Long-term culture of primary rat hepatocytes with high albumin secretion using membrane-supported collagen sandwich

Primary cultured rat hepatocytes in a membrane-supported collagen sandwich maintained their normal cell morphology and high level of albumin secretion for over 56 days. It was found that the existence of an upper layer of collagen gel is crucial for long-term culture and that the transference of cellular nutrients between the culture media and hepatocytes from both the upper and the lower sides of gel layers promotes albumin secretion. These facts suggest that the membrane-supported collagen sandwich mimics well thein vivo environment of hepatocytes. This method has great potential for the long-term culture of primary cells.     

Extended primary culture of human hepatocytes in a collagen gel sandwich system

Summary To develop a strategy for extended primary culture of human hepatocytes, we placed human hepatocytes between two layers of collagen gel, called a “collagen gel sandwich.” Maintenance of hepatocellular functions in this system was compared with that of identical hepatocyte preparations cultured on dry-collagen coated dishes or co-cultured with rat liver epithelial cells. Human hepatocytes in a collagen gel sandwich (five separate cultures) survived for more than 4 wk, with the longest period of culture being 78 d. They maintained polygonal morphology with bile canaliculuslike structures and high levels of albumin secretion throughout the period of culture. In contrast, hepatocytes on dry-collagen became feature-less, and albumin secretion could not be detected after 14 d of culture. This loss of albumin secretion was partially recovered by overlaying one layer of collagen gel. Ethoxyresorufin O-deethylase activity, associated with cytochrome P450 1A2, was detected basally up to 29 d in collagen gel sandwich culture. These activities were induced four- to eightfold after induction with dibenz(a,h)anthracene. Cocultures also maintained basal activity up to 29 d. However, their inducibility was lower than that of hepatocytes in collagen gel sandwich. No ethoxyresorufin O-deethylase activity was detected in hepatocytes cultured on dry-collagen at 7 d. Thus, the collagen gel sandwich system preserves differentiated morphology and functions of human hepatocytes in primary culture for a prolonged period of time. This system is a promising model for studying human hepatocellular function, including protein synthesis and drug metabolism in vitro.     

Primary culture of mouse mammary tumor epithelial cells embedded in collagen gels

Summary Mammary tumor epithelial cells from BALB/cfC3H mice were dispersely embedded inside the collagen gels in Ham's F-12 medium containing horse serum. A sustained cell growth leading to a 5- to 10-fold increase in cell number over initial level was observed in less than 2 weeks. The extent of this growth was found to be dependent on serum concentration. However, addition of various protein and steroid hormones, both singly and in combination, to low-serum-containing medium failed to achieve a comparable level of growth to that promoted by higher serum concentration. Mammary tumor cells can now be consistently propagated in primary culture. This investigation was supported by Grants CA05388 and CA09041 awarded by the National Cancer Institute, Department of Health, Education and Welfare, and by cancer research funds of the University of California.     

Growth in primary culture of mouse submandibular epithelial cells embedded in collagen gels

Summary Mouse submandibular glands were dissociated and the epithelial cells embedded in a collagen gel matrix. A characteristic and reproducible pattern of growth was seen resulting in three-dimensional outgrowths with ductlike structures projecting into the matrix. A sustained cell growth leading to a 5 to 10-fold increase in cell number was observed in less than 2 wk. The extent of this growth was found to be dependent on serum concentration. Of the three sera tested, swine serum was found to promote greater growth compared to fetal bovine serum or horse serum. Swine serum dose response studies have shown that a concentration of 2 to 5% in the medium elicited only a modest increase, if any, in cell number compared to the initial value within a period of 2 wk. Various hormones and growth factors were then added to this “maintenance” medium. Insulin was found to stimulate growth consistently and reproducibly in a dose-dependent manner. Ultrastructurally, the resulting outgrowths were comprised of polarized cells joined by apical tight junctions and desmosomes. These outgrowths produced epidermal growth factor in response to dihydrotestosterone, triiodothyronine, and cortisol. The present system provides a method for sustaining growth and functional differentiation in primary culture of mouse submandibular gland epithelial cells. This investigation was supported by PHS Grants CA05388 and CA09041, awarded by the National Cancer Institute, Department of Health and Human Services.     

Primary culture of rat hepatocytes entrapped in cylindrical collagen gels: An in vitro system with application to the bioartificial liver

A static culture model employing cylindrical collagen-hepatocyte gels is reported for large scale testing of conditions relevant to the three compartment hollow fiber bioartificial liver. High density hepatocyte cultivation was achieved by cell entrapment within the collagen-hepatocyte gel. Hepatocyte viability was assessed by vital staining, gel contraction, and insulin utilization. Measures of hepatocyte-specific function included albumin synthesis, ureagenesis, lidocaine biotransformation, and cholate conjugation. Although hepatocyte viability remained stable through the seven day incubation period, hepatocyte functions were not uniformly preserved. Albumin synthesis remained stable, while representative P-450 and conjugation activities decreased with time. This static culture system will facilitate the development of a hollow fiber bioartificial liver which utilizes cylindrical collagen-hepatocyte gels.Abbreviations FDA fluorescein diacetate - EB ethidium bromide - MEGX monoethylglycinexylidide     

Hepatocytic differentiation of rhesus monkey embryonic stem cells promoted by collagen gels and growth factors

rES (rhesus monkey embryonic stem) cells have similar characteristics to human ES (embryonic stem) cells, and might be useful as a substitute model for preclinical research. Before their clinical application, it is critical to understand the roles of factors that control the differentiation of ES cells into hepatocytes. Here, we analysed the effect of collagen gels on rES cells differentiation into hepatocytes by stepwise protocols. About 80% of DE (definitive endoderm) cells were generated from rES cells after being treated with activin A. The DE cells were then plated on to collagen gels or type I collagen-coated wells with growth factors to induce hepatocyte differentiation. In type I collagen systems, characteristics of immature hepatocytes were observed, including the expression of immature hepatic genes and the generation of 15±3% AFP (alpha fetoprotein)/CK (cytokeratin)18 double-positive cells. In collagen gel culture, differentiated cells exhibited typical hepatocyte morphology and expressed adult liver-specific genes. The mRNA expression of AFP (immature hepatic gene) was detected at day 11 but decreased at day 18. In contrast, mRNA expression of albumin (mature hepatic gene) was detected at day 11 and increased at day 18. Compared with type I collagen systems, significantly higher AFP/CK18 double-positive cells (68±7%) were produced in collagen gel culture. Furthermore, some differentiated cells acquired the hepatocytic function of glycogen storage. However, only immature hepatic genes were observed in collagen gel systems if growth factors were absent. Thus, collagen gels combined with hepatocyte-inducing growth factors efficiently promoted differentiation of hepatocytes from rES.     

Serum-free culture of enriched mouse anterior and ventral prostatic epithelial cells in collagen gel

Summary Sustained growth of mouse ventral and anterior prostatic epithelial cells embedded within collagen gel matrix was achieved in a serum-free medium composed of Dulbecco's modified Eagle's medium and Ham's F12 medium, 1∶1 (vol/vol), supplemented with bovine serum albumin fraction V, epidermal growth factor, transferrin, cholera toxin, prolactin, 5α-dihydrotestosterone, cortisol, putrescine, fibroblast growth factor, and a trace element mixture. Three-dimensional growth of prostatic epithelial cells occurred inside the collagen gel matrix. This serum-free medium allowed cell growth greater than sevenfold over 10 d in culture. Tissue recombination and cell culture techniques were integrated to demonstrate that cultured cells retained prostatic characteristics. Following 10 d of culture, epithelial colonies from mouse ventral and anterior prostatic epithelial cell cultures were isolated and combined with rat fetal urogenital sinus mesenchyme and grown for 4 wk under the renal capsule of intact athymic male mice. These tissue recombinants showed distinctive prostatic histologic characteristic (alveoli and ducts lined with cuboidal or columnar epithelium surrounded by stroma). When histologic sections of recombinants were stained with the Hoechst 33258, epithelial cells of mouse origin were distinguishable from stromal cells of rat origin. Aided by grants CA-05388 and CA-09041 from the National Institutes of Health, Bethesda, MD, and by M. A. R. C. fellowship GM08730 to T. T.     

Morphological and functional differentiation of human thyroid cells in collagen gel culture

In order to study the expression of the morphological and functional characteristics of human thyroid cells, 3-dimensional cultures were carried out in collagen gel. This substrate allows the cells to retain their organization in follicles with a normal polarity. Cellular polarities appeared normal at the time of collagen embedding, but there was a delay of 4-5 days in culture before the maximal TSH stimulation of 125I- uptake and of cAMP accumulation occurred. In normal and adenoma-derived cells, 125I- uptake, which could be increased by TSH, was demonstrated. cAMP accumulated in the culture medium and thyroglobulin was secreted into the follicle lumen. Of the 4 differentiated carcinomas for which the 72-hr uptake of 125I- was measured, only 2 displayed slight 125I- uptake and response to TSH. Thus, human thyroid cells exhibit better morphological and functional differentiation in collagen gel culture than in monolayer culture. Furthermore, in a variety of pathological cases studied, the expression of specific characteristics in culture varied in a fashion similar to differences observed in vivo.     

Intracellular cAMP determines the extent of degradation and not the synthesis of collagen by rat hepatocytes

Intracellular collagen degradation in normal rat hepatocytes was exponetially stimulated by db-cAMP (10–100 µM). The effect was manifested as a decrease (p < 0.01) in net collagen production. The extent of degradation directly co-related with the intracellular cAMP levels, only upto a threshold concentration (16.2 ± 1.3 p moles/10⁶ cells) elicited by 100 µM of db-cAMP. Higher concentrations induced no further increment. Forskolin adenylate cyclase activator (10–50 µM), produced similar effects demonstrating cAMP dependence of the phenomenon. Both db-cAMP as well as Forskolin stimulated collagen degradation (p < 0.05) in hepatocytes from rats administered CCL₄. However, the extent of stimulation was significantly (p < 0.01) less compared to that observed in normal hepatocytes. Our data demonstrates that elevated cAMP levels regulate net collagen content by signalling intracellular collagen degradation and not synthesis.Abbreviations cAMP 3,5 cyclic Adenosine Monophosphate - db-cAMP dibutyryl cyclic Adenosine Monophosphate - TCA Trichloroacetic Acid - Coll. Collagen - DMEM Dulbecoo's Minimal Essential Medium     

Long-term culture of hepatocytes from human adults

A long-term primary human hepatocyte culture retraining liver-specific functions is important and essential for basic research and for the future development of hepatocyte-based applications. We established a normal hepatocyte culture system from excess normal tissues obtained from adult liver cancer patients who received partial liver resection. Hepatocytes were isolated after perfusion and enzymatic disaggregation, and were first maintained in hormonally defined media on a Matrigel matrix, and then transferred to collagen sandwich gel. The hepatocytes formed clusters on the Matrigel matrix and increased in size and numbers with time of culture and eventually grew into spheroids of variable sizes. After being transferred to collagen gel, the cells migrated outward from spheroids to form a monolayer with cuboidal or polygonal cell shapes with granular cytoplasm and continued to proliferate. Cellular functions specific for hepatocytes were analyzed using immunoblot assay for proteins specifically secreted by the liver cells on different days of culture. The cells secreted albumin, transferrin and -fetoprotein consistently for more than 100 days, to a maximum of 150 days. Thus, we have established a long-term culture of hepatocytes from human adults, which will be useful for basic studies of liver physiology such as metabolism and morphogenesis, as well as for other applications in the study of infectious hepatitis, pharmacology, pharmacokinetics, and toxicology.     

Isolation and culture of adult hepatocytes from liver biopsies

Summary Hepatocytes were isolated from liver biopsies of rats, guinea pigs, rabbits, dogs, and humans. The procedure is based on cannulation of large veins in the cut face of the biopsy, followed by collagenase perfusion. Yields averaged 19×10⁶ viable hepatocytes/g liver. Viability averaged 84%, as determined by trypan blue dye exclusion. Cultures were prepared from the isolated hepatocytes and were found to be comparable in morphology andn-demethylase activity to hepatocyte cultures prepared by the in situ perfusion of the liver. The development of this method should facilitate comparative studies of the cytotoxicity, genotoxicity, and metabolism of foreign chemicals in primary hepatocyte cultures. These studies were supported by Grant 5-ROI-ES01597-02 from the National Institute of Environmental Health Sciences and Regional Research Project CA-D^*-ETX-3634-RR(NE115). Dog liver biopsies were provided by Dr. W. Spangler at the Laboratory for Energy-Related Health Research. Unused parts of human liver biopsies were provided by Drs. N. Pimstone and B. Ruebner at the Sacramento Medical Center.     

Growth factor interactions between mouse mammary cell lines cocultured in collagen gels

Summary Three related mouse mammary cell lines were cultured in collagen gels and assayed for growth factor responsiveness and interaction via soluble factors. The CL-S1 cell line is nontumorigenic and grows poorly in collagen gel culture. The +SA and −SA cell lines exhibit different degrees of malignant behavior in vivo and have different growth properties in vitro. In collagen gel culture, +SA growth was stimulated by serum but not by epidermal growth factor (EGF), whereas both serum and EGF were required for optimal growth of −SA cells of early passage number as well as CL-S1 cells. −SA cells of later passage repeatedly exhibited a change so as to no longer require serum while retaining EGF responsiveness. [¹²⁵I]EGF binding analyses indicated that CL-S1 cells bound EGF with less affinity than did −SA cells whereas +SA cells bound almost to ligand. When cell lines were maintained in separate collagen gels but shared the same culture medium, growth of +SA or −SA cells was slightly enhanced in the presence of CL-S1 cells and −SA cell growth was enhanced by the presence of +SA cells. Using the normal rat kidney fibroblast line NRK (clone 49F) as an indicator, serum-containing conditioned media from each cell line and from each pair of cell lines cultured in collagen gels were tested for transforming growth factor (TGF) activity. Both the −SA and CL-S1 lines tested positive for TGF-α production and possibly released a TGF-β activity. These results suggest mechanisms by which cell populations in and around tumors can modify one another’s growth characteristics. The work was supported by a grant from the American Institute for Cancer Research, by American Cancer Society Institutional grant IN-119, by funds from the Poncin Trust (Seattle-First National Bank), and by grants CA-39611 and CA46885 from the National Institutes of Health, Bethesda, MD.     

Influence of collagen gel substrata on certain biochemical activities of hepatocytes in primary culture

In order to study the influence of cell shape as modulated by the extracellular matrix on the cellular activity, hepatocytes isolated from liver were maintained on collagen I coated plastic substrata and collage I gel substrata and certain hepatocyte specific functions were investigated. The incorporation of³[H]-leucine into total proteins and albumin secreted by cells maintained on collagen gel was found to be significantly higher compared to those maintained on a collagen coated plastic substrata, indicating that hepatocytes on collagen gel have an enhanced albumin synthesizing capacity. Increased incorporation of³⁵[S]-sulphate into total proteoglycans (PG) and a relatively higher fraction of the³⁵[S]-PG in the extracellular space showed an increased rate of synthesis and secretion of sulphated PGs by cells maintained on collagen gels. But in contrast to the above results, the incorporation of³[H]-leucine into cytokeratins C₈, C₁₈ and actin were significantly low in cells maintained on collagen gel. The tyrosine amino transferase activity exhibited by hepatocytes preincubated with dexamethasone on collagen gel was also significantly low. The different forms of collagen substrata appeared to have no effect on the amino acid transport by hepatocytes, further suggesting that the various hepatocyte specific functions are not uniformly altered when hepatocytes are maintained on three-dimensional collagen gel substrata. These results indicate that the shape of the cell as determined by the nature of the matrix substratum influences the synthetic activity of secretory proteins and those remaining intracellularly, differently.     

Role of serum and hormones during the growth and development of rat mammary tumor epithelial cells in collagen gel culture

Summary The characteristics of hormone-dependent rat mammary tumors in response to serum and hormones were determined in collagen gel matrix culture. Epithelial cells from 7,12-dimethylbenz[a]anthracene (DMBA)-induced mammary adenocarcinomas were embedded in collagen gel and the effect of estrogen, progesterone, prolactin, insulin, and serum was tested. The total cell number and [³H]thymidine incorporation were used to determine the growth pattern of the cells in culture. It was found that in medium containing 20% porcine serum and supplemented with insulin, estrogen, progesterone and prolactin, both the cell number and [³H]thymidine labeling index increased with time, after an initial lag. Serum seemed to be essential to maintain growth of the tumor cells, because hormones alone, in the absence of serum, were unable to sustain growth of the cells. When estrogen, progesterone, prolactin, and insulin were tested individually in the presence of 20% porcine serum, only estrogen demonstrated a significant stimulatory effect.     

Rat pancreatic interlobular duct epithelium: Isolation and culture in collagen gel

Summary Interlobular duct fragments from the pancreas of the rat were isolated by collagenase digestion and filtration, embedded in a matrix of rat-tail collagen, and cultured in a 1∶1 mixture of Dulbecco’s minimal essential and Ham’s F12 media supplemented with cholera toxin (CT, 100 ng/ml) and epidermal growth factor (EGF, 10 ng/ml) in addition to supplements used previously, thereby improving the yield of ducts by a factor of two compared with previous resuts. The ducts were harvested by digestion of the collagen matrix with collagenase and were then dissociated by treatment with EDTA in divalent cation-free salt solution, followed by digestion with collagenase and hyaluronidase. The resulting tissue fragments were suspended in collagen and cultured as were the ducts. Numerous cysts appeared as a function of time and some of these enlarged dramatically. Some of the larger cysts exhibited secondary tubular processes extending into the surrounding collagen. The addition of bovine pituitary extract (BPE, 50 μg/ml) doubled the number of cysts, whereas omission of serum or CT+EGF reduced the number. BPE or forskolin could substitute effectively for CT. Agents that stimulate (secretin) or inhibit (e.g., ouabain or acetazolamide) fluid-electrolyte secretion in vivo had no effect on the number or average diameter of the cysts. The cysts were 83 to 88% epithelial with the balance of the cells being fibroblastic in appearance. Some cysts consisted only of epithelium. The proliferative capacity of the cystic epithelium was shown, by the presence of mitotic figures and by an autoradiographic labeling index of 22 to 30% after a 24-h exposure to [³H]thymidine. The labeling index was reduced by the omission of CT+EGF. Transmission electron microscopy showed that the cysts exhibited morphologic features of duct epithelium in vivo, including apical microvilli, lateral, interdigitations of the plasma membrane, and typical cytoplasmic organelles.     

Cultureof bovine mammary epithelial cells on collagen gels

A method for the isolation of lobules of acini from bovine mammary gland and their storage in liquid nitrogen is described. After further dissociation of freshly prepared or frozen lobules, clumps of cells are obtained which attach to collagen gels and give rise to colonies which, on morphological criteria, appear predominantly epithelial. Storage for up to 6 months did not adversely affect viability. Increase in colony area involved cell division, was more rapid in air than in 95% oxygen and was enhanced by fetal calf serum.     

Effect of polypeptide hormones on stimulation of casein secretion by mouse mammary epithelial cells grown on floating collagen gels

Summary The in vitro effects of protein hormones on the stimulation of casein secretion by mouse mammary epithelial cells were studied. Mouse mammary glands were enzymatically dissociated and used immediately or were stored frozen and thawed just before use. Cells were cultured on floating collagen gels in the presence of insulin, cortisol and a pituitary or placental polypeptide hormone. Casein, released into the medium, was assayed by a radioimmunoassay against one of the components of mouse casein. Mammary cells released casein into the medium in the presence of as little as 10 ng of ovine prolactin per ml of medium. Human growth hormone stimulated the casein secretion to the same extent as prolactin. Human placental lactogen, ovine and bovine growth hormones were less stimulatory. Luteinizing hormone, follicle-stimulating hormone and thyroid-stimulating hormone had no effect on the stimulation of casein secretion. This investigation was supported by Grant No. CA 05388 awarded by the National Cancer Institute, DHEW, and by Cancer Research Funds of the University of California.     

Contraction of fibroblast-containing collagen gels: Initial collagen concentration regulates the degree of contraction and cell survival

Remodeling of extracellular matrix involves a number of steps including the recruitment, accumulation, and eventual apoptosis of parenchymal cells as well as the production, organization, and rearrangement of extracellular matrix produced by these cells. The culture of fibroblasts in three-dimensional gels made of type I collagen has been used as a model of tissue contraction which characterizes both wound repair and fibrosis. The current study was designed to determine the effect of initial collagen concentration on the ability of fibroblasts to contract collagen gels and on cell survival. Native type I collagen was extracted from rat tail tendons and used to prepare collagen gels with varying collagen concentrations (0.75-2.0 mg/ml). Human lung fibroblasts (HFL-1) were cast into the gels and cultured in Dulbecco modified Eagle medium with 0.1% fetal calf serum for 2 wk. The gel size, collagen content, and deoxyribonucleic acid (DNA) content were determined. Gels prepared with an initial concentration of 0.75 mg/ml contracted more rapidly and to a smaller final size than gels prepared from 2 mg/ml initial collagen concentration (final size 7.1 versus 36.4% of initial size, P < 0.01). There was no significant degradation of the collagen in the gels under either condition. Hence, the dramatically increased contraction of the lower density gels resulted in a higher final density (P < 0.01). Cell density was estimated from DNA content. In low initial density gels, the final DNA content was significantly less than that in higher initial density gels (0.73 versus 1.88 microg/gel, P < 0.05). This was accompanied by an increased percentage of apoptotic cells at day 14 (43.3 versus 34.1%, P < 0.05). If the gels were maintained in the attached state which largely prevents contraction, apoptosis was significantly reduced, suggesting that contraction rather than matrix composition was a requirement for the increased apoptosis. In summary, these findings indicate that the initial matrix composition can lead to differing outcomes during fibroblast-mediated wound contraction.     

A method for the comparative study of replicative DNA synthesis in GGT-positive and GGT-negative hepatocytes in primary culture isolated from carcinogen-treated rats

Summary The presence of gamma-glutamyl transpeptidase (GGT) in focal nodules of hepatocytes is a commonly used marker for the identification of preneoplastic cell populations. Female Fischer 344 rats were initiated with a single intragastric administration of 200 mg diethylnitrosamine/kg, altered cells were selected after 0.02% 2-acetylaminofluorene was given in the diet; this was followed by a partial hepatectomy and promotion with dietary sodium phenobarbital for 4 wk. A mixed-cell population of GGT-positive and GGT-negative hepatocytes was obtained after collagenase perfusion and Percoll purification. An enriched population of GGT-positive hepatocytes was obtained by a modified “panning” technique. With quantitative scintillation spectrometry and autoradiography of [³H]thymidine incorporation, replicative DNA synthesis of GGT-positive and GGT-negative rat hepatocytes was observed in both the mixed-cell population and the enriched GGT-positive and GGT-negative cell populations. Under the culture conditions used, GGT-positive cells showed a higher level of replicative DNA synthesis than did GGT-negative cells; this indicates that such altered hepatocytes in the stage of promotion possess an inherently greater capacity for all replication, as previously suggested from studies in vivo.     

Functional differentiation of mouse uterine epithelial cells grown on collagen gels or reconstituted basement membranes

Summary Epithelial cells were isolated from mouse endometrium and cultured on two types of extracellular matrix, namely, rat-tail collagen (type I) gels and basement membrane extract (BME) derived from the Engelbreth-Holm-Swarm murine sarcoma. Cell attachment in serum-free medium during the initial 24 h after seeding was approximately twofold higher on BME compared with collagen type I. Addition of serum to the medium enhanced cell attachment on both matrices. On both collagen and BME, uterine cells grew as smooth-bordered colonies, and within a week of culture the cells became cuboidal to columnar in shape. Electron microscopy revealed the presence of apical microvilli associated with a glycocalyx, junctional complexes, tonofilaments, short strands of undilated endoplasmic reticulum, Golgi complex, and lipid droplets. However, cells on BME showed a higher degree of differentiation as assessed by occasional formation of small patches of basement membranelike structure subjacent to the flattened basal surface and formation of glandlike structures within the matrix. Proliferation of these cells as measured by radioactive thymidine incorporation into DNA was increased threefold by addition of epidermal growth factor (EGF) and insulin to the medium, but was not changed by 17β-estradiol. The expression of progesterone receptors by uterine epithelial cells grown on both matrices was doubled by addition of EGF and estradiol to the medium. This work was supported in part by a Rockefeller Foundation postdoctoral fellowship (D.G.), and NIh grant 23511.