Influence of feeder layer type on the efficiency of isolation of porcine embryo-derived cell lines

Experiments were conducted to determine the effects of feeder layers composed of different cell types on the efficiency of isolation and the behavior of porcine embryo-derived cell lines. Inner cell masses (ICM) isolated from 7- to 8-d-old embryos were plated on feeder layers composed of Buffalo rat liver cells (BRL), a continuous cell line of murine embryonic fibroblasts (STO), STO combined with BRL at a 9:1 and 1:1 ratio, STO with BRL-conditioned medium (STO + CM), porcine embryonic fibroblasts (PEF), PEF combined with BRL at a 9:1 and 1:1 ratio, porcine uterine epithelial cells (PUE), murine embryonic fibroblasts (MEF), or an epithelial-like porcine embryo-derived cell line (PH3A). It was found that embryo-derived cell lines could be isolated only from the STO and the STO with BRL-conditioned medium treatments. The isolated cell lines were of epithelial-like and embryonic stem cell-like (ES-like) morphology. The feeders tested had an effect on the behavior of plated ICM. Some feeders, represented by PUE, BRL, STO:BRL (1:1), PEF:BRL (1:1), and PH3A, did not promote attachment of the ICM to the feeder layer; others, represented by STO and MEF, allowed attachment, differentiation and proliferation. On PEF feeders the ICM spread onto the feeder layer after attachment without apparent signs of proliferation or differentiation. None of the feeders tested increased the efficiency of isolation or the growth characteristics of embryo-derived (both ES-like and epithelial-like) cell lines over that of STO feeders.     

A method for cultivating morphologically undifferentiated embryonic stem cells from porcine blastocysts

Variable conditions were tested to determine an in-vitro cultivation method for the formation of morphologically undifferentiated embryonic stem cells from the inner cell mass (ICM) derived outgrowth of porcine blastocysts. Although all 16 Day-9 embryos failed to form colonies, 14 such colonies were obtained from a total of 69 Day-10 embryos when they were co-cultivated with porcine uterine fibroblast (PUF) cells over a 6-day period. The best results were obtained in Dulbecco's modified Eagle medium (DMEM) with 10% fetal calf serum and 10% porcine serum supplemented with bovine insulin and beta-mercaptoethanol, in which six out of seven embryos formed adequate ICM-derived colonies. Since murine fibroblasts were not found to be suitable feeder cells in this procedure, an endocrine synergistic interaction, which promotes embryonic attachment and colony formation, between porcine blastocysts and PUF cells is hypothesized. Continued propagation of the ICM-derived cells was not dependent on these factors; a total of seven cell lines were obtained after three to five subsequent passages on murine feeder-layers that resembled morphologically undifferentiated embryonic cells.     

Initial culture behaviour of rat blastocysts on selected feeder cell lines

To increase our understanding of rat embryos in culture and to attempt the isolation of blastocyst-derived cell lines, we examinated the initial growth behaviour of rat blastocysts from four strains of rat on four different feeder cell layers. The feeders used were a continuous cell line of murine embryonic fibroblasts (STO), primary mouse (MEF) or primary rat (REF) embryonic fibroblasts, and a continuous cell line of rat uterine epithelial cells (RUCs). A medium that gave optimum plating efficiencies for murine ES cells was used in the rat embryo culture. Each culture system allowed hatching and attachment of the blastocysts, that is, the behaviour was similar on each feeder and each strain for the first 2 days in culture. Subsequently, there was a rapid differentiation of the Inner Cell Mass (ICM) cells on fibroblastic feeder cell layers (STO > MEF > REF), and this was generally complete after 3–6 days in primary culture. On RUCs, the ICM was found to increase in size without differentiation up to and including day 4 and in some cases longer. Embryo-derived cells were obtained by disaggregating and passaging ICMs on REF and RUC feeders. Rounded, refractile, and epithelial-like cells were isolated on REF and colonies of ES-like cells on the RUCs. The ES-like cells were positive for expression of alkaline phosphatase and stage-specific embryonic-antigen 1. This is an important first step towards the derivation and culture of pluripotent ES cells from the rat. © 1995 Wiley-Liss, Inc.     

Variations in humanized and defined culture conditions supporting derivation of new human embryonic stem cell lines

The evolution of "humanized" (i.e., free of animal sourced reagents) and ultimately chemically defined culture systems for human embryo stem cell (hESC) isolation and culture is of importance to improving their efficacy and safety in research and therapeutic applications. This can be achieved by integration of a multitude of individual approaches to replace or eliminate specific animal sourced reagents into a single comprehensive protocol. In the present study our objective was to integrate strategies obviating reliance on some of the most poorly defined and path-critical factors associated with hESC derivation, namely the use of animal immune compliment to isolate embryo inner cell mass, and animal sourced serum products and feeder cells to sustain hESC growth and attachment. As a result we report the derivation of six new hESC lines isolated by outgrowth from whole blastocysts on an extracellular matrix substrate of purified human laminin (Ln) with transitional reliance on mitotically inactivated human fibroblast (HDF) feeder cells. With this integrated system hESC lines were isolated using either HDF conditioned medium supplemented with a bovine-sourced serum replacement (bSRM), or a defined serum-free medium (SFM) containing only human sourced and recombinant protein. Further, outgrowth of embryonic cells from whole blastocysts in both media could be achieved for up to 1 week without reliance on feeder cells. All variant conditions sustained undifferentiated cell status, a stable karyotype and the potential to form cells representative of all three germinal lineages in vitro and in vivo, when transitioned off of feeders onto Laminin or Matrigel. Our study thus demonstrates the capacity to integrate derivation strategies eliminating a requirement for animal immune compliment and serum products, with a transitional requirement for human feeder cells. This represents another sequential step in the generation of therapeutic grade stem cells with reduced risk of zoonotic pathogen transmission.     

Evaluation of extracellular matrix proteins and tissue inhibitor of matrix metalloproteinases-2 on bovine inner cell mass outgrowth in vitro

Effects of extracellular matrix proteins and tissue inhibitor of matrix metalloproteinases-2 (TIMP-2) on bovine inner cell mass (ICM) outgrowth and proteinase production in vitro were determined. Inner cell masses were isolated immunosurgically from day 7 embryos (day 0 = onset of estrus) and cultured for 96 h. In experiment 1, cellular outgrowth and gelatinase production were evaluated for ICM cultured on collagen IV, fibronectin, or laminin. More (P < 0.05) ICM generated cellular outgrowth on fibronectin (71%). compared with collagen IV (0%) or laminin (15%). Inner cell mass and outgrowth areas were greatest (P < 0.05) on fibronectin after 96 h of culture, compared with laminin. Although the incidence of cellular outgrowth on laminin was limited, numbers of cells in outgrowths supported by laminin were similar (P > 0.10) to fibronectin except at 72 h of culture, where more (P < 0.05) cells were in laminin than in fibronectin outgrowths. Gelatinase activity was not detected in conditioned medium. In experiment 2, cellular outgrowth and plasminogen activator production by ICM cultured on fibronectin in medium containing 0 or 10 microg/ml TIMP-2 were evaluated. Inner cell mass and outgrowth areas, and numbers of cells in outgrowths were greater (P < 0.05) in 10 compared with 0 microg/ml TIMP-2 at 96 h of culture. Mean plasminogen activator activity in conditioned medium from ICM cultured in 10 microg/ml TIMP-2 was greater (P < 0.05) compared with 0 microg/ml TIMP-2 (16.2 +/- 4.8 versus 6.7 +/- 1.4 x 10(-3) IU/ml, respectively). These results demonstrate that cellular outgrowth from bovine ICM is supported by fibronectin and is stimulated by TIMP-2.     

Primary cell culture from gill explants of rainbow trout

Primary cultures of gill cells were initiated from gill filament explants of rainbow trout, Oncorhynchus mykiss . The explants were cultured in Leibovitz l -15 medium with 5, 10 or 20% foetal calf serum (FCS) and l -glutamine. The attachment efficiency was serum-dependent though increased FCS concentration did not stimulate further outgrowth of cells. The explants produced cell outgrowth 24 h after attachment as a sheet of cells which exhibited characteristics of gill pavement epithelial cells as indicated by surface microridges revealed by scanning electron micrographs. There was high proliferation for the first 14 days then a stable plateau for 30 days followed by a decline phase from 45 days. Following removal of cells, the explants produced further cell outgrowth which was especially active at the proliferation phase (14 days). Removal of these cells caused the explants to produce a further proliferation of cells reaching confluence in 10–14 days. After the third cell removal cell outgrowth from explants showed migratory activity but did not develop to resemble gill epithelial cells. The use of gill explants to establish primary cultures of fish gill cells has advantages which include longevity of the culture and successive proliferations from explants which could provide a useful tool for the investigation of long-term processes in cellular biology and reduce the number of culture preparations.     

Expression of a reporter gene after microinjection of mammalian artificial chromosomes into pronuclei of bovine zygotes.

The introduction of mammalian artificial chromosomes (ACs) into zygotes represents an alternative, more predictive technology for the production of recombinant proteins in transgenic animals. The aim of these experiments was to examine the effects of artificial chromosome microinjection into bovine pronuclei on embryo development and reporter gene expression. Bovine oocytes aspirated from 2-5 mm size follicles were matured in vitro for 22 hr. Mature oocytes were fertilized in vitro with frozen- thawed bull spermatozoa. Artificial chromosome carrying either beta-galactosidase (Lac-Z) gene or green fluorescence protein (GFP) gene were isolated by flow cytometry. A single chromosome was microinjected into one of the two pronuclei of bovine zygotes. Sham injected zygotes served as controls. Injected zygotes were cultured in G 1.2 medium for 7 days. Hatched blastocysts were cultured on blocked STO cell feeder layer for attachment and outgrowth of ICM and trophectoderm cells. The results showed a high zygote survival rate following LacZ-ACs microinjection (74%). However, the blastocyst development rate after 7 days of culture was significantly lower than that of sham injected zygotes (7.5 vs. 22%). Embryonic cells positive for Lac-Z gene were detected by PCR in three of nine outgrowth colonies. In addition, GFP gene expression was observed in 15 out of 85 (18%) embryos at the arrested 2-cell stage to blastocyst stage. Six blastocysts successfully outgrew, three outgrowths were GFP positive for up to 3 weeks in culture. We conclude that the methodology for artificial chromosome delivery into bovine zygotes could lead to viable blastocyst development, and reporter gene expression could be sustained during pre-implantation development.     

Bovine trophoblastic cell vesicle attachment to polarized endometrial epithelial cells in vitro

Summary Interactions between bovine trophoblastic cell vesicles and bovine endometrial epithelial cells were investigated by light and electron microscopy and lectin histochemistry in a cell culture model of early blastocyst attachment. Primary lines of bovine endometrial epithelial cells were polarized by subculturing on substrata and maintaining cultures at the air-medium interface. Trophoblastic cell vesicles were obtained from elongated Day 14 blastocysts. In co-cultures, trophoblastic cell vesicles adhered to endometrial epithelial cells through microvillus interdigitation and formation of primitive membrane junctional complexes. After 3 d in co-culture, a multilayered cellular plaque formed at the trophoblastic cell-endometrial epithelial cell interface. The type of cells contributing to this local proliferative response could not be identified specifically as trophoblastic or endometrial cells, and areas of membrane fusion between cells were noted. Ultrastructural features of vesicle adhesion in cultures were similar to features of conceptus attachment in vivo. Lectins bound to apical membranes of trophoblastic cells and endometrial epithelial cells in all locations except contact sites between vesicles and endometrial cells. These findings suggest that local cellular proliferation and membrane fusion between trophoblastic and endometrial epithelial cells may be early events in conceptus implantation in the cow and these events can be reproduced in culture. This work was supported by a grant from U.S. Department of Agriculture Animal Health and Disease Program, Washington, DC.     

Effects of different feeder layers on culture of bovine embryonic stem cell-like cells in vitro

To find a suitable feeder layer is important for successful culture conditions of bovine embryonic stem cell-like cells. In this study, expression of pluripotency-related genes OCT4, SOX2 and NANOG in bovine embryonic stem cell-like cells on mouse embryonic fibroblast feeder layers at 1–5 passages were monitored in order to identify the possible reason that bovine embryonic stem cell-like cells could not continue growth and passage. Here, we developed two novel feeder layers, mixed embryonic fibroblast feeder layers of mouse and bovine embryonic fibroblast at different ratios and sources including mouse fibroblast cell lines. The bovine embryonic stem cell-like cells generated in our study displayed typical stem cell morphology and expressed specific markers such as OCT4, stage-specific embryonic antigen 1 and 4, alkaline phosphatase, SOX2, and NANOG mRNA levels. When feeder layers and cell growth factors were removed, the bovine embryonic stem cell-like cells formed embryoid bodies in a suspension culture. Furthermore, we compared the expression of the pluripotent markers during bovine embryonic stem cell-like cell in culture on mixed embryonic fibroblast feeder layers, including mouse fibroblast cell lines feeder layers and mouse embryonic fibroblast feeder layers by real-time quantitative polymerase chain reaction. Results suggested that mixed embryonic fibroblast and sources including mouse fibroblast cell lines feeder layers were more suitable for long-term culture and growth of bovine embryonic stem cell-like cells than mouse embryonic fibroblast feeder layers. The findings may provide useful experimental data for the establishment of an appropriate culture system for bovine embryonic stem cell lines.     

Isolation and culture of embryonic stem cells from porcine blastocysts

This study was conducted to establish embryonic stem (ES) cell lines from porcine blastocysts. Blastocysts were collected from China miniature pigs at day 7-9 of pregnancy. Embryos were either directly (intact embryos) cultured on mitomysin C-inactivated murine embryonic fibroblasts (MEF) as feeder layers, or were used to isolate the inner cell masses (ICM) by enzyme digestive method and then cultured. It was found that enzyme digestive method could isolate ICMs without any damages of cells in all blastocysts (28). All ICMs attached to the feeder layers. Primary cell colonies were formed in 68% of ICM culture and 28% of intact blastocyst culture. Two ES cell lines derived from ICM passed six subcultures (passages). These cells morphologically resembled mouse ES cells and consistently expressed alkaline phosphatase activity. When the ES cells were cultured in a medium without feeder layer and leukemin inhibitory factor, they differentiated into several types of cells including neuron-like, smooth muscle-like, and epithelium-like cells. Some cells formed embryoid bodies in a suspension culture. These results indicate that porcine ES cell line can be established under the present experimental conditions and these ES cells are pluripotent.     

Routine heat inactivation of serum reduces its capacity to promote cell attachment

Summary Heat inactivation (56°C for 40 min) of bovine calf serum was shown to diminish its capacity to promote the attachment of cells to plastic or glass surfaces. This effect was not observed in stationary cultures (culture dishes) but became manifest under conditions in which the cells were subjected to a small amount of liquid shear force, i.e. by growing cells in roller bottles or culture tubes. Of four cell lines tested on bovine calf serum (SV-BHK, BALB-3T3, CV-1, and FS-4) SV-BHK and CV-1 cells showed the greatest sensitivity to loss of attachment-promoting activity. Fetal bovine serum also seemed to be affected by heat inactivation but to a lesser degree than bovine calf serum. Treatment of vessel surfaces with either unheated calf serum or specific attachment factors (gelatin, poly-d-lysine, and fibronectin) greatly increased cell attachment in the presence of heat inactivated serum. Heat inactivation did not seem to affect the ability of cells to grow after attachment. Of the four cell lines tested, the normal human fibroblast line (FS-4) was shown to be most effective at conditioning medium and restoring its capacity to promote the attachment of all four cell lines. This research was supported in part by VECOL, Inc., Bogata, Columbia and by grant SRC 5 U24 RR02557-02 from the National Institutes of Health, Bethesda, MD.     

Establishment of pluripotent cell lines from porcine preimplantation embryos

Embryonic stem (ES) cells are pluripotent cells isolated from in vitro culture of preimplantation embryos. Experiments were undertaken to identify preimplantation embryonic stages and culture conditions under which pluripotent, porcine embryo-derived cell lines could be isolated. Cell lines were established from in vitro culture of intact, porcine early hatched blastocysts and isolated inner cell masses (ICM) from intermediate and late hatched blastocysts on feeder layers prepared from permanent mouse embryonic fibroblasts (STO). The cells of these porcine embryo-derived cell lines had a morphology similar to that of murine ES cells, but colony morphology was more epithelial-like. The cell lines retained a normal diploid karyotype, consistently expressed alkaline phosphatase activity, and survived cryopreservation. When subjected to in vitro differentiation, either spontaneous or induced, the embryo-derived cell lines differentiated extensively into a wide range of cell types representing the 3 embryonic germ layers. In vivo pluripotency of the cells was demonstrated by birth of a chimeric piglet, documented by pigmentation and DNA markers, and the ability to direct the development of nuclear-transfer embryos to the blastocyst stage. Such pluripotent embryo-derived cells provide a potential route for porcine genetic manipulation.     

Effect of leukemia inhibitory factor (LIF) on in vitro produced bovine embryos and their outgrowth colonies

In vitro produced (IVP) bovine embryos were subjected to in vitro culture with or without 1000 U/ml human recombinant leukemia inhibitory factor (LIF) added to the culture medium from Days 5 to 8 post insemination (p.i.). Resulting blastocysts were subsequently plated intact on mouse feeder cells in a medium with or without LIF. Significantly more embryos reached the hatched blastocyst stage, and the number of blastocysts with excellent morphology was significantly higher, when LIF was omitted. At Day 8 p.i., total cell count (TCC) and inner cell mass (ICM) cell count was significantly higher in embryos cultured without LIF. In embryos cultured with LIF, cytoplasmic vesicles and lipid droplets were abundant and a decreased expression of both Oct4 and laminin could be observed. Initial hypoblast formation was revealed in almost 1/3 of the LIF-cultured blastocysts whereas this feature was evident in 2/3 of the blastocysts cultured in the absence of LIF. Overall, almost 60% of the blastocysts cultured without LIF formed outgrowth colonies (OCs) when plated on feeders, whereas this phenomenon was only observed in 30% of the blastocysts cultured in the presence of LIF. A tendency for retaining a tightly packed central growth of putative ICM-derived cells was observed, when attachment to the feeder layer was initiated close to the embryonic pole of the blastocyst. At Day 8 of outgrowth culture, approximately 20% of the colonies contained a central core of putative ICM-derived cells appearing large enough for mechanical isolation and further subculture. Immunohistochemical labeling for Oct4 revealed staining of both trophectodermal and ICM-derived cells. The presence of LIF in the outgrowth culture medium did not have any apparent effect on the plating efficiency or colony type. In conclusion, LIF had an adverse effect on in vitro embryonic development when added to the culture medium in the period from Days 5 to 8 p.i., whereas it had no apparent effect on the OCs subsequently formed from such embryos.     

人胚胎干细胞优化培养的进展

人胚胎干细胞(humanembryonicstemcell,hEScell)是来源于着床前人囊胚内细胞团(innercellmass,ICM)的、具有自我更新能力和分化全能性的细胞。由于hES细胞能在一定条件下分化成三个胚层来源的各种细胞,所以它具有重要的基础研究价值和巨大的临床应用前景,可应用于人早期胚胎发育过程的研究、药物毒物筛选、细胞移植治疗、基因治疗等领域。目前,世界上已经建立了多株hES细胞系,最早建立的hES细胞系是生长在小鼠胚胎成纤维(mouseembryonicfibroblast,MEF)细胞上的,培养体系中含血清等动物源性成分,这些成分可能引起动物源性病原体或支原体的污染,从而限制了hES细胞的临床应用。近年来,科学家们在优化hES细胞的体外培养体系方面做出了很大的努力并取得了长足进展,已经开始采用无血清、无饲养层细胞、无外源性蛋白、成分明确的培养体系进行hES细胞建系及培养,从而在一定程度上解决了上述问题。本文主要从饲养层细胞、无饲养层培养体系、培养基质、细胞因子等方面综述了hES细胞建系和维持其未分化状态的优化培养所取得的最新进展和存在的问题。     

Derivation and characterization of human embryonic stem cell lines from poor quality embryos

Poor quality embryos discarded from in vitro fertilization （IVF） laboratories are good sources for deriving human embryonic stem cell （hESC） lines. In this study, 166 poor quality embryos donated from IVF centers on day 3 were cultured in a blastocyst medium for 2 days, and 32 early blastocysts were further cultured in a blastocyst optimum culture medium for additional 2 days so that the inner cell masses （ICMs） could be identified and isolated easily. The ICMs of 17 blastocysts were isolated by a mechanical method, while those of the other 15 blastocysts were isolated by immunosurgery. All isolated ICMs were inoculated onto a feeder layer for subcultivation. The rates of ICM attachment, primary ICM colony formation and the efficiency of hESC derivation were similar between the ICMs isolated by the two methods （P〉0.05）. As a result, four new hESC lines were established. Three cell lines had normal karyotypes and one had an unbalanced Robertsonian translocation. All cell lines showed normal hESC characteristics and had the differentiation ability. In conclusion, we established a stable and effective method for hESC isolation and culture, and it was confirmed that the mechanical isolation was an effective method to isolate ICMs from poor embryos. These results further indicate that hESC lines can be derived from poor quality embryos discarded by IVF laboratories.     

Isolation and characterization of embryonic stem-like cells derived from in vivo-produced cat blastocysts

Embryonic stem (ES)-like cells were isolated from in vivo-produced cat embryos. Total of 101 blastocysts were collected from female cats. The inner cell mass (ICM) were mechanically isolated and cultured on mitomycin-C-treated cat embryonic fibroblast feeder layers in medium supplemented with knockouttrade mark Serum Replacement (KSR-medium) or fetal bovine serum (FBS-medium). Putative ES-like cell colonies developed in both KSR- and FBS-medium conditions, but formed domed and flat colonies, respectively. ICM cell attachment and ES-like cell colony formation were significantly higher in KSR-medium, but subsequent cell proliferation was significantly lower than in FBS-medium. For passaging, 32 and 18 colonies in KSR- and FBS-medium were separated by enzymatic dissociation or mechanical disaggregation. Enzymatic dissociation resulted in cell differentiation; however, mechanical disaggregation generated cells that remained undifferentiated over more than four passages and yielded two cat ES-like cell lines that continued to grow for up to eight passages in FBS-medium. These cells had typical stem cell morphology, expressed high levels of alkaline phosphatase activity, and were positive for the ES cell-markers Oct-4, stage-specific embryonic antigen-1 (SSEA-1), SSEA-3, and SSEA-4. These cells formed embryoid bodies (EBs) in suspension culture after extended suspension culture. When simple EBs were cultured on tissue culture plates, they differentiated into several cell types, including epithelium-like and neuron-like cells. In addition, EBs were positive for mesoderm marker, desmin. After prolonged in vitro culture, some colonies spontaneously differentiated into beating myocardiocytes, and were positive for alpha-actinin. These observations indicate that cat ES-like cells were successfully isolated and characterized from in vivo-produced blastocysts.     

Survival of porcine inner cell masses in culture and after injection into blastocysts

Isolation of embryonic stem cells has been documented only in the mouse and perhaps the hamster and cow. We report results of experiments designed to determine the effect of age of porcine embryos (6 through 10 d after the first day of estrus) on isolation of cell lines with embryonic stem cell-like morphology. The capacity of fresh and short-term cultured inner cell mass (ICM) cells to differentiate into normal tissues after injection into blastocysts was also measured. Few Day-6 ICM survived in culture to the first passage onto fresh feeder cells, but cell lines with embryonic stem cell-like morphology developed from Day-7 through Day-10 ICM. Isolation of embryonic stem cell-like colonies was achieved at a higher frequency from ICM isolated from older embryos, but embryonic stem cell-like colonies from older embryos also tended to differentiate spontaneously in culture. Viable porcine chimeras were born after injection of fresh ICM into blastocysts that were transferred to recipients for development to term; no chimeras were born from blastocysts injected with ICM subjected to short-term (1 to 6 d) culture. Germ-cell chimerism was confirmed in one of the chimeras. These results document that undifferentiated cells can be removed from porcine blastocysts, transplanted to other embryos, and contribute to development of normal differentiated tissues, including germ cells. Cells with embryonic stem-like morphology can be isolated in culture from ICM at various embryonic ages, but ICM from young blastocysts (e.g., Day-7 embryos) yield embryonic stem cell-like colonies at lower frequency than do ICM from older blastocysts (e.g., Day-10 embryos).     

Clonal growth and serial propagation of rat esophageal epithelial cells

The clonal growth and serial propagation of rat esophageal epithelial cells in low serum-containing medium has been achieved without feeder layers or conditioned medium. To date, a total of four lines have been developed and maintained for as many as 40 passages in culture. Growth of the cells was possible only after modifying the culture medium (PFMR-4) by reducing the calcium concentration from 1 to 0.1 mM, and by adding low levels of dialyzed fetal bovine serum and seven growth factors; i.e. epidermal growth factor, hydrocortisone, ethanolamine, phosphoethanolamine, insulin, transferrin, and cholera toxin. Cell lines have been developed from both explant outgrowths and enzyme dissociated esophagi. The epithelial nature of the cells was confirmed by electron microscopy and immunological methods. Clonal growth studies revealed that optimal cell growth occurred in medium containing 2.4% dialyzed fetal bovine serum and 0.1 mM calcium. Calcium levels of 0.3 mM or higher caused the cells to stratify and undergo terminal differentiation. Coating the culture dishes with collagen, or a combination of collagen, fibronectin, and bovine serum albumin, increased both the cell growth rate and the colony forming efficiency. The successful long term culture of rat esophageal epithelial cells permits their use as models in studies concerned with esophageal differentiation and carcinogenesis.     

Continuous multiplication of rabbit tracheal epithelial cells in a defined,hormone-supplemented medium

Summary An improved Ham’s F12 nutrient medium supplemented with epidermal growth factor (EGF), insulin (INS), and transferrin (TF) was developed for continuous proliferation and clonal growth of primary rabbit tracheal epithelial (TE) cells in culture. The addition of small quantities of fetal bovine serum (FBS) (0.01 to 0.1%) to cultures had little measurable stimulation on TE cell growth and plating efficiency. However, serum levels higher than 0.1% inhibited cell growth and also masked the growth stimulating activities of EGF and INS despite an increase in cell attachment. Under this defined, hormone-supplemented medium, and in the presence of a trace amount of serum (0.01%), 10 to 20% of the protease-dissociated TE cells attached to the culture dish followed by at least four population doublings during 7 to 10 d of culture. Clonal growth occurred at a seeding density of 17 cells/cm² with a plating efficiency of 6 to 8%. Confluent primary cultures could be passaged two to four times by treatment with a 0.1% trypsin-1 mM EDTA solution and a total of 10 to 30 population doublings of in vitro life span were obtained. The epithelial nature of cultured cells was confirmed by indirect immunofluorescent staining with antikeratin antibody as well as by transmission electron microscopy. This study shows that using this improved hormone-supplemented medium, rabbit TE cells can be maintained in culture for extended periods of time without the aid of a fibroblast feeder layer or explant tissue. This system could be useful for the study of cell differentiation of tracheal epithelium.     

Effects of inhibitors of integrin binding on cellular outgrowth from bovine inner cell masses in vitro

Summary Bovine inner cell masses (ICM) cultured on fibronectin give rise to extensive cellular outgrowths containing endoderm. Peptides with the Glu-Ile-Leu-Asp-Val (EILDV) and Arg-Gly-Asp (RGD) sequences inhibit cell migration on fibronectin by binding to the fibronectin-recognition site in several integrins. To identify integrins involved in endodermal cell outgrowth on fibronectin and vitronectin, the effects of the EILDV and RGD peptides were evaluated in vitro. In experiment 1, ICM were cultured on fibronectin in medium containing 0.5 or 1.0 mg/ml EILDV or RGD (or both). Compared with 0 mg/ml, 0.5 mg/ml EILDV suppressed (P<0.10) outgrowth area overall, and 1.0 mg/ml EILDV reduced (P<0.05) outgrowth area after 72 h of culture. Compared with 0 mg/ml, 0.5 and 1.0 mg/ml RGD reduced (P<0.05) outgrowth area after 72 h of culture. Plasminogen activator activity in conditioned medium increased (P<0.05) in 0.5 mg/ml RGD but decreased (P<0.10) in 1.0 mg/ml RGD compared with 0 mg/ml RGD. In experiment 2, bovine ICM were cultured on vitronectin in medium containing 0.5 or 1.0 mg/ml RGD. Neither concentration of RGD (P>0.10) affected the extent of cellular outgrowth on vitronectin. Bovine endodermal cell migration on fibronectin can be modulated by the RGD and EILDV peptides. Despite inhibition, neither peptide completely prevented outgrowth on fibronectin. In contrast, cellular outgrowth on vitronectin was unaffected by RGD. The persistence of cellular outgrowth on fibronectin and the absence of inhibition by RGD for ICM cultured on vitronectin suggests that bovine endodermal cells can use alternative cellular adhesion systems, such as nonintegrin receptors, during outgrowth.