Serum-free collagen sandwich cultures of adult rat hepatocytes maintain liver-like properties long term: A valuable model for in vitro toxicity and drug-drug interaction studies

Cultures of primary hepatocytes from various species, including human, are used in several applications during pre-clinical drug development. Their use is however limited by cell survival and conservation of liver-specific functions in vitro. The differentiation status of hepatocytes in culture strongly depends on medium formulation and the extracellular matrix environment. We incubated primary rat hepatocytes for 10 days on collagen monolayer and in collagen sandwich cultures with or without serum. Restoration of polygonal cell shape and formation of functional bile canaliculi-like structures was stable only in serum-free sandwich cultures. Variations in general cell viability, as judged by the cellular ATP content, LDH release or apoptosis, were less pronounced between alternative cultures. The intracellular glutathione content was preserved close to in vivo levels especially in serum-free sandwich cultures. Basal activities of cytochrome P450 enzymes (P450) varied strongly between cultures. There was a minor effect on CYP1A but CYP2B activity was only detectable in the serum-free sandwich culture after 3 days and beyond. CYP2C activity was slightly elevated in both sandwich cultures, whereas CYP3A showed increased levels in both serum-free cultures. Inducibility of these P450s was fully maintained over time in serum-free collagen sandwich only. Gene expression was largely constant over time in serum-free sandwich cultures that was closest to liver. This liver-like property was supported by protein profiling results. Taken together, the serum-free collagen sandwich culture of primary rat hepatocytes maintained liver-like features over 10 days and is therefore a suitable model for long-term toxicity and drug-drug interaction studies.     

The morphology of mesangial cells cultured at high density and in collagen gels

Primary mesangial cells (rat) from monolayer cultures of the 6th to 12th passage and permanent SV40 Mes13 cells were grown at high density in organoid culture at the medium/air interphase. After adaptation to the in vitro conditions, both mesangial cell types developed after 7 days a synthesis apparatus (endoplasmic reticulum, Golgi apparatus) and produced matrix which consisted of Lamina densa-like material, collagenous fibrils and filaments. Unspecific contacts, gap junctions and adhesion belts could be demonstrated in the contact areas. Additionally, some cells exhibited thick bundles of actin filaments. A close resemblance of the mesangial cells in high density culture to those in vivo can, therefore, be stated. Hence, they differentiated with regard to their matrix formation, contraction and contact behaviour and can therefore be used for experimental studies within a short culture period of 7 days. Cell aggregates in monolayer culture and in cultures in collagen gels had not differentiated at this stage.     

Localization of collagen prolyl hydroxylase to the hepatocyte : Studies in primary monolayer cultures of parenchymal cells from adult rat liver

Significant levels of prolyl hydroxylase activity (prolyl-glycyl-peptide, 2-oxoglutarate: oxygen oxidoreductase; EC 1.14.11.2) have been found in freshly isolated hepatocytes prepared from normal or regenerated adult rat liver and primary non-proliferating monolayer cultures of these cells. Four days after partial hepatectomy, the intact regenerated liver contained two times the normal level of prolyl hydroxylase activity. Freshly isolated hepatocytes contained 24% of the total prolyl hydroxylase activity in normal liver and 47% of that in regenerated liver. Upon incubation of hepatocytes for 24 h in a chemically defined culture medium containing insulin, prolyl hydroxylase activity rose 2- to 3-fold, and gradually declined during the next 48 h. The rise in prolyl hydroxylase activity was blocked by addition of cycloheximide to the culture medium. The presence of prolyl hydroxylase activity in hepatocyte cultures was not likely due to contamination with non-parenchymal liver cells. The latter cells contained less than 20% of the total enzyme activity recovered in all cells isolated from the liver. Furthermore, prolyl hydroxylase was localized by immunofluorescence uniformly to the hepatocytes in culture. Cultured hepatocytes converted [¹⁴C]proline to [¹⁴C]hydroxyproline at rates comparable to those reported for whole liver. However, only a small portion of the hydroxyproline containing product was present as collagen protein, suggesting its rapid degradation in culture. We conclude that the liver parenchymal cell may actively participate in collagen synthesis and possibly in collagen degradation.     

Effects of L-proline on phase I and phase II xenobiotic biotransformation capacities of rat and human hepatocytes in long-term collagen gel cultures

L-Proline supplementation of the medium for collagen gel cultures of hepatocytes has been shown to improve albumin secretion. A study was made as to whether L-proline is also essential for the maintenance of xenobiotic biotransformation capacities in collagen gel sandwich and immobilisation cultures of rat and human hepatocytes. Key phase I (cytochrome P450-dependent monooxygenase [CYP)] and microsomal epoxide hydrase [mEH]) and phase II (glutathione S-transferase [GST]) biotransformation enzyme activities and the secretion of albumin in the culture medium were assessed in the absence and presence of L-proline. CYP and mEH activities were not affected by the addition of L-proline, whereas phase II alpha-Class GST activity of rat hepatocytes in collagen cultures was decreased. Species differences were demonstrated, as human hepatocytes showed a better maintenance of GST activities than their rat counterparts in the presence of L-proline. Albumin secretion, often considered to be a marker for differentiated cell function, does not parallel the biotransformation capacities of the hepatocytes in culture. Additional results demonstrated an L-proline-mediated enhancement of the proliferation rate of contaminating stellate cells in conventional monolayer culture. Transdifferentiation of stellate cells to proliferating myofibroblasts, along with an increased albumin secretion and collagen synthesis, are characteristic of fibrotic liver. Since the last two phenomena have been observed in L-proline-supplemented collagen gel cultures, it can be concluded that when stable collagen gel cultures of rat hepatocytes are needed for long-term pharmacotoxicological studies, it is preferable to use an L-proline-free culture medium. Further studies on medium optimisation are required for hepatocytes from species other than rat.     

Pyruvate kinase isoenzyme transitions in cultures of fetal rat hepatocytes

Changes in the expression of two isoenzymic forms of pyruvate kinase in fetal hepatocyte cultures derived from 15- and 19-day gestation rats are studied by immunocytochemical localization of the respective antigens. Initially, in cultures established from 15-day gestation rats only the ‘embryonic’ form of the enzyme (M2-PK) is detected in all cells. Cells which stain positively for the liver specific form of the enzyme (L-PK) are not observed. After 2 days' culture, a significant number of cells have become positive for L-PK. All the positive cells have a morphology which is typical of liver parenchymal cells. However, the majority of parenchymal cells remain negative for L-PK while retaining M2-PK. In contrast, all cells which display a fibroblastic morphology, as well as clear epithelial cells are M2-PK positive, but L-PK negative. In 5-day-old cultures, all hepatocytes have become L-PK positive. Hepatocytes derived from 19-day gestation rat liver stain positively for L-PK on day 1 of culture in agreement with previously published biochemical data. A minor population of negative cells is non-parenchymal in appearance. All parenchymal cells are negative when the culture is stained with M2-PK specific antibody. Five days after the culture is established, many non-parenchymal cells are present. Such cells are L-PK negative and M2-PK positive and their presence in cultures derived from both 15- and 19-day gestation rats explains the persistence of M2-PK. This study reveals that during enzymic differentiation of fetal hepatocytes, all immature hepatocytes are initially capable of expressing M2-PK while they do not produce L-PK. During culture, a sub-population of these cells initiates synthesis of L-PK, indicating that only a fraction of the cells differentiate. At the same time, hepatocytes which do not stain for M2-PK appear, which suggests that cells which initiate L-PK synthesis have ceased to make M2-PK. Eventually all hepatocytes are L-PK positive and M2-PK negative, indicating that a switchover in expression of the pyruvate kinase isoenzymes has occurred.     

Extended expression of differentiated function in primary cultures of adult liver parenchymal cells maintained on nitrocellulose filters : I. Induction of phosphoenolpyruvate carboxykinase and tyrosine aminotransferase

A new support system has been developed which provides long-term maintenance of non-dividing adult rat liver parenchymal cells in monolayer cultures. The hepatocytes, attached to Millipore (MP) filters, are maintained as free-floating cultures which express differentiated liver cell functions for up to 13 days. After 8 days of culture on MP filters, the hepatocytes are still capable of inducing tyrosine aminotransferase 3- to 4-fold and phosphoenolpyruvate carboxykinase 10-to 15-fold. The advantage of using floating MP filters to support the hepatocytes over the more conventional culture supports such as glass or plastic dishes are: (1) the functional lifespan of cultured hepatocytes is doubled, permitting experiments requiring 4–8 days to complete; (2) it permits rapid and easy transfer of cells from one set of culture conditions to another; (3) sections can be cut from one filter permitting multiple samples from a single culture; (4) the filters containing the cells can be processed without losing the orientation of cell surfaces, an important consideration when employing techniques such as autoradiography and/or electron microscopy; and (5) this culture technique can readily be adapted for co-cultivation experiments in order to directly examine biological and biochemical effects of secreted products of one cell type on another.     

Modulation of protein synthesis and secretion by substratum in primary cultures of rat hepatocytes

Hepatocytes isolated by perfusion of adult rat liver and cultured on substrata consisting of one or more of the major components of the liver biomatrix (fibronectin, laminin, type IV collagen) have been examined for the synthesis of defined proteins. Under these conditions, tyrosine amino transferase, a marker of hepatocyte function, is maintained at similar levels in response to dexamethasone over 5 days in culture on each substratum, and total cellular protein synthesis remains constant. By contrast, there is a rapid decrease in synthesis and secretion of albumin and a 3-7-fold increase in synthesis and secretion of alpha-fetoprotein which are most marked on a laminin substratum, but least evident on type IV collagen, and an increased synthesis of fibronectin and type IV collagen. The newly synthesized matrix proteins are present in the cell layer as well as in cell secretions. The enhanced synthesis of fibronectin is less in cells seeded onto a fibronectin substratum than on laminin or type IV collagen substrata, and its synthesis by hepatocytes seeded onto a mixed substratum of laminin and fibronectin is down-regulated by fibronectin in a dose-related manner. Similarly, type IV collagen synthesis is less when the cells are seeded on the homologous matrix protein substratum than on heterologous substrata. These results indicate that hepatocytes cultured in serum-free medium on substrata composed of components of the liver biomatrix maintain certain functions of the differentiated state (tyrosine amino transferase), lose others (albumin secretion) and switch to increased synthesis of matrix components as well as fetal markers such as alpha-fetoprotein. The magnitude of these effects depends on the substratum on which the hepatocytes are cultured.     

Formation of chondrous and osseous tissues in micromass cultures of rat frontonasal and mandibular ectomesenchyme

Rat frontonasal and mandibular mesenchyme was isolated from day-12 1/2 (stage-22) rat embryos and cultured at high density for up to 12 days. The stage chosen was based on the observation that mandibular mesenchyme at this stage became independent of its epithelium with respect to the production of both cartilage and bone. Frontonasal cultures developed aggregates of anastomosing columns of cells within 2 days. These grew as the cells enlarged, laying down an Alcian-blue-positive matrix by day 3 of culture. Significant mineral was detected by von Kossa staining by day 5 at which time the aggregates covered a large portion of the culture, eventually covering the entire micromass by day 10-12. Mandibular cultures developed centrally located nodular aggregates by 3 days of culture. These nodules increased in number, spreading outwards as the cells enlarged, laying down an Alcian-blue-positive matrix by day 4 and mineral by days 6-7. At this time the nodules began to elongate and coalesce, but never covered the entire culture over the 12-day period. Antibody staining revealed that in both cultures the cells were initially positive for type I collagen. Subsequently, the aggregates began expressing type II collagen, followed by type X, which coincided with the onset of mineralization. At this time some cells were negative for these cartilage markers, but positive for osteoblast markers, bone sialoprotein II, osteocalcin and type I collagen. In addition osteonectin and alkaline phosphatase were demonstrable in all of the aggregate cells late in the culture period. This provided clear evidence that chondroblast and osteoblast differentiation was proceeding within these cultures. The culture of rat facial mesenchyme should prove very useful, not only for the analysis of bone and cartilage induction and lineage relationships, but also in furthering our knowledge of craniofacial differentiation, growth and pattern formation by extending our analysis to a mammalian system.     

Primary monolayer cultures of postnatal rat liver cells with extended differentiated functions

Monolayers of liver cells cultured from postnatal rats were grown in two types of media. One set of cultures was grown in selective medium which contained ornithine but was deficient in arginine; the other set was grown in nonselective medium which contained arginine but no ornithine. The cultures that were grown in the nonselective medium contained primarily a mixture of two cell types found in the liver: parenchymal hepatocytes and fibroblast-like cells. The fibroblast cells tended to overgrow the hepatocytes after several days in culture. In contrast, fibroblast overgrowth was inhibited in cultures grown in the selective, arginine-deficient medium, thereby resulting in relatively pure cultures of functional parenchymal hepatocytes. Comparative studies of sulfobromophthalein (BSP) uptake showed that the cultures grown in selective medium continued to be active much longer than the cultures grown in the nonselective medium. Pyruvate kinase assays revealed that the cultures grown in selective medium contained primarily the L-isoenzyme type which is characteristic of parenchymal hepatocytes. Cultures grown in nonselective medium contained a mixture of L- and M-isoenzymes which is indicative of nonparenchymal liver cells. The reported results indicate that selective, arginine-deficient medium permits primarily the growth of parenchymal hepatocytes found in neonatal rat liver.     

Preparation of liver cultures from human embryos

The cultures were obtained from 9-12-week-old human embryonic liver. 24-36 hours after seeding the cultures containing a multilayer focus of adhesion and a monolayer growth zone were formed. The growth zone contained hepatocytes with bile pigment granules in the cytoplasm. The formation of culture monolayer coincided with the elimination of hemopoietic cells.     

Pyruvate-induced long-term maintenance of glutathione s-transferase in rat hepatocyte cultures

The addition of pyruvate to the culture medium has been reported to improve the maintenance of P450-dependent enzyme expression in primary rat hepatocyte cultures. In this study, the effects of 30mM pyruvate on cell morphology, albumin secretion and glutathione S-transferase (GST) expression were investigated as a function of the time in culture. The effect of triiodothyronine (T3) exposure on GST expression was also measured in pyruvate-treated cultures. Transmission electron microscopy showed that untreated hepatocytes deteriorated after culture for 7 days, whereas the morphology of the pyruvate-treated cells was similar to that observed in intact liver tissue. The albumin secretion rate was significantly higher in rat hepatocytes exposed to pyruvate than in control cells. In the presence of pyruvate, mu and alpha class GST activities were well maintained, whereas GST pi activity was increased over the entire culture period. HPLC analysis revealed that the complement of GST subunits present in hepatocytes is altered during culture with pyruvate: mu,class proteins remained relatively constant, whereas a decrease in the alpha class content was accompanied by a strong increase in GST subunit P1 (GSTP1). The induction of GSTP1 was confirmed at the mRNA level. In control cultures, pi class GST activity was increased, but total, mu, and alpha class GST activities continuously declined as a function of culture time and became undetectable beyond 7 days in culture. At the protein and mRNA levels, a much smaller increase in GSTP1 was observed than in the pyruvate cultures. When the pyruvate-treated cell cultures were exposed to T3, an inhibitory effect on GST activities and proteins was found. These results indicate that this simple culture model could be useful for studying the expression and regulation of GST.     

Synthesis, accumulation and turnover of carbamoylphosphate synthetase and phosphoenolpyruvate carboxykinase in cultures of embryonic rat hepatocytes

Glucocorticosteroid, thyroid hormones and cyclic AMP can induce the synthesis of carbamoylphosphate synthetase and phosphoenolpyruvate carboxykinase in cultures of hepatocytes as soon as these cells differentiate from the embryonic foregut. The low levels of both enzymes that can accumulate in such still protodifferentiated hepatocytes are due to low levels of enzyme synthesis. In cultures, the rate of synthesis of both enzymes increases continually in the presence of hormones, showing that maturation of the capacity for synthesis towards the postnatal, fully differentiated situation is occurring in these cells. The turnover rate of both enzymes in embryonic hepatocytes is lower in the presence of hormones than in the absence, but does not change during the culture period. In the presence of hormones the turnover rate is comparable to that found in adult rat liver in vivo. The development of the capacity to accumulate organ-specific enzymes in vitro (and hence the rate of enzyme synthesis) is found to be comparable to that in utero.     

The effects of cell density, attachment substratum and dexamethasone on spontaneous apoptosis of rat hepatocytes in primary culture

Summary The rates of spontaneous cell detachment, cell viability, and apoptosis in primary cultures of rat hepatocytes plated at high and low density were compared. Apoptosis was frequent in detached cells, and the rates of cell detachment and apoptosis were greater in high-density than in low-density cultures. Among attached cells, more cells had condensed or fragmented nuclei in high-density than in low-density cultures. Further, ladder-like DNA fragmentation was not seen in low-cell-density cultures but was clearly evident in high-density cultures. Bax was more highly expressed in cells cultured at high density, and on collagen vs. matrigel, whereas changes of Bcl-2 and Fas expression observed in culture appeared unrelated to the rate of apoptosis. The rate of hepatocyte apoptosis appeared to be identical in low-density cultures on collagen 1 and matrigel, but when cells were cultured at high density, matrigel suppressed apoptosis by more than 50% at 36 h. In hepatocytes cultured on collagen 1, dexamethasone (0.1 μM) suppressed apoptosis in both low- and high-density cultures; higher doses had no further effects. In high density cultures, aurintricarboxylic acid (10 μM) suppressed apoptosis and this improved cell attachment at 48 h. It is concluded that cell viability in primary cultures of rat hepatocytes grown on collagen I is dependent on optimal culture density and that the cell population is regulated, at least in part, by apoptosis. Corticosteroids suppress spontaneous apoptosis of cultured hepatocytes in a non-dose-dependent manner, whereas matrigel abolishes apoptosis induced by increasing cell density. Bax may be an important protein in the cell density and cell matrix-dependent regulation of apoptosis in cultured hepatocytes.     

Fine structural identification of organoid mouse lung cells cultured on a pigskin substrate

Summary Mouse full-term embryonic lung tissue was cultured as organ bits using dead, sterile pigskin dermal collagen as a substrate. Explanted organ bits grew on the surface of, and into, the pigskin dermal collagen for at least 9 weeks after the initiation of culture. The out-growth consisted of a thick cellular sheet containing various sizes of ductular structures within a cellular matrix that did not show any particular structure. Electron microscopic observation revealed that the larger ductular structures consisted largely of ciliated cells. The smaller ductular structure consisted largely of Type II pneumocytes containing lamellar hodies. The cellular matrix consisted of Type II pneumonocytes and other cell types including fibroblasts and macrophages in the early stage of cultivation. Macrophages invaded the pigskin dermal collagen. An intermediate cell type, which has never been observed in vivo, possessing both cilia and lamellar bodies was identified in the larger ductular structures. Upon comparison of the ultrastructure of the organoid in vitro cultures in pigskin with the components and structure of the cultured cells more closely resembled adult lung than the fetal lung used to initiate the cultures. This work was supported by the Council for Tobacco Research Grant 1203M, American Cancer Society Grant RD-65 (for the equipment), and the National Cancer Institute Grant CA 25392.     

Collagen type I gel cultures of adult rat hepatocytes as a screening induction model for cytochrome P450-dependent enzymes

Albumin secretion, expression of cytochrome P450 dependent mono-oxygenases (CYPs) and their inducibility by well-known inducers were evaluated during 1 week in collagen type I gel sandwich and immobilisation cultures of adult primary rat hepatocytes. Albumin secretion increased during culture time and, following an initial decrease, CYP biotransformation activities remained stable for at least 7 days. Better preservation results were observed in the collagen gel sandwich culture than in the immobilisation model. The inducibility of CYPs by beta-naphthoflavone (beta-NF), 3- methylcholanthrene (3-MC), phenobarbital (PB) and dexamethasone (DEX) was studied in both collagen gel hepatocyte cultures. Exposure of the cells to either 5microM 3-MC or 25 microM beta-NF, added to the culture medium, resulted in strong increases of CYP1A1/2 activity in both culture models. Treatment with PB (3.2 mM) resulted in an increase in the CYP2B activity and a higher hydroxylation of testosterone in the 16alpha-position (CYP2B1/2 and CYP2C11), the 7alpha-position (CYP2A1/2), and the 6beta-position (CYP3A1). DEX (10 microM) markedly increased testosterone 6beta- and 7alpha-hydroxylation. Expression and induction experiments of CYP proteins exposed to these molecules confirmed the results of the CYP activity measurements. The patterns of CYP induction in collagen gel cultures of rat hepatocytes were similar to those observed in vivo. Consequently, collagen gel cultures and, more specifically, collagen gel sandwich cultures seem to be suitable as in vitro models for evaluating xenobiotics as potential inducers of CYP-enzymes.     

Primary cultures of hepatocytes on human fibroblasts

Summary Parenchymal hepatocytes isolated from adult rats were cultured on three types of collagen-containing substrata: collagen-coated plates, collagen membranes and confluent diploid human fibroblasts. Hepatocytes on the latter two substrata maintained characteristic morphology for at least 10 days in culture, whereas degenerative changes (cell death and formation of multinucleated hepatocytes) and growth of nonparenchymal elements were seen after 5 days in cultures on collagen-coated plates. Parallel findings were seen on basal and induced levels of cytochrome P-450 and NADPH-cytochrome C reductase. The basal levels of cytochrome P-450 were not measurable after day 3 in hepatocytes cultured on collagen-coated plates, whereas measurable levels were maintained in the hepatocytes cultured on the other two substrata. Addition of phenobarbital or methylcholanthrene at day 5 in culture caused an increase in cytochromes P-450 and P-448, respectively, only in hepatocytes cultured on collagen membranes and confluent fibroblasts. Analogous results were seen for the enzyme NADPH-cytochrome C reductase. The similarities in performance between hepatocytes on collagen membranes and on human fibroblasts show that a continuous collagen-containing substratum is important for optimal performance of hepatocytes in primary culture. The possible importance of cultures of hepatocytes on human fibroblasts for carcinogenesis studies is discussed.     

Modification of pyruvate kinase isozymes in prolonged primary cultures of adult rat hepatocytes.

Pyruvate kinase isozymic changes were studied in the adult hepatocyte cultures, by electrophoretic, kinetic and immunological methods. We were able to maintain parenchymal cells from normal adult rat liver in non-proliferating monolayer cultures up to 10 days. Hepatocytes appeared to contain a dominant PK I type up to 4-5 days of culture. After day 5, PK III type was regularly present with PK I and after 7 days PK III type was always the only isozyme detected in culture. It must be pointed out that, by the Ouchterlony method and sometimes by electrophoresis, concentrated extracts from freshly isolated hepatocytes or starting hepatocyte cultures did also contain Pyruvate kinase PK III type. These results suggest that Pyruvate kinase III is present but partly repressed in the adult parenchymal cells and becomes derepressed in culture.