Maintenance of adult rat hepatocytes on C3H/10T1/2 cells (original) (raw)
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European journal of cancer & clinical oncology, 1982
The hepatocarcinogen 3'-methyl-4-dimethyl-aminoazobenzene (MDAB) suppresses the accumulation of tyrosine aminotransferase in cultured foetal hepatocytes. Experiments involving liver derived from foetuses of various ages reveals that a response is only obtained with rats older than 16-day gestation. It has been proposed that the lack of an effect in less mature hepatocytes is due to their inability to activate the carcinogen. Chemically synthesized analogues of MDAB which are considered likely to be activated forms of the procarcinogen are shown to be effective in the less mature cells. This supports the proposal that these cells may be unresponsive because they are unable to activate MDAB. Tests with other carcinogens reveal that the hepatocarcinogen dimethylbenzanthracene is also effective in 19-day gestation hepatocytes. However, the non-hepatocarcinogens azaserine and benz(a)pyrene are ineffective. Treatment with MDAB is shown not to alter the level of steroid receptor and re...
Long-term culture of functional hepatocytes
Toxicology in Vitro, 1990
Abstraet--R.ecent studies have clearly demonstrated that the hepatocyte requires a complex and well defined environment to survive and maintain differentiated functions in vitro. Soluble factors as well as cell-matrix and cell-well interactions have been found to affect markedly hepatocyte functions. Thus co-culturing hepatocytes with another rat liver cell type results in a prolonged expression of liver functions including phase I and phase II drug-metabolizing enzymes. Addition of corticosteroids to the co-culture medium is a prerequisite, and accumulation of insoluble matrix components is observed within a few days primarily between the two cell types. Hepatocyte cultures have been widely used for pharmacology and toxicology studies during recent years, but most studies deal with short-term investigations. Although specific functions are not completely stabilized the use of long-term hepatocyte cultures represents a promising tool to investigate enzyme induction and inhibition, and drug chronic toxicity.
The Journal of Cell Biology, 1989
A fetal rat hepatocyte culture system has been used to study the molecular mechanisms of tyrosine aminotransferase (TAT) gene expression during development. It has previously been shown that TAT activity can be detected in 19-d, but not 15-d, gestation hepatocytes on the first day of culture (Yeoh, G. C. T., E A. Bennett, and I. T. Oliver. 1979. Biochem. J. 180:153-160). In this study enzyme activity, synthesis, and mRNA levels were determined in hepatocytes isolated from 13-, 15-, and 19-d gestation rats maintained in culture for 1, 2, or 3 d and exposed to dexamethasone. TAT expression is barely detectable in 13-d gestation hepatocytes even after 3 d in culture. Hepatocytes isolated from 15-d gestation fetuses have undetectable levels of enzyme activity and synthesis on the first day of culture; both can be assayed by days 2 1. Abbreviations used in this paper: GAPDH, glyceraldehyde-3-phosphatedehydrogenase; TAT, tyrosine aminotransferase.
Long-term culture and coculture of primary rat and human hepatocytes
Methods in molecular biology (Clifton, N.J.), 2013
The liver is the largest internal organ in mammals, serving a wide spectrum of vital functions. Loss of liver function due to drug toxicity or viral infection is a major cause of death in the United States. The development of Bioartificial Liver (BAL) devices and the demand for pharmaceutical and cosmetic toxicity screening require the development of long-term hepatocyte culture techniques. However, primary hepatocytes rapidly lose their cuboidal morphology and liver-specific functions over a few days in culture. Accumulation of stress fibers, loss of metabolic function, and cell death are known phenomena. In recent years, several techniques were developed that can support high levels of liver-specific gene expression, metabolic and synthetic function for several weeks in culture. These include the collagen double-gel configuration, hepatocyte spheroids, coculture with endothelial cells, and micropatterned cocultures with 3T3-J2 fibroblasts. This chapter covers the current status of...
Hepatotoxicity studies with primary cultures of rat liver cells
in Vitro Cellular & Developmental Biology-plant, 1978
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 1×10−3m 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 (5×10−4m) for 6 hr resulted in ASAL leakage that was 400% of control values; and norethindrone (5×10−4m) 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.
International Journal of Oncology, 1994
Treatment of rats with the carcinogen 2acetylaminofluorene (2-AAF) during liver regeneration (Solt-Farber protocol) induced a selective outgrowth of diploid, yglutamyltranspeptidase (GGT)-positive hepatocytes (3-4 times increase) as well as of nonparenchymal (oval) liver cells. After cessation of treatment the oval cells rapidly disappeared, while the population of diploid, GGT-positive hepatocytes declined more slowly over the subsequent ten weeks. In animals pretreated with the initiating carcinogen diethylnitrosamine (DEN) a large fraction of the diploid, GGT-positive hepatocytes persisted. The results differ from those obtained with our standard, sequential treatment protocol (2-AAF given after completed regeneration), where there is no hyperproliferation of oval cells and where GGTpositive hepatocytes are found only in DEN-pretreated animals (Saeter et al, Carcinogenesis 9: 581-587, 1988). Different experimental models of liver carcinogenesis may thus present different patterns of liver cell proliferation, which should be taken into account when general hypotheses on the cellular origin of liver cancer are proposed. Introduction Recent studies of rat liver carcinogenesis have suggested that hepatocellular tumours may originate either from hepatocytes
2006
The metabolic activity of hepatocytes cultured on homologous acellular matrix (HAM) and transplanted into rats genetically incapable of bilirubin conjugation (Gunn rats) has been investigated. Hepatocytes from Wistar male rats were seeded on HAM and cultured for 9 days, and the proliferation rate and albumin mRNA expression were assayed daily. HAM alone or HAM plus hepatocytes (cultured for 3 days) were implanted in a subcutaneous pocket of the dorsal region of Gunn rats. No immunosuppression therapy was used. Blood samples were collected weekly and rats were sacrificed 10 weeks after surgery. Hepatocytes cultured on HAM displayed a higher proliferation rate than those cultured on plastic, and albumin mRNA expression was detected in hepatocytes seeded on HAM, but not on plastic. Serum bilirubin concentrations did not differ from baseline values in both the sham-operated control and HAM transplanted rats. On the contrary, in rats transplanted with HAM plus hepatocytes, circulating bilirubin levels decreased from week 4-7, and then plateaued until week 10. Histology did not evidence signs of rejection, but only a mild degree of inflammation around the implanted patches. It is concluded that hepatocytes seeded on HAM and transplanted into Gunn rats are able to metabolize bilirubin for at least two months, without signs of rejection even in the absence of immunosuppressive therapy.
Organ Culture Model of Liver for the Study of Cancer Treatment for Hepatocellular Carcinoma
Cancer Research Journal, 2016
The liver, the largest organ of the human body, is a multifunctional organ with various metabolic activities that plays a fundamental role in maintaining the body and in sustaining life. Although the liver has great regenerative capacity and recovery, the damage caused by chronic diseases such as cancer or viral infections can lead to permanent loss of liver function. Studies on the mechanism of liver disease, have focused on the selection of cell and tissue culture techniques, including strategies based on in vitro models. The organ culture is a promising tool for the study of liver diseases, because it can mimic the complex of the microenvironment in vivo using a three-dimensional model of human liver tissue. These models allow a better study of the specific functions of the liver. In this context, we have analyzed the development of a hepatocarcinoma, obtained by inoculating a murine hepatocarcinoma cell line, Hepa 1/A1s, in the liver of 10 mice of the strain C57BL / 6. After 20 days from the inoculation, the portion of liver invaded by the tumor was removed from the animals and cultured. A group of 5 liver explants were used as a control and other 5 explants were cultured for 4 weeks in a complete medium containing 10% Citozym, a food supplement with reported antioxidant properties. The cancer-invaded hepatic lobes, treated with Citozym, showed a clear reduction of the weight and the volume of the hepatic tumors, when compared with the control explants.