A serum-free,chemically-defined medium for function and growth of primary neonatal rat heart cell cultures

Summary A serum-free, chemically defined medium for supporting rhythmic contraction, maximum survival, and moderate growth of cardiac cells was achieved by using a combination of hormones and growth supplements in a mixture of equal volumes of Ham’s F12 and Dulbecco’s modified Eagle’s medium. The hormones and growth supplements included insulin, transferrin, selenium, fetuin, bovine serum albumin, hydrocortisone (HC),l-thyroxine (T₄), and epidermal growth factor (EGF). Cardiac cells were grown on fibronectin-precoated plates using the above serum-free medium. Cells grow in this medium exhibited a higher beating rate and were maintained for a longer time compared to those cells grown in serum. The effects of T₄, EGF, and HC on beating rate and survival time of both cultures of mixed cell population and enriched myoblast cell population were studied. In the enriched myoblast cell cultures grown in serum-supplemented medium, the beating rate ranged from 40 to 200 beats/min, and these cultures survived for 30 d. When these enriched cell cultures were grown in serum-free hormone-supplemented medium, the beating rate ranged from 190 to 240 beats/min, and these cultures survived for more than 90 d. These results show that some hormones affect growth, whereas others affect function.     

Growth factor regulation of proliferation in primary cultures of small intestinal epithelium

Summary Although the intestinal epithelium is one of the most rapidly renewing tissues, little is known about the major growth factors that control the rate of cell replacement and migration. Recently, a primary culture model has been described for the developing rat small intestinal epithelium, which permits epithelial growth while maintaining interactions with associated stromal cells, thereby possessing several contextual advantages over established cell lines (Evans et al., 1992). We have used this model to begin to determine the factors that may be involved in controlling intestinal epithelial cell proliferation. Under the conditions examined, no single growth factor promoted exclusive proliferation of epithelial cells; stromal cell proliferation was also apparent. The most potent stimulators of epithelial proliferation were insulin and insulin-like growth factor 1 (IGF-1). These factors also appeared to inhibit migration of the epithelial cells. 5–10 ng/ml EGF, 5–20 ng/ml TGFα, and 10–20 ng/ml PDGF also slightly increased epithelial cell numbers. Cell proliferation was inhibited by 0.1 ng/ml TGFβ-1. In Dulbecco’s modified Eagle’s medium (DMEM) containing 0.25 IU/ml insulin, glucose levels of 2–3 g/liter permitted epithelial growth with limited expansion of the stromal cell population. Higher levels of glucose further stimulated the nonepithelial cell types. Transferrin was also a potent stimulator of both cell types.     

Relative resistance to methothexate by proliferating normal rabbit epidermal cells in vitro

Summary Primary cell cultures of normal rabbit epidermal cells (keratinocytes) were established without the use of enzymatic techniques. Six experiments were carried out on cells from six different rabbits. When these cells were exposed to methotrexate (MTX) for 24 h at 1 μg/ml, proliferation, as measured by cells entering mitosis, was significantly inhibited (P<0.05) in only one experiment. When the dose of MTX was elevated to 100 μg/ml, only two experiments showed significant inhibition of mitosis. This minimal inhibition of mitosis by MTX was contrasted by the dramatic inhibitory effect of this antimetabolite on DNA synthesis. At 1 μg/ml MTX for 24 h, DNA synthesis, as measured by [³H]deoxyuridine uptake, was inhibited >95%. We can conclude that under certain conditions, the rabbit keratinocyte may represent a normal cell type that is inherently resistant to the antiproliferative effects of methotrexate. The research was supported by National Cancer Institute Grant CA 11536.     

The effect of growth-promoting agents on replication and cell cycle withdrawal in cultures of epidermal keratinocytes

Summary Epidermal keratinocytes grow in culture to form a stratified squamous epithelium. These cultures contain a replicating as well as a terminally differentiating population and undergo surface desquamation. Epidermal growth factor (EGF) and cholera toxin are usually employed as growth-promoting agents because they reduce the population doubling time; that is, the period required to increase the total cell number twofold. There are three ways in which this reduction in population doubling time could be achieved: (a) the time for one cell cycle or the cell cycle length may be shortened; (b) the number of cells that withdraw from the cell cycle and terminally differentiate may be reduced; or (c) the number of cells that desquamate into the medium over a set period of time may be reduced. We have explored these possibilities in growing cultures of epidermal keratinocytes using a newly developed double-label assay. This assay gives a measure of both cell length and cell cycle withdrawal. Results show that the growth enhancement induced by EGF and cholera toxin can be attributed primarily to a reduction in cell cycle withdrawal and, to a lesser degree, to a reduction in cell cycle length. EGF and cholera toxin have no significant effect on the rate of desquamation. A linear correlation was noted between cell cycle lengths and withdrawal, suggesting an interconnection between the rate of cell renewal and the likelihood of undergoing terminal differentiation. This research was supported by grant DE04511 from the National Institute of Dental Research, Bethesda, MD, and gifts from the University Hospital Auxilliary, Health Sciences Center, SUNY Stony Brook, and the Suffolk County Volunteer Firefighter Fund.     

Glutamate receptor subunit expression in primary neuronal and secondary glial cultures

We report on the expression of ionotropic glutamate receptor subunits in primary neuronal cultures from rat cortex, hippocampus and cerebellum and of metabotropic glutamate (mGlu) receptor subtypes in these neuronal cultures as well as in cortical astroglial cultures. We found that the NMDA receptor (NR) subunits NR1, NR2A and NR2B were expressed in all three cultures. Each of the three cultures showed also expression of the four AMPA receptor subunits. Although RT-PCR detected mRNA of all kainate (KA) subunits in the three cultures, western blot showed only expression of Glu6 and KA2 receptor subunits. The expression analysis of mGlu receptors indicated the presence of all mGlu receptor subtype mRNAs in the three neuronal cultures, except for mGlu2 receptor mRNA, which was not detected in the cortical and cerebellar culture. mGlu1a/alpha, -2/3 and -5 receptor proteins were present in all three cultures, whereas mGlu4a and mGlu8a receptor proteins were not detected. Astroglial cultures were grown in either serum-containing or chemically defined medium. Only mGlu5 receptor protein was found in astroglial cultures grown in serum-containing medium. When astrocytes were cultured in chemically defined medium, mGlu3, -5 and -8 receptor mRNAs were detected, but at the protein level, still only mGlu5 receptor was found.     

The effect of choleragen and epidermal growth factor on proliferation and maturation in vitro of human ectocervical cells

Summary The role of choleragen (CT) and epidermal growth factor (EGF) has been examined in relation to the control of growth and differentiation of adult human cervical epithelial (HCE) cells derived from the ectocervix. Cervical biopsies derived from hysterectomy specimens were trypsin disaggregated and HCE cells were plated at 5×10³/cm² in the presence of 2×10⁴/cm² lethally irradiated Swiss 3T3 fibroblasts. Cultures were grown in Liebovitz medium supplemented with 10% fetal bovine serum and hydrocortisone. Epidermal growth factor at 10 ng/ml and choleragen at 10⁻¹⁰ M were added to cultures either singly or in combination. DNA replication in these cultures was measured autoradiographically after exposing cells to tritiated thymidine for 2 h. Differentiation was assessed histochemically by determining glycogen accumulation using the periodic acid Schiff technique. Choleragen increased colony plating efficiency by at least a factor of two but had no effect on colony size Epidermal growth factor did not increase plating efficiency but did increase colony size. In EGF treated colonies DNA replication occurred throughout the colony compared to CT treated colonies in which replication was restricted to the periphery. In the absence of EGF, population doublings achieved in culture did not exceed 32 and glycogen accumulation was evident in cells early in culture life. Colonies treated with EGF exhibited glycogen accumulation late in culture life and the EGF treated cells achieved at least 50 population doublings in culture. The results are discussed in relation to the role of EGF and choleragen on cell differentiation.     

Influence of human breast development on the growth properties of primary cultures

Summary In experimental animal models the susceptibility of the mammary gland to neoplastic transformation is related to its degree of development and proliferative activity; this observation led us to determine whether the human breast epithelium also exhibits development-related differences, and whether these differences could be detected in an in vitro system. Normal breast tissue obtained from reduction mammoplasties of 9 patients ranging in age from 18 to 56 years were characterized in both whole mount preparations and organoids obtained after collagenase-hyaluronidase digestion by their degree of development based upon the types of lobules present. Lobules were classified into type 1 (Lob 1), composed of approximately 11 alveolar buds, the less developed; lobules type 2 (Lob 2), of moderate development, composed of approximately 47 ductules each, and lobules type 3 (Lob 3), composed of 80 ductules each, represented the highest level of development. Epithelial organoids obtained after digestion were plated in DMEM:F12 medium supplemented with hydrocortisone, cholera toxin, insulin and 5% horse serum with a calcium concentration of 1.05 mM Ca⁺⁺. Following attachment, the medium was replaced by medium containing 0.040 mM Ca⁺⁺. The percentage of attachment of organoids to the flask was greater in cells from Lob 1 (89–99%) and Lob 1+2 (79–100%) than in cells from Lob 3, which had a 53–67% attachment. The total yield of cells after 7 weeks in culture was also greater in cells derived from Lob 1 and Lob 1+2 than in cells from Lob 3. The total yield of cells obtained from primary cultures was not related to the number of organoids plated, but to the degree of development of the gland. The DNA-labeling index (DNA-LI) in intact breast tissue correlated with that in primary cultures; it was greater in Lob 1 and Lob 1+2 than in Lob 3. By flow cytometry, the highest percentage of cells in S-phase was seen in cells with the highest DNA-LI. We concluded that the growth characteristics of mammary epithelial cells in vitro in a low Ca⁺⁺ medium is modulated by the degree of development and differentiation of the gland. Supported by PHS Grant CA-38921 awarded by the National Cancer Institute, DHHS, and an Institutional Grant from the United Foundation of Greater Detroit.     

CD90 Expression on human primary cells and elimination of contaminating fibroblasts from cell cultures

Cluster Differentiation 90 (CD90) is a cell surface glycoprotein originally identified on mouse thymocytes. Although CD90 has been identified on a variety of stem cells and at varying levels in non-lymphoid tissues such as on fibroblasts, brain cells, and activated endothelial cells, the knowledge about the levels of CD90 expression on different cell types, including human primary cells, is limited. The goal of this study was to identify CD90 as a human primary cell biomarker and to develop an efficient and reliable method for eliminating unwanted or contaminating fibroblasts from human primary cell cultures suitable for research pursuant to cell based therapy technologies.     

Effects of lymphocytes and fibroblasts on the growth of human mammary carcinoma cells studied in short-term primary cultures

Summary Breast carcinomas commonly contain varying amounts of fibrous stroma and infiltrates of lymphoid cells. Dickson and Lippman (Endocrine Rev., 8,29, 1987) have proposed a model of growth regulation in breast cancer involving interactions between stroma and carcinoma cells. This model is based on results obtained with established cell lines. In an effort to bring experimentation closer to the clinical situation we have used short-term primary cultures from human breast cancer in co-cultures with lymphocytes and fibroblasts. Cultures were established in a chemically defined serum-free medium (CDM3). Cell types were characterized on the basis of live morphology and expression of vimentin and keratin 18. A semi-quantitative system was developed for measuring growth of epithelial cells, thus defining two indices: maximal growth index (GI-max) and growth rate (GR). Moderate-to-good growth was obtained from 34 out of 46 carcinoma samples (74%) and 30 out of 38 parallel samples of non-cancerous tissue (79%). Success in culture was negatively correlated with the amount of hard stroma but unrelated to age of patient or clinical status. Malignant epithelium was clearly identified in 12 out of 34 (35%) carcinoma samples. For the evaluation of responses of epithelial cells in co-cultures, the cultures from each sample were ranked according to GI-max. From 20 co-culture experiments using carcinoma samples, the following results were obtained: the highest GI-max was found in 11 of the co-cultures with lymphocytes; in six of the co-cultures with fibroblasts; in one case in the control culture without partner cells; and in two experiments there was no difference between controls and co-cultures. The corresponding values for non-cancerous samples were: 5 out of 17, 2/17, 2/17, and 8/17. Control experiments performed without partner cells confirmed that these differences in GI-max between cultures were beyond random variations. Four samples displayed particularly vigorous responses to lymphocytes, and two samples responded extensively to fibroblasts. In four of these six samples cancer cells proliferated. We conclude that it is feasible to use primary cultures of breast carcinomas for experimentation. Fibroblasts did not have very marked effects on epithelial cell growth, but, contrary to expectation, there was a clear tendency for lymphocytes to stimulate growth.     

UVB radiation affects the mobility of epidermal growth factor receptors in human keratinocytes and fibroblasts

Growth factor receptors transmit biological signals for the stimulation of cell growth in vitro and in vivo and their autocrine stimulation may be involved in tumorigenesis. It is therefore, of great value to understand receptor reactions in response to ultraviolet (UV) light which certain normal human cells are invaribly exposed to during their growth cycle. UV irradiation has recently been shown to deplete antioxidant enzymes in human skin. The aims of the present study were a) to compare the lateral mobility of epidermal growth factor receptors (EGF-R) in cultured human keratinocytes and human foreskin fibroblasts, b) to investigate effects of ultraviolet B radiation on the mobility of EGF-R in these cells, and c) study the response of EGF-R on addition of antioxidant enzymes. The epidermal growth factor receptors were labeled with rhodaminated EGF, the lateral diffusion was determined and the fraction of mobile EGF-R assessed with the fluorescence recovery after photobleaching (FRAP). We found that human keratinocytes display a higher basal level of EGF-R mobility than human skin fibroblasts, viz. with diffusion coefficients (D ± standard error of the mean, SEM) of 4.2±0.2 × 10^–10 cm²/s, and 1.8±0.2 × 10^–10 cm²/s, respectively. UVB-irradiated fibroblasts showed an almost four-fold increase in the diffusion coefficient; D was 6.3±0.3 × 10^–10 cm²/s. The keratinocytes, however, displayed no significant increase in receptor diffusion after irradiation; D was 5.1±0.8 × 10^–10 cm²/s. In both cell types the percentage of EGF-R fluorescence recovery after photobleaching, i.e. the fraction of mobile receptors, was significantly increased after irradiation. In keratinocytes it increased from 69% before irradiation to 78% after irradiation. Analogous figures for fibroblasts were 61% and 73%. The effect of UVB on fibroblast receptors was abolished by prior addition of superoxide dismutase (SOD) and catalase (CAT). It is concluded that UVB radiation of fibroblasts and keratinocytes can affect their biophysical properties of EGF-R. The finding that addition of antioxidant enzymes prevented the UVB effect in fibroblasts may indicate the involvement of reactive oxygen metabolites.Abbreviations CAT Catalase - D Lateral diffusion coefficient - EDTA Ethylenediaminetetraacetic acid - EGF Epidermal growth factor - E-MEM Eagle's minimum essential medium - FCS Fetal calf serum - FRAP Fluorescence recovery after photobleaching - KRG Krebs-Ringer phosphate buffer - PBS Phosphate-buffered saline - R Mobile fraction - ROS Reactive oxygen species - SEM Standard error of the mean - SOD Superoxide dismutase - UVA Ultraviolet light-A (315-400 nm) - UVB Ultraviolet light-B (280-315 nm)     

Growth and differentiation of human keratinocytes without a feeder layer or conditioned medium

Summary An improved procedure has been developed for clonal growth of normal human epidermal keratinocytes (HK) without feeder cells or conditioned medium. The use of medium 199, supplemented with 0.4 μg/ml hydrocortisone (HC) and 20% (v/v) whole fetal bovine serum (wFBS) and conditioned overnight by 3T3 cells, eliminated the need for a feeder layer of lethally irradiated 3T3 cells for HK growth. Several other media with equivalent conditioning and supplementation failed to support satisfactory multiplication of HK, including Dulbecco's modified Eagle's medium, which is normally used for growth of HK with a feeder layer. Increasing the concentration of HC to 10 μg/ml (2.8×10⁻⁵ M) made possible clonal growth of HK without any conditioning of the medium. The addition of 10⁻⁵ M putrescine, 10⁻⁵ M vitamin B₁₂, or 3.7×10⁻⁶ M β-estradiol further enhanced growth in unconditioned medium. Substantially greater improvement was obtained by the addition of pituitary extract or fractions prepared from pituitary extract. In medium 199 supplemented with 10 μg/ml HC, 20% (v/v) wFBS, and 0.15 mg/ml each of two pituitary fractions, single HK attach with a colony-forming efficiency equal to that in conditioned medium and form stratified, keratinized colonies that grow to confluency and can be subcultured. These results make it clear that HK do not require special “conditioning factors” from fibroblasts for clonal growth and differentiation in culture. Thus, factors directly involved in growth and the expression of differentiation can be analyzed without the interfering effects of any other type of cell. Preliminary studies with epidermal growth factor (EGF), which stimulates growth and extends life span of HK grown in the presence of fibroblasts, have shown that, in the absence of fibroblasts, EGF has no effect either on clonal growth or on cumulative multiplication potential of HK. This paper contains material from a thesis submitted to the Graduate School of the University of Colorado, Boulder, by Donna M. Peehl in partial fulfillment of the requirements for the Ph.D. degree. This work was supported by Grant CA 15305 from the National Cancer Institute and Grant AG 00310 from the National Institute on Aging.     

Growth characteristics of human esophageal epithelial cells in primary explant and serial culture

Summary Growth characteristics of human esophageal epithelial cells have been determined in primary explant and serial culture. Normal human esophagus was obtained from donor patients in a heart/lung transplantation program; tissue obtained at autopsy (6 to 22 h after death) was not viable. When mucosal specimens (1.5 mm²) were explanted on a plastic surface and attached with a plasma clot, 35% of explants detached from the surface within 48 h. The addition of epsilon amino caproic acid (EACA) to the culture medium increased explant attachment of 93% (P<0.001). Outgrowth kinetics were similar in both the presence and absence of EACA. No advantage of human serum over nonhuman sera was observed in primary culture. Esophageal epithelium could be frozen in 10% dimethyl sulfoxide without affecting growth kinetics. Addition of dexamethasone (DEX) significantly altered esophageal cell morphology in primary culture and increased viability on serial culture. Studies of pH revealed an optimum at pH 7.4 with significantly decreased growth occuring at 6.8 and no growth at 6.2. Esophageal cells in primary explant cultures could be released by trypsin and passaged two additional times with an eightfould increase in total number. An increased rate of attachment and multiplication was observed for cells plated on a collagen substrate compared to platic. The addition of EACA and DEX to the culture media and the subculture on a collagen substrate provide a method for the isolation and serial cultivation of human esophageal cells from biopsy-sized specimens of normal esophageal epithelium. Supported in part by Grant AM—14121 of the United States Public Health Service. A preliminary report of this work appeared in Clin. Res. 30: 93A; 1982.     

Distinction between vascular smooth muscle cells and myoepithelial cells in primary monolayer cultures of human breast tissue

Summary We report on the discrimination of vascular smooth muscle cells and myoepithelial cells in primary cultures of human breast tissue. Breast tissue was disaggregated enzymatically and the resulting organoids seeded in monolayer culture on collagen-coated plastic in serum-free medium CDM3a. Two main types of organoids were present after enzymatic digestion. One resembled small blood vessels and the other interlobular ducts or acini of the breast gland epithelium. Within 3 to 8 d after plating the organoids migrated into typical monolayer islets. These monolayer islets were evaluated using phase contrast microscopy and further tagged with monoclonal antibodies for immunocytochemical demonstration of Factor VIII-related antigen, muscle iso-forms of actin, type IV collagen, vimentin, desmin, and keratins. It is concluded that vascular smooth muscle cells resembled myoepithelial cells by expressing vimentin filaments, depositing type IV collagen, and showing immunoreactivity to muscle iso-forms of actin. However, whereas vascular smooth muscle cells were associated with endothelial cells and sometimes expressed desmin, myoepithelial cells appeared together with luminal epithelial cells and expressed cytokeratins. This work was supported by the Danish Medical Research Council, the Danish Cancer Society, the NOVO Foundation, and the Thaysen Foundation.     

Infection of primary cultures of murine splenic and thymic cells with coxsackievirus B4

Infection of primary cultures of total splenic and thymic cells from BALB/c and C3H/HeN mice with CVB4 E2 and JVB strains has been investigated. The presence of positive-strand viral RNA within cells was determined by semi-nested RT-PCR, and viral replication was attested by detection of intracellular negative-strand viral RNA and by release of infectious particles in culture supernatants. Viral replication occurred with both CVB4 strains to an extent dependent on the genetic background of the host. No interferon-alpha production was detected in the supernatants of CVB4-infected cultures using biological titration. Together these results suggest that infection of splenic and thymic cells can play a role in virus dissemination, and therefore in the pathophysiology of CVB4 infections.     

Toxicity assessment of paraverine hydrochloride and papaverine-derived metabolites in primary cultures of rat hepatocytes

Summary The present study was undertaken to assess and compare the toxic effects of papaverine hydrochloride and its metabolites. Primary cell cultures of rat hepatocytes were treated with papavarine (papaver), 3′-O-desmethyl (3′-OH), 4′-O-desmethyl (4′-OH), and 6-O-desmethyl (6-OH) papaverine at 1×10⁻⁵, 1×10⁻⁴, and 1×10⁻³ M for 4,8, 12, and 24-h periods. Cell injury was determined by: a) cell viability using the trypan blue exclusion test; b) cytosolic enzyme leakage of lactate dehydrogenase and aspartate aminotransferase; c) morphologic alterations; and d) lactate: pyruvate (L:P) ratios. Cell cultures showed concentration-and time-dependent responses. For example, a decrease in cell viability and an increase in enzyme leakage were observed after cell treatment with 1×10⁻⁴ and 1×10⁻³ M papaver for 8 h; 1×10⁻³ M 6-OH papaverine for 8 h and 1×10⁻⁴ M for 24 h; and 1×10⁻³ M 4′-OH papaverine for 24 h (P<0.05). Furthermore, changes in morphology correlated to cell viability and enzyme release in those cultures treated with papaver, 4′-OH and 6-OH papaverine. Some of these changes included size deformation, cell detachment from the dishes, and cell necrosis. On the other hand, an increase in L:P ratios (P<0.05) was detected with papaver as early as 8 h with 1×10⁻⁴ and 1×10⁻³ M and 12 h with 1×10⁻⁵ M; 6-OH showed an increase, in L:P ratios at 8 h with 1×10⁻³ M and 12 h with 1×10⁻⁴ M; these changes were evident with 4′-OH at 12 h with 1×10⁻³ M. In contrast, cells treated with 3′-OH papaverine did not show significant damage with any time period and concentration used in this study. The results of this study indicate that papaverine-derived metabolites are less cytotoxic than its parent compound, papaver. The toxicity was ranked as follows: papaver>6-OH>4′-OH>−3′-OH. This work was supported in part by grant ES04200-02 from the National Institute of Environmental Health Sciences, Bethesda, MD. Presented in part at the fall ASPET meeting in Salt Lake City, August, 1989. Daniel Acosta is a Burroughs Wellcome Scholar in Toxicology.     

Hepatotoxicity studies with primary cultures of rat liver cells

Summary A method for preparing primary monolayer cultures of postnatal rat hepatocytes has been developed in our laboratory. Growing cultures in arginine-deficient medium inhibits fibroblast overgrowth, and relatively pure cultures of parenchymal hepatocytes are obtained. This cell culture system has been used to study the cytotoxicity of two hepatotoxic agents, tetracycline and norethindrone. Caffeine was evaluated as an agent thought to be relatively nontoxic to liver. Cytotoxicity was evaluated by phase-contrast microscopy of cellular morphology and by measurement of leakage of intracellular enzymes [arginosuccinate lyase (ASAL), lactate dehydrogenase (LDH), glutamate oxaloacetate transaminase (GOT), glutamate pyruvate transaminase (GPT), and acid phosphatase (AP)] into the culture medium. Hepatic cultures were treated with each of the agents in concentrations ranging from 5×10⁻⁶ to 1×10⁻³ m and for durations from 1 to 24 hr. ASAL was found to be the most sensitive in predicting early cell injury and AP the least sensitive; the other three enzymes tested were intermittent in value and equally sensitive in evaluating cytotoxicity. Treatment of the cultures with tetracycline (5×10⁻⁴ m) for 6 hr resulted in ASAL leakage that was 400% of control values; and norethindrone (5×10⁻⁴ m) for 6 hr caused a 250% increase relative to controls. The hepatotoxic agents demonstrated a dose- and timedependence of cytotoxicity in the cultures. In contrast, caffeine was relatively nontoxic to the cultures. Part of this investigation was presented orally at the 17th Annual Meeting of the Society of Toxicology, San Francisco, March 13, 1978.     

Growth and differentiation of an established rat keratinocyte line in serial culture

Summary This paper describes the growth and differentiation of an established, feeder layer independent line of rat keratinocytes originally developed from tongue epithelium. The cells grew from any seeding density with a population doubling time of 14 to 16 h and a plating efficiency of 60 to 90%. The cells were kept in continuous culture for more than 3 yr and were cloned several times during this period. After more than 700 population doublings the cultures maintained typical expressions of the keratinocyte phenotype such as desmosomes and tonofilaments. The cells required 10 to 15% fetal bovine serum but no additional supplement of growth factors. Single colonies, as well as confluent multilayers, keratinized and displayed the whole complement of keratinization markers including keratin filaments, cornified envelopes, increased plasma membrane permeability, and destruction of cytoplasmic and nuclear components. However, the ability to stratify in a regular manner was lost although sporadic attempts of stratification were present. In suspension culture the cells terminally differentiated in 1 to 2 wk and developed highly cross-linked cornified envelopes that were resistant to boiling detergent solutions under reducing conditions. Chromosome numbers were in the diploid range (2N=38 to 46), but aberrations were frequent. This project was supported by grants from the Danish Medical Research Council and the FUT- and Calcinfoundations of the Danish Dental Association.     

Hypoxia induced metabolism dysfunction of rat astrocytes in primary cell cultures

In order to study the astroglial contribution to hypoxic injury on brain tissue metabolism, modifications of glutamine synthetase (GS) lactate dehydrogenase (LDH) enolase and malate dehydrogenase activity produced by reduced oxygen supply have been determined in primary cultures of astrocytes prepared from newborn rat cerebral cortex. Enzymatic activities were measured immediately after the hypoxic treatment (9 h) and during post injury recovery. GS level is significantly decreased in response to low oxygen pressure and increased above control value during the post hypoxic recovery period. The magnitude of GS reduction by hypoxia depends on the age of the cells in culture. Lactate dehydrogenase and enolase levels were significantly enhanced during the two periods considered. No modification of the MDH level was observed. The synthesis of LDH isoenzymes containing mainly M subunits is specifically induced by hypoxia. Our results suggest that astroglial cells may represent a particularly sensitive target toward hypoxia injury in brain tissue. Low oxygen pressure available may modify some fundamental metabolical functions of these cells such as glutamate turnover and lactic acid accumulation.     

Protocol for the long-term culture of human primary keratinocytes from the normal colorectal mucosa

Procedures for in vitro culturing of human primary keratinocytes from normal colon mucosa specimens have not been fully feasible, thus far. The protocol described herein allows primary keratinocytes from small tissue fragments of colorectal mucosa biopsies to grow in vitro. The procedure develops in three steps: (a) the enzymatic digestion of the tissue biopsy; (b) the use of cloning rings to purify primary keratinocyte colonies, (c) a defined keratinocyte medium to grow these cells in long-term culture. Our cultural method enables normal primary keratinocytes to be obtained by simple and rapid techniques. In our culture condition, primary keratinocytes express specific epithelial markers. Colorectal mucosa keratinocyte colonies require approximately 2 weeks to grow. Compared with previous approaches, our protocol provides a valuable model of study for human primary keratinocytes from normal colorectal (NCR) mucosa both at the cellular and molecular levels. It is well known, that different mutations occurring during the multistep process of carcinogenesis in the NCR mucosa, are strictly associated to the onset/progression of the colorectal carcinoma. On this ground, normal keratinocytes grown with our protocol, may represent an innovative tool to investigate the mechanisms that lead to colorectal carcinoma and other diseases. Our innovative procedure may allow to perform comparative investigations between normal and pathological colorectal cells.