2)) indicating the high sperm binding capacity of the oviduct epithelia. Ovulation induced a striking drop in sperm binding capacity in the oviducts and was most pronounced in the isthmus ( approximately 1,300 cells per mm(2); P < 0.001) and to a lesser extent in the ampulla ( approximately 2,000 cells per mm(2), P < 0.01). Third, in vitro, pieces of tissue dissected from oviducts of the noninseminated cows were cultured to mono-layers. Culturing epithelial cells resulted in loss of their normal morphological appearance. In all cases, the sperm binding capacity in monolayers was very low (<50 cells per mm(2)) when compared to corresponding explants (P < 0.0001). Sperm binding to monolayers originating from the isthmus (<25 cells per mm(2)) was lower than in those from the ampulla (40-50 cells per mm(2); P < 0.01) and remained similar after ovulation. In all three approaches, no significant differences were found in sperm-oviduct binding characteristics and sperm-distribution in the ipsi- versus contra-lateral oviducts. This indicates, that systemic endocrine changes around ovulation rather than specific oviduct changes at the ipsi-lateral oviduct induce secretion in oviduct epithelial cells, and thus induce sperm release.

Quantitative characterization of binding of small molecules to extracellular matrix

Extracellular matrix (ECM) is a major tissue component that, besides its cell support function, is implicated in cell-cell signaling, wound repair, cell adhesion, and other cell and tissue functions. For small molecules acting in tissues, including chemicals, signaling peptides, effectors, inhibitors, and other man-made and physiological compounds, non-specific binding to ECM is a critical phenomenon affecting their disposition. We describe here a method for a quantitative characterization of the ECM binding, using a solidified ECM layer incubated with medium containing studied small molecules. Working conditions of Matrigel, a commercial basement membrane preparation, were optimized in terms of the protein concentration, surface area, gel layer thickness, solidification time, and mixing speed. The release of proteins from the solidified layer into the buffer was monitored and taken into account. Two major proteins, laminin and collagen IV, dissolve at different rates. The Matrigel stability data, obtained under varying incubation conditions and gentle mixing, can also be useful in other ECM-related research. The experimental binding data, averaged over all binding sites, were analyzed assuming a fast linear binding. The binding constants were determined for 10 small organic molecules for both dissolved proteins and the solidified layer. The binding constants tend to increase with lipophilicity of the compounds, as characterized by the 1-octanol/water partition coefficients.

Collagen vitrigel: a novel scaffold that can facilitate a three-dimensional culture for reconstructing organoids

Three-dimensional reconstructed organoids in vitro are valuable for not only regenerative medicine but also drug development. However, the manipulation of conventional three-dimensional cultures is not simple. We describe a nylon membrane ring-embedded or a pressed silk sheet-embedded scaffold made of collagen "vitrigel" that can facilitate three-dimensional cultures for reconstructing an epithelial-mesenchymal model or a hard connective tissue model, respectively. Here we define vitrigel as a gel in a stable state produced by rehydration after the vitrification of a traditional hydrogel. The collagen vitrigel was successfully prepared in three steps involving a gelation process in which a cold and clear neutral salt solution containing type I collagen formed an opaque and soft gel by incubation at 37 degrees C, a vitrification process in which the gel becomes a rigid material like glass after sufficient drying out, and finally a rehydration process to convert the vitrified material into a thin and transparent gel membrane with enhanced gel strength. The framework-embedded collagen vitrigel scaffold that can be easily reversed by forceps was prepared by inserting a nylon ring or a silk sheet in the collagen solution prior to the gelation. The scaffold enabled culturing anchorage-dependent cells on both surfaces of the collagen vitrigel by the manipulation of two-dimensional cultures and consequently resulted in reconstructing a three-dimensional organoid. An intestinal epithelial-mesenchymal model was reconstructed by coculturing fibroblasts on the opposite side of monolayered Caco-2 cells on the nylon ring-embedded collagen vitrigel. Also, fibroblasts seeded on both surfaces of the silk sheet-embedded collagen vitrigel proliferated well and formed multilayers and some cells invaded into the vitrigel framed by the network of numerous strong silk filaments, suggesting a reconstruction of a hard connective tissue model. These data demonstrate that the collagen vitrigel is a valuable scaffold for tissue engineering.

A strategy for the development of tissue engineering scaffolds that regulate cell behavior

The cellular scaffold represents an extracellular matrix (ECM) in vivo and a culture substratum in vitro, and provides microenvironmental signaling cues based upon the architecture and component for cells. This review article discusses the development of ideal cellular scaffolds for maintaining the activity of functional cells, for regulating cell behavior, and for reconstructing three-dimensional multicellular masses (3-DMMs). Four culture technologies devising the materials of cellular scaffolds developed by author's group are also presented; the preparation of a multicellular spheroid utilizing a thermo-responsive polymer, the preparation of a three-dimensionally reconstructed multicellular mass (3-DRMM) with a medium circulating system utilizing cotton-gauze, a concept for organ engineering that can remodel an organ into a reconstructed organ by a continuous three-step perfusion to change the cellular scaffold, and a concept for cellomics study to culture cells on a substratum made of tissue/organ sections for histopathology (TOSHI-substratum) that conserve the microarchitecture and component of the original tissue in vivo. The former two tissue engineering technologies still lacked the method to design 3-DMMs with hierarchical tissue architectures based on cell lineages. To overcome this task, the latter two technologies that can convert tissue architecture in vivo into the three-dimensional culture mode in vitro were innovated.

Cell culture on thin tissue sections commonly prepared for histopathology

Thin tissue sections commonly prepared on a glass slide for histopathology retain many in vivo biochemical attributes related not only to structure but also function. We hypothesized that such tissue sections might serve as novel cell culture substrata that would reflect tissue conditions in vivo. Here we report the applicability of tissue section substrata to tissue reconstruction and serum-free culture. Four different cell types were cultured on section and acellularized section substrata prepared from a bovine placenta. The labyrinth region of the substratum induced cell differentiation to elicit the formation of multicellular spheroids of BeWo cells (human choriocarcinoma cells), a capillary network-like structure for CPAE cells (bovine pulmonary artery endothelial cells), and a neuronal network-like structure for PC-12 cells (rat pheochromocytoma cells). The substratum provided a microenvironment that maintained the viability of PC-12 cells in a serum-free culture. We also succeeded in preparing a multicellular mass of normal human dermal fibroblasts (NHDFs) involving acellularized section-derived components. This technology offers the novel investigation of cell behaviors induced by culturing different cell types on various tissue sections and will be a useful tool for identifying cell characteristics and clarifying the molecular mechanisms that regulate the behavior of each cell type.

The role of Plasmodium berghei ookinete proteins in binding to basal lamina components and transformation into oocysts

The ookinete is a motile form of the malaria parasite that travels from the midgut lumen of the mosquito, invades the epithelial cells and settles beneath the basal lamina. The events surrounding cessation of ookinete motility and its transformation into an oocyst are poorly understood, but interaction between components of the basal lamina and the parasite surface has been implicated. Here we report that interactions occur between basal lamina constituents and ookinete proteins and that these interactions inhibit motility and are likely to be involved in transformation to an oocyst. Plasmodium berghei ookinetes bound weakly to microtitre plate wells coated with fibronectin and much more strongly to wells coated with laminin and collagen IV. A 1:1 mixture of collagen and laminin significantly enhanced binding. Binding increased with time of incubation up to 10 h and different components showed different binding profiles with time. Two parasite molecules were shown to act as ligands for basal lamina components. Western blots demonstrated that the surface molecule Pbs21 bound strongly to laminin but not to collagen IV whereas a 215 kDa molecule (possibly PbCTRP) bound to both laminin and collagen IV. Furthermore up to 90% inhibition of binding of ookinetes to collagen IV/laminin combination occurred if parasites were pre-incubated with anti-Pbs21 monoclonal antibody 13.1. Some transformation of ookinetes to oocysts occurred in wells coated with laminin or laminin/collagen IV combinations but collagen IV alone did not trigger transformation. No binding or transformation occurred in uncoated wells. Our data support the suggestion that ookinete proteins Pbs21 and a 215 kDa protein may have multiple roles including interactions with midgut basal lamina components that cause binding, inhibit motility and trigger transformation.

First identification of caldesmon transcripts in bovine oviduct epithelial cells in vitro by means of an RNA differential display technique examining culture-induced expression changes

Innovative molecular biology techniques enable the quick evaluation of distinct gene expression pattern of cells or tissues. Hitherto, a cell-type-specific behaviour has been difficult to evaluate. In addition to standard morphological and immunological criteria in this study the expression of in vitro-cultured bovine oviduct epithelial cells (BOECs) was compared with fresh cells by RNA arbitrarily primed polymerase chain reaction (RAP-PCR). The cultured cells showed mitotic activity during the whole culture period (6 days) until they had reached about 80% confluency. Remarkable results of a random transcript screening using fresh versus cultured BOECs were reported, in which a single PCR product appeared during culture, but was absent in fresh cells. Sequence analysis of the culture-induced 522 bp fragment revealed a high homology (87%) to caldesmon (CaD) of various species and a 92% homology to a short cDNA fragment of a bovine non-muscle CaD. Specific, cross-species PCR primers were used to elongate this partial sequence (1,036 bp). This resulting cDNA showed an open reading frame and was identified as a bovine non-muscle CaD isoform. When compared with human non-muscle CaDs (89% homology) a deletion of 2 codons was observed. According to sequential culture experiments, CaD expression was not found in fresh BOECs but specific transcripts appeared within 48-113 h under specific culture conditions. It is likely that augmented CaD expression in cultured BOECs may reflect the cell effort adapting to specific culture conditions. The hypothesis that increased CaD levels could be important to facilitate adherence and spreading by formation of new stress fibres can be favoured. This first identification of caldesmon expression being specifically induced during in vitro culture demonstrates the potential of RAP-PCR for the analysis and validation of cell culture techniques.

Induction of thumbtack sperm during coculture with oviduct epithelial cell monolayers in a marsupial, the brushtail possum (Trichosurus vulpecula)

A reorientation of the sperm head so that it is perpendicular to the sperm tail (i.e., T-shape or thumbtack) is considered an indicator of sperm capacitation in the Australian marsupial the brushtail possum (Trichosurus vulpecula). This study describes a method of oviduct epithelial cell monolayer and sperm coculture in the brushtail possum to obtain a high percentage of thumbtack sperm. The oviduct epithelial cell (OEC) monolayers were prepared in vitro from the isthmal and ampullary segments of eCG- and LH-primed brushtail possum oviducts. Coculture experiments demonstrated that cauda epididymidal sperm from the brushtail possum attached equally to the OEC monolayers derived from the isthmal and ampullary segments of the oviduct. After 2 h of coculture, a large number of sperm attached to OEC monolayers (ampulla, 60.1+/-4.7% and isthmus, 63.1+/-5.7%) as well as to controls (tracheal epithelial cell monolayer, 46.2+/-3.7%; Matrigel, 57.4+/-7.7%; plastic, 29.2+/-3.2%). After 6 h, fewer sperm were attached to tracheal epithelial cell monolayers (1.2+/-0.2%; P<0.01) and Matrigel (10.2+/-2.5%; P<0.01), compared to those attached to ampullary and isthmal OEC monolayers (37.9+/-7.2% and 44.6+/-2.2%, respectively), and none were attached to the plastic surface. Fewer sperm were released from the ampullary and isthmal OEC monolayers compared to those from controls (P<0.05). At 6 h of coculture with ampullary and isthmal OEC, the percentage motility of both attached and unattached spermatozoa was maintained at 40-50%, which was higher (P<0.05) than in controls. Progressive motility of unattached sperm was maintained at about 2 (on an arbitrary scale of 1-5) and was not different among treatments until 6 h. More than 60-70% sperm were viable at 6 h of coculture in all the treatments. Coculture of brushtail possum epididymal sperm with OEC monolayers transformed 60% of motile streamlined spermatozoa to thumbtack orientation at 2 h compared to approximately 25% in controls. No acrosomal modifications were induced in spermatozoa in any of the treatments. This study has demonstrated a role of the oviduct in transforming a large number of sperm from a streamlined to thumbtack orientation, which may have relevance in sperm capacitation and fertilization in this species.

The derivation and characterization of pig keratinocyte cell lines that retain the ability to differentiate

Pig skin may be a very useful model for studying human skin biology, since its morphology closely resembles that of human skin. To manipulate pig keratinocytes in vitro, we have analyzed different culture conditions for optimal pig keratinocyte growth and describe here a simple method for culture and extended passage of primary pig keratinocytes on collagen substrates. The colony-forming efficiency and proliferative capacity of primary pig keratinocytes were readily supported by Type I collagen and a final calcium concentration of 0.075 microM. These culture conditions permitted efficient gene transfer into keratinocytes using various cationic lipids at a 4:1 ratio (lipid: DNA). In addition, immortalized pig keratinocyte cell lines, which maintained a normal phenotype, were derived using these optimized culture conditions. By karyotype analysis, two independently derived cell lines had the same chromosomal abnormalities, suggesting a causal role in their immortalization. The keratinocyte cell lines exhibited a differentiated phenotype in response to elevated calcium concentration and were nontumorigenic in in vivo tumor assays. Immortalized pig keratinocyte cell lines that maintain the ability to differentiation may become a valuable tool in the study of epidermal differentiation both in vitro and in vivo. In addition, methods using keratinocytes to deliver genes to pigs in vivo could also be enhanced with these pig keratinocyte cell lines.

Culture of bovine oviduct epithelial cells (BOEC)

BACKGROUND

Bovine oviduct epithelial cells are widely used in co-culture experiments to improve early embryonic development and in vitro fertilization in embryo transfer programmes for domestic animals.

METHODS

The present study compares different methods for harvesting and culture of bovine oviduct epithelial cells in order to optimize handling. Bovine oviduct epithelial cells were mechanically or enzymatically isolated and cultured on glass, on permeable membranes, or in suspension. Growth of the cells and their state of differentiation was examined by means of classical staining methods, immunohistochemistry and electron microscopy.

RESULTS

Initial cell suspensions contained sheets of ciliated and nonciliated (secretory) cells; 24 h after seeding, free floating epithelial cells formed vesicles with cilia on their external surface. First adhesion of cells was seen 72 h after seeding. Later on, cells grew continuously and confluent monolayers were formed after 7 days. Results were identical after mechanical or enzymatical cell harvesting and were identical on both substrata tested, i.e., on glass and on permeable membranes. Light and electron microscopy proved the monolayers to resemble a polarized, simple, cuboidal to columnar epithelial membrane with intact junctional complexes and numerous apical microvilli. Their epithelial nature was established by immunostaining for cytokeratins. Cilia were missing and secretory granules were scarce. A layer of acidic glycoprotein material was demonstrated on the apical surface. Monolayers of bovine oviduct epithelial cells stored lipid droplets and large quantities of glycogen. About 50% of the seeded cells did not adhere but survived in the culture medium as free floating cells. These suspended cells maintained morphological criteria of differentiation (cilia and secretory granules) until day 12 of culture. Proliferation rates of cultivated cells were determined by counting mitoses and by immunostaining with MIB1 antibody. Results showed coincidence of rapid proliferation and morphological dedifferentiation of monolayers. Suspended cells, by contrast, did not proliferate but retained cellular differentiation under identical culture conditions.

CONCLUSIONS

The results strongly suggest that monolayers of bovine oviduct epithelial cells will not fully substitute for original oviduct epithelium when used in co-culture experiments after in vitro fertilization.

Characterization of bovine oviduct epithelial cell monolayers cultured under serum-free conditions

We have developed a culture system for early bovine embryos in serum-free media conditioned by oviduct cell monolayers. A gentle mechanical procedure for oviduct cell isolation has been applied for this purpose avoiding the use of proteolytic enzymes. The aim of the present study was to identify the cell types present in the monolayers and to examine their fate in primary culture in serum-free or in serum-containing media by means of electronmicroscopical, immunocytochemical, and biochemical analyses. The cell dissociation procedure yielded two cell populations: ciliary cells and secretory cells that gradually dedifferentiate during culture. These cells formed a confluent monolayer after 6 d of culture in Tissue Culture Medium 199 medium supplemented with 10% fetal calf serum. Confluent cells displayed a typical epithelial cell morphology as assessed by phase contrast and electron microscopy and all the cells contained cytokeratin filaments as determined by immunocytochemistry. The overall histoarchitecture of the monolayer was preserved after washing and further culture for 7 d in serum-free medium. However, some degenerative signs indicate that the serum-free culture should not be extended for more than 7 d. Confluent oviduct cells also maintained their metabolic and protein secretory activity when deprived of serum. Total protein content in the culture supernatant linearly increased as a function of time and numerous peaks were detected after separation of proteins by high performance ion exchange chromatography. Protein elution patterns were reproducible and most of the proteins present in the culture medium were neosynthesized as determined by the incorporation of radiolabeled amino acids into nondialyzable proteins.

Steroidal and growth factor regulation of [3H]thymidine incorporation by cultured endosalpingeal cells of the bovine oviduct

Cultured cells from the bovine endosalpinx were used to evaluate effects of estradiol-17 beta, progesterone, epidermal growth factor, and insulinlike growth factors I and II on [3H]thymidine incorporation. Cells were treated with hormones and growth factors when approximately 50% confluent. After 24 h, DNA synthesis was quantified by pulsing cells with [3H]thymidine for 12 h and determining uptake into DNA. Cells prepared by mechanical dispersal incorporated more [3H]thymidine than cells dispersed with collagenase. However, hormonal responses were the same for both types of cells. As compared to plastic, cells on a Matrigel substratum exhibited lower incorporation of [3H]thymidine and were unresponsive to hormones. Estradiol-17 beta increased [3H]thymidine incorporation slightly at 10(-10) mol/liter and higher. Epidermal growth factor, insulinlike growth factor-I, and insulinlike growth factor-II also stimulated [3H]thymidine incorporation. Effects of insulinlike growth factor-I were greater for cells treated with estradiol-17 beta. In the absence of estradiol, progesterone inhibited [3H]thymidine incorporation at 1, 10, and 100 ng/ml. When estradiol-17 beta was present, progesterone stimulated [3H]thymidine incorporation at 1 ng/ml and reduced incorporation at 100 ng/ml. In conclusion, [3H]thymidine incorporation by cultured oviductal endosalpingeal cells can be regulated by ovarian steroids and growth factors. These molecules may represent signals through which the ovary, embryo, and oviduct regulate oviductal growth.

Isolation, cell culture, and characterization of oviduct epithelial cells of the cow

This report describes an easy method of isolation and cell culture of the epithelial cells of cow oviduct. Incubation of cow oviduct with 0.1 mg/ml collagenase in the lumen for 90 minutes helped to dislodge large numbers of ciliated and secretory epithelial cells. The isolated cells, when seeded on plastic, proliferated very quickly and became confluent in 8-10 days in 35 mm Petri dishes. The isolated ciliated cells which attached to the plastic dish lost their cilia after 4-5 days in culture. The cultured epithelial cells were keretin positive. The isolated bovine oviduct epithelial cells, when cultured on plastic precoated with 10 mg/ml matrigel, organized themselves into hollow tubes or spheres with microvilli directed towards the lumen. The epithelial cells seeded on 2 mg/ml matrigel became subconfluent in 15-20 days after seeding. The histoarchitecture of the secretory cells growing in vitro on matrigel resembled that of intact oviduct secretory epithelial cells. Occasional ciliated cells containing large number of mitochondria were observed in the monolayer cultured on 2 mg/ml matrigel substratum but possessed few cilia. The oviduct epithelial cells cultured on 2 mg/ml matrigel incorporated 35S-methionine linearly into protein up to 8 hours in the presence of estradiol or progesterone. The fluorograph of the newly synthesized proteins indicated the presence of an additional 60 kd protein in the cell extract of epithelial cells incubated with estradiol.

Isolation, culture, and characterization of equine oviduct epithelial cells in vitro

Oviduct epithelial cells (OEC) increasingly are used to support embryonic development and to study gamete interactions with the female reproductive tract in vitro. This series of experiments was designed to characterize monolayers derived from oviduct epithelium. Epithelial cells harvested from the isthmus and ampulla of the oviducts of five estrous mares were cultured with or without the basal lamina extract, Matrigel. Within each group OEC were cultured in the presence of either estradiol-17 beta or a carrier control. All groups were subcultured three times. Epithelial cell morphology and function were examined by microscopy, analysis of secreted proteins, and immunocytochemistry. Epithelial cells attached more rapidly and reached confluence sooner when cultured on Matrigel than in uncoated wells. Cells showed variable evidence of ciliary activity up to 12 days in primary culture. Cells grown on Matrigel had a more polarized appearance in primary culture than those in uncoated wells, although no morphologic difference between anatomic site of origin or between steroid treated groups was noted. Anatomic site of origin had no effect, and steroid treatment had minimal effects, on patterns of secreted proteins. However, some differences were noted in protein secretion between cells grown with or without Matrigel. These data suggest that culture substrate may affect structure and function of OEC monolayers.

Grafting of cultured uroepithelium and bladder mucosa into de-epithelialized segments of colon in rabbits

Urinary tract reconstruction using bowel can result in acid-base and electrolyte abnormalities. We tested the feasibility of grafting bladder mucosa and urothelial cells grown on a biodegradable polyglactin 910 scaffold onto de-epithelialized segments of bowel in the rabbit. A segment of de-epithelialized colon was either grafted with cultured urothelium on a collagen mesh scaffold (12 rabbits) or with free bladder mucosa (11 rabbits). In 10 rabbits that served as a control group another segment of bowel was isolated and de-epithelialized. No urothelial or bowel epithelial growth was present 4 weeks later in 10 of the isolated de-epithelialized colonic segments grafted with the cultured urothelium. In 2 segments a minute focus of epithelium staining positively for anticytokeratin antibodies AE1 and AE3 was seen but this could not be histologically differentiated as either urothelium or native colonic epithelium. All 7 surviving animals that underwent a bladder mucosal graft had viable urothelium at sacrifice 30 days postoperatively. In 2 of the 7 rabbits microscopic nests of colonic epithelium were also found underneath the urothelial layer. Of the 7 internal controls 6 had no evidence of bowel epithelial regrowth 4 weeks after de-epithelialization. This study demonstrated that a confluent layer of urothelial cells could be grown in culture using a scaffold of biodegradable mesh and rat tail collagen. We also showed that bladder mucosal grafts can be grown on de-epithelialized bowel segments. We were unable to graft successfully cultured urothelial cells onto a de-epithelialized bowel segment. Further improvement in understanding the role of the submucosal matrix in cell growth may lead to future success in covering large segments of de-epithelialized bowel with autologous urothelium.

Specific stimulation of basal lamina heparan sulfate proteoglycan in mouse uterine epithelium by Matrigel and by transforming growth factor-beta 1

The basal lamina of differentiated epithelium normally turns over only slowly unless stimulated by tissue repair and growth. We show here that one mechanism of this stimulation, as modeled by basal lamina proteoglycan synthesis, may be the release of basal lamina-bound transforming growth factor (TGF-beta). A large heparan sulfate proteoglycan (HSPG, 0.2 Kav on Sepharose CL-4B) that was extractable from mouse uterine epithelium with 4 M guanidine-HCl or 1 M KCl was recognized by a specific monoclonal antibody to the basal lamina HSPG, perlecan. This HSPG was metabolically inactive with respect to [35S]-sulfate labeling in pieces of whole uterus during 4 h of culture, but it was labeled in isolated cells under the same conditions, provided that the cells had been cultured at least 6 to 12 h before labeling. The rate of labeling was then constant during at least 4 days in culture in serum-containing medium. Cultures on Matrigel showed an enhanced [35S]-sulfate labeling specifically in the 0.2 Kav HSPG fraction. Partial stimulation was obtained with a serum-free medium extract of Matrigel, which fractionated on Sephadex G-50 in two components; a major one > 30 kDa and the other at about 15 to 25 kDa. The specific stimulation was mimicked by the addition of 10 ng/ml of TGF-beta 1, but there was no specific stimulation by basic fibroblast growth factor (bFGF), epidermal growth factor (EGF), insulinlike growth factor-1 (IGF-1), or interleukin-1 (IL-1).(ABSTRACT TRUNCATED AT 250 WORDS)