Long-term maintenance of cytochrome P450 activities by rat hepatocyte/3T3 cell co-cultures in heparinized human plasma.

Little information on the effect of plasma on hepatocyte cytochrome P450 (CYP) activities is currently available. We characterized the effect of plasma on CYPs of hepatocyte-mesenchymal cell co-cultures, which exhibit stable liver specific functions and may be potentially useful for bioartificial liver design. Rat hepatocyte-mouse 3T3-J2 cell co-cultures were maintained for 6 days in medium, and then switched to heparinized human plasma containing 3-methylcholanthrene (3MC; 2 microM), phenobarbital (PB; 1 mM), or no inducer for up to 7 days. CYP activities were measured in situ based on the o-dealkylation of ethoxy- (EROD), methoxy- (MROD), pentoxy- (PROD), or benzyloxy- (BROD) resorufin. Plasma alone increased PROD/BROD but not EROD/MROD. The endogenous inducer was in the high molecular weight fraction (>5 kD) of plasma and inhibited by >5 nM okadaic acid and >10 microM dibutyryl cyclic AMP, two inhibitors of PB-inducible CYPs. Furthermore, plasma increased CYP1A1 and CYP2B1/2 mRNA levels. In plasma, 3MC induced EROD/MROD to about 60% of the level induced in culture medium while PB induced PROD/BROD that were three- to 10-fold above levels induced in medium. CYP activities decreased between days 2 and 7 of plasma exposure, but were enhanced by plasma supplementation with amino acids, insulin, glucagon, and hydrocortisone.     

Selective enhancement of cytochrome p-450 activity in rat hepatocytes by in vitro heat shock

We investigated the effect of heat shock on cytochrome P-450 activity in rat hepatocytes and report a significant, selective, and time-dependent enhancement of cytochrome P-450 activity in heatshocked hepatocytes. Stable long-term cultures of rat hepatocytes were heat shocked (42.5 degrees C) for 1 to 3 h and allowed to recover at 37 degrees C. Cytochrome P-450-dependent ethoxyresorufin O-dealkylase (EROD) and benzyloxyresorufin O-dealkylase (BROD) activities were measured up to 48 h after heat shock treatment. In general, the optimal heat shock exposure time was between 2 and 3 h. BROD activity (induced by sodium phenobarbital) increased approximately 6-fold in hepatocytes heat shocked for 3 h in comparison with hepatocytes maintained at 37 degrees C. EROD activity (induced by 3-methylcholanthrene) increased 2-fold on exposure to heat shock for 2 h. The expression of inducible heat shock proteins Hsp70 and Hsp32 was verified by Western immunoblot analyses. In the absence of the appropriate inducer, heat shock treatment did not enhance cytochrome P-450 activity. Furthermore, enhanced P-450 enzyme activity was delayed for heat-shocked hepatocytes. It is hypothesized that heat shock treatment attenuates the negative effects triggered by the addition of the toxic inducers and possibly stabilizes the levels of cytochrome P-450 proteins. These results suggest that heat shock treatment may be used to enhance the functionality of hepatocytes, specifically, in bioartificial liver assist devices.     

Transplantation of fetal liver tissue suspension into the spleens of adult syngenic rats: effects of different cytotoxins on cytochrome P450 mediated monooxygenase functions and on oxidative state.

Syngenic fetal liver tissue suspensions were transplanted into the spleens of adult male Fisher 344 inbred rats. Four months after surgery, transplant recipients and age matched control rats were treated with different cytotoxins (allyl alcohol [AAL], bromobenzene [BBZ], carbon tetrachloride [CCl4], or thioacetamide [TAA]) or the respective solvents 24 or 48 hours before sacrifice. Effects of the cytotoxins on P450 mediated monooxygenase functions in liver and spleen 9,000 g supernatants were assessed by measuring the model reactions ethoxyresorufin O-deethylation (EROD), ethoxycoumarin O-deethylation (ECOD), pentoxyresorufin O-depentylation (PROD), and ethylmorphine N-demethylation (EMND). Additionally, the influence on the oxidative state was investigated by assessing the liver and spleen tissue content of lipid peroxidation (LPO) products and of reduced and oxidized glutathione (GSH;GSSG). The livers of both solvent treated transplant recipients and control rats displayed regular EROD, ECOD, PROD and EMND activities. After AAL treatment EROD and EMND activities within the livers were not affected, but ECOD and PROD activities were increased. BBZ administration caused a decrease in EROD and EMND activities, ECOD activity remained unaffected, and PROD activity was even increased. CCl4 and TAA administration caused a strong reduction in the activity of all four model reactions. Spleens of control rats displayed almost no P450 mediated monooxygenase functions, independent whether the rats had been treated with the cytotoxins or not. In the transplant containing spleens, however, significant EROD and ECOD, but hardly any PROD or EMND activities were seen. After AAL administration EROD activity was not affected in the transplant containing spleens, but ECOD activity was increased. BBZ treatment led to a decrease in EROD and an elevation in ECOD activity. CCl4 and TAA strongly reduced the activity of both of these model reactions. The tissue content of LPO products within livers and transplant containing spleens was significantly increased after BBZ and CCl4 treatment. An elevation in LPO products was also seen in the spleens of the control rats due to CCl4 administration. Tissue GSH and GSSG content in both livers and transplant containing spleens were strongly reduced after BBZ treatment. After CCl4 administration only a significant decrease in liver GSSG contents was seen. TAA treatment caused a reduction in the GSH and GSSG content in the spleens of both transplant recipients and control rats, but not in the livers. From these results it can be concluded, that the effects of cytotoxins like AAL, BBZ, CCl4 or TAA on P450 dependent monooxygenase functions and on oxidative state are exerted in the ectopic intrasplenic liver cell transplants in a similar way as in normal orthotopic liver.     

Comparative study in the Ames test of benzo[a]pyrene and 2-aminoanthracene metabolic activation using rat hepatic S9 and hepatocytes following in vivo or in vitro induction

We studied the replacement of hepatic S9 with in vivo and in vitro induced hepatocytes as a metabolic activation system with the aim of broadening the possibilities of mutagenic assays. Rats were pretreated with beta-naphthoflavone (BNF), phenobarbital (PB), 3-methylcholanthrene (MC) and a combination of BNF and PB (BNF + PB). Mutagenic activation of benzo[a]pyrene (BP) and 2-aminoanthracene (2AA) by hepatic S9 and hepatocytes was determined in the Ames test. Primary rat hepatocytes were used for in vitro induction and were used as the activating system in the Ames test. In vivo BNF treatment greatly increased the metabolic activation capacity of hepatic S9 and hepatocytes towards BP. With regard to 2AA activation, S9 and hepatocytes showed different BNF induction profiles. PB treatment reduced the mutagenicity of both compounds. Although ethoxyresorufin O-dealkylase (EROD) activity of S9 from BNF + PB-treated animals was almost 30-fold greater than the control, its effectiveness in activation of 2AA was below the control level. A large part of the EROD activity of control cells was lost during culture, together with the ability to activate 2AA, however, 72 h of MC induction increased EROD activity to 200-fold of the control, which corresponds to 28% of that of in vivo induced hepatocytes. The mutagenic potential of BP activated by in vitro induced hepatocytes was 10-fold above the control, which is 47% of the mutagenicity detected following in vivo induction. In vitro induced hepatocytes increased 2AA mutagenicity to 14.6-fold over the control, which corresponds to 68% of in vivo induction. Our results suggest that primary culture of hepatocytes provides a useful model for the study of the role of metabolic activation processes concerning enzyme activity of cytochromes P450 and other metabolic enzymes and induction profiles of different inducers.     

Effects of Combined Treatment with Resveratrol and Indole-3-Carbinol

Male Wistar rats received a semisynthetic diet with resveratrol (100 mg/kg), indole-3-carbinol (20 mg/kg), or a mixture of these compounds in the same doses for 1 week. Activities of ethoxyresorufi n dealkylase (EROD), methoxyresorufi n dealkylase (MROD), pentoxyresorufin dealkylase (PROD), and 6β-testosterone hydroxylase (6β-TH) and the content of mRNA for CYP1A1, CYP1A2, and CYP3A1 were elevated in the liver o f rats receiving indole-3-carbinol. These changes were accompanied by an increase in activity of phase II xenobiotic metabolism enzymes (quinone reductase, hemoxygenase-1, glutathione transferase, and UDP glucuronosyl transferase). Resveratrol did not modify activity of these enzymes. After combined treatment with the test compounds, resveratrol suppressed the indole-3-carbinol-induced increase in activities of EROD, MROD, PROD, and 6β-TH, and expression of the corresponding genes. Combined treatment was characterized by potentiation of the antioxidant effects of these compounds.     

Factors involved in the down-regulation of cytochrome P450 during Listeria monocytogenes infection

The activation of host defense mechanisms has been shown to cause a depression in hepatic cytochrome P450-mediated metabolism in rodents and humans. In a previous study, it was demonstrated that the Gram-positive bacteria Listeria monocytogenes causes a down-regulation of hepatic cytochrome P450 and related substrate metabolism as a result of a pretranslational depression of apoprotein synthesis. The objectives of this study were to determine whether the effect of listeria on hepatocyte cytochrome P450 involves hepatic nonparenchymal cells and whether the hemolysin, secreted only by hemolytic forms of the bacteria, plays any part in mediating this effect. Total cytochrome P450 levels as well as ethoxyresorufin-O-dealkylase (EROD) and benzyloxyresorufin-O-dealkylase (BROD) activities were significantly reduced in hepatic microsomes isolated from mice infected in vivo for 48 h with 15U listeria, whereas the same dose of the avirulent non-hemolytic M3D strain had no effect. Listeria (15U) significantly depressed hepatocyte EROD and BROD activities after 24 h incubations with liver cell cultures containing hepatocytes and nonparenchymal cells, as the result of both a direct effect on the hepatocyte and an interaction of listeria with hepatic nonparenchymal cells. The M3D strain of listeria had no effect on cytochrome P-450-mediated metabolism in isolated cells, confirming that hemolysin is an essential component of the mechanism responsible for the down-regulation of cytochrome P450 during listeria infections.     

Retinoic acid maintains differentiated cell morphology and functions in long-term cultured porcine hepatocytes: obtaining functional cells for prolonged treatments with bioartificial liver

Porcine hepatocytes show several immunological characteristics and enzymatic activities of human liver, representing an ideal xenogenic source of cells as biological component of bioartificial liver (BAL). Isolated hepatocytes rapidly lose their specific metabolic activities and their typical morphology when cultured in the presence of serum. Since in BAL porcine hepatocytes are perfused by the patient's plasma, procedures able to minimize de-differentiation of cells could be useful for long-term treatment of acute liver failure (ALF). In this work we found that, in the presence of micromolar concentration of All trans-retinoic acid (ATRA), porcine parenchymal liver cells undergo to a lower extent the de-differentiating effects of long-term culture in the presence of serum. The evaluation of lidocaine metabolism showed that ATRA-treated cells retain specific hepatocyte function for a significantly longer time when compared to control hepatocytes. A tyrosine phosphorylation of PLC-gamma1 was observed in concomitance with the ATRA-induced maximal functional activity. An increased expression of PLC-beta3 and PKC-alpha and -beta2 was also evidentiated at the longer time points explored, when the effects of ATRA in preservation of the differentiated morphology were maximal. These results provide the first evidence that ATRA plays a differentiating role in adult porcine hepatocytes cultured under de-differentiating conditions. The administration of ATRA to isolated parenchymal cells from pig liver may provide functional hepatocytes for prolonged treatment with BAL.     

Function of a new internal bioartificial liver: an in vitro study

The goal of this study was to determine whether a new internal bioartificial liver utilizing porcine hepatocytes can perform detoxification and other metabolic functions. Such a system might aid in treating patients with moderate to severe liver failure and prolong patient survival until a matching organ is found for transplantation. Porcine hepatocytes were attached to a microcarrier and an internal artificial liver was constructed by perfusing the hepatocytes into a polysulfon hollow fiber. The 4 experimental groups were: (a) control group, (b) microcarrier group, (c) hollow fiber group, and (d) internal bioartificial liver group. Viability of hepatocytes, alanine aminotransferase (ALT) and lactate dehydrogenase (LD) activities in the medium, urea production, diazepam transformation, protein synthesis, and glucose-6-phosphatase activity of cells were monitored during a 7-day culture period. Viability of porcine hepatocytes in the internal bioartificial liver group was maintained at >80% during the culture period, and alanine aminotransferase and lactate dehydrogenase activities did not fluctuate significantly. These enzyme activities were significantly lower in the internal bioartificial liver group than in the control or microcarrier groups. Urea production, diazepam transformation, [3H]-leucine incorporation, and glucose-6-phosphatase activity were significantly higher in the internal bioartificial liver group than in the control and hollow fiber groups. These results show that the new internal bioartificial liver produces small amounts of ALT and LD and exhibits detoxification and protein synthetic functions.     

Use of hepatocytes in adhesion and suspension cultures for liver support bioreactors

Hepatocyte cultivation in bioreactors for hybrid liver support systems is possible under two conditions: attached to a substrate like membranes or microcarriers or in suspension culture. To compare the ammonia metabolism of hepatocytes cultivated under these two conditions, cultures of primary seeded rat hepatocytes were cultivated either attached to collagen coated tissue culture plastic or as a suspension culture. During the time course of culture, the ability of hepatocytes to reduce the ammonia content of the medium decreased in both adhesion and suspension cultures, though to different extents. In suspension cultures, ammonia content was reduced from 350 microM to about 100 microM (day 4) and to about 180 microM (day 6). No significant reduction was seen on day 8 of culture. In contrast, hepatocytes attached to collagen coated dishes remained viable and functional for at least 8 days after plating, reducing ammonia content from 350 microM to 70 microM (day 4), 90 microM (day 6) and 180 microM (day 8). The period of useful metabolism of hepatocytes in bioreactors for hybrid liver support systems appears to depend on the culture conditions.     

Transplantation of fetal liver tissue suspension into the spleens of adult syngenic rats: effects of various mitogens and cytotoxins on cytochrome P450 (P450) isoforms expression and on P450 mediated monooxygenase functions.

Syngenic fetal liver tissue suspensions were transplanted into the spleens of adult male Fisher 344 inbred rats. Four months after surgery, transplant recipients and age matched control rats were treated with various mitogens (fluorene [FEN], fluorenone [FON] and 2-acetylaminofluorene [AAF]) or cytotoxins (allyl alcohol [AAL], bromobenzene [BBZ] and carbon tetrachloride [CCl4]) or the respective solvents 24 or 48 hours before sacrifice. The expression of three cytochrome P450 (P450) isoforms, 1A1, 2B1 and 3A2, within spleens and livers was assessed by immunohistochemistry and P450 mediated monooxygenase functions in spleen and liver 9000 g supernatants by the model reactions ethoxyresorufin O-deethylation (EROD), ethoxycoumarin O-deethylation (ECOD), and ethylmorphine N-demethylation (EMND). The orthotopic livers of both solvent treated transplant recipients and control rats displayed only in few lobules a slight P450 1A1, but in all lobules a moderate P450 2B1 and 3A2 expression, all mainly located in the hepatocytes around the central veins. Correspondingly, regular EROD, ECOD and EMND activities were observed. Each of the three mitogens increased the P450 1A1 expression in the hepatocytes of the perivenous zones of the liver lobules. FON administration caused an additional P450 1A1 immunostaining in the periportal areas, and AAF treatment a P450 1A1 expression in bile duct epithelia. Also the staining for P450 2B1 and 3A2 in the hepatocytes of the perivenous and intermediate zones of the liver lobules was intensified after treatment with any of the mitogens. The three model reactions were significantly increased within the livers after FEN and FON administration, whereas after AAF treatment only ECOD was enhanced, EROD remained unaffected and EMND was decreased. The cytotoxin AAL caused small lesions and fatty degeneration of hepatocytes only in some periportal areas. BBZ only produced a perivenous necrosis of single cells, whereas CCl4 caused complete necrosis of the centrilobular parenchyma. Immunohistochemically, AAL administration led to an increase in the P450 2B1 expression in the perivenous hepatocytes, whereas the staining for P450 1A1 was not affected and that for P450 3A2 was even decreased in the periportal areas. Due to AAL treatment EROD and EMND activities were not affected and ECOD activity was increased. BBZ administration caused a P450 1A1 expression in the periportal hepatocytes but a decrease in this staining of the perivenous cells. The number of hepatocytes positively stained for P450 2B1 and 3A2 in the perivenous and intermediate zones was diminished in comparison to the livers of solvent treated rats. After BBZ treatment, EROD and EMND activities were decreased, ECOD activity was not affected. CCl4 administration caused a strong reduction in the expression of all three P450 isoforms and in the activity of all three model reactions. Spleens of control rats displayed almost no P450 isoforms expression and P450 mediated monooxygenase functions, without as well as after treatment with the mitogens or cytotoxins. Similar to adult liver, the hepatocytes in the transplant containing spleens showed nearly no P450 1A1, but a noticeable P450 2B1 and 3A2 expression. No staining was observed within the bile duct cells of the intrasplenic transplants.     

Mass preparation of primary porcine hepatocytes and the design of a hybrid artificial liver module using spheroid culture for a clinical trial.

To isolate a large number of porcine hepatocytes, we originally developed a mass preparation method that combined the usual collagenase perfusion method of a whole liver with a collagenase redigestion method of tissue fragments after liver perfusion. Using a pig of 10kg, collagenase perfusion only resulted in a yield of 63+/-78 x 10(8) total cells with a viability of 69.2+/-25.3 %, but our combined method had a yield of 167+/-31 x 10(8) total cells with a viability of 87.9+/-4.4% (mean +/- SD). Also, the combined method was applied to two pigs of 10kg body weight at the same time, and isolated 387+/-89 x 10(8) hepatocytes with a viability of 87.1+/-6.9% and a purity of 93.6+/-2.8 % in 11 experiments. We designed a large multi-capillary polyurethane foam (MC-PUF) packed-bed module containing 1 x 10(10) porcine hepatocytes on a clinical trial scale. The porcine hepatocytes in the module formed spherical multicellular aggregates (spheroids) of 200 - 500 microm diameter. Most hepatocytes forming spheroids were viable judged by fluorescein diacetate and ethidium bromide staining. The activities of ammonia removal, albumin secretion and oxygen consumption of the large MC-PUF module were the same as for a small MC-PUF module containing 2 x 10(8) porcine hepatocytes, and were maintained for at least 9 days of culture. These results show that a large MC-PUF module is successfully scaled up 50 times. In conclusion, we succeeded in developing a mass preparation method of porcine hepatocytes and a large hybrid artificial liver module on a clinical trial scale.     

Liver tissue lactate dehydrogenase isoenzymes in cirrhosis]

Isoenzymes of the liver tissue lactate dehydrogenase (LDG) were examined in 37 patients with micro- and macronodular cirrhosis. LDG isoenzymes were studied by histochemical and cytophotometrical methods, electrophoresis in polyacrylamide gel, densitometry. The results were treated statistically. Uneven (mosaic) distribution of LDG activity in hepatocytes was observed in hepatocirrhosis. Different hepatocytes and fibroblasts had dissimilar sets of LDG isoenzymes. Anodal isoenzymes showed a higher activity in the bile duct epithelium. Cathodal isoenzymes in hepatocytes were localized mostly near the external cell membrane and the nuclear membrane. Micronodular cirrhoses are characterized by an increased activity of LDG2 and LDG3 and a decreased activity of LDG5 in the liver tissue. Macronodular cirrhoses are characterized by a decreased activity of LDG1 and LDG3 and an increased activity of LDG5. In the presence of hepatocyte insufficiency the activity of LDG1 decreased. Changes in the liver tissue LDG isoenzymes profile is due to a number of degenerative and regeneratory lesions typical of the cirrhotic process. The determination of the profile of the liver tissue LDG isoenzymes is important for the establishment of the type of cirrhosis, the degree of hypoxia, the intensity of regeneration processes, and the effectiveness of the therapy given to the patient.     

The formation of a spheroid of primary hepatocytes and the expression of liver-specific functions depend on the characteristics of polyurethane foam

Rapid formation of spherical multicellular aggregates (spheroids) of hepatocytes and expression of liver-specific functions are important in developing a hybrid artificial liver. The relation between these points and the surface characteristics of the culture substratum are investigated in this article. Polyurethane foam (PUF) was used as a culture substratum for hepatocytes. Rat, dog, and porcine primary hepatocytes spontaneously formed a spheroid within 1.5 days in the pores of a hydrophilic PUF with a contact angle of 53.4±2.7°. Rat and dog primary hepatocytes formed a spheroid within 3 and 7 days of culture, respectively, in hydrophobic PUF with a contact angle of about 100°. The rates of albumin secretion and ammonia metabolism at 5 days of culture of porcine hepatocytes were 31 μg of albumin/10⁶ nuclei/day and 0.018 μmol of NH₃/10⁶ nuclei/h, respectively, about 2 times higher than the values with hydrophobic PUF. It is very important to control the hydrophilicity of the PUF surface to develop an effective artificial liver module.     

生物人工肝细胞组分研究

生物人工肝是治疗暴发性肝衰的有效方法。所有的生物人工肝均含有肝细胞作为其生物组分。众多不同的细胞诸如猪肝、人肝细胞或细胞系均已应用,也研究了不同的培养方法,以期完善生物组分的活性。肝细胞的理想来源为永生化人肝细胞和人干细胞,但要做到成功地应用于生物人工肝则对这两种细胞的功能及安全性均应加以改进。     

Enhanced Functions of Human Embryonic Stem Cell-derived Hepatocyte-like Cells on Three-dimensional Nanofibrillar Surfaces

Human embryonic stem cell (hESC)-derived hepatocytes provide a promising unlimited resource for the treatment of liver disease. However, current protocols for the generation of mature and functional hepatocytes are inefficient. Therefore, in order to better differentiate and maintain the function of differentiating hESCs, we have hypothesized that hESCs undergo better differentiation into hepatocyte-like cells (HLCs) when induced on three-dimensional nanofibrillar surfaces. We have demonstrated that, during stepwise differentiation of induction, the markers of hepatic lineage expressed and finally lead to the generation of functional mature cells. In the presence of an ultraweb nanofiber, HLCs produced lower AFP, greater urea, glycogen storage, metabolic PROD activity, uptake of LDL and organic anion ICG, all of which are indicative of the differentiation of HLCs. These results show that topographically treated hESCs at the nano level have a distinct hepatic functionality profile which has implications for cell therapies.     

Liver tissue engineering: a role for co-culture systems in modifying hepatocyte function and viability.

A major limitation in the construction of a functional engineered liver is the short-term survival and rapid de-differentiation of hepatocytes in culture. Heterotypic cell-cell interactions may have a role to play in modulating long-term hepatocyte behavior in engineered tissues. We describe the potential of 3T3 fibroblast cells in a co-culture system to modulate function and viability of primary isolated rat hepatocytes. Over an 18-day period after isolation, hepatocytes in pure culture rapidly declined in viability, displayed sparse bile canaliculi, and lost two function markers, the secretion of albumin and ethoxyresorufin O-dealkylase (EROD) activity. In comparison, the hepatocytes within the co-cultures maintained viability, possessed well-formed canalicular systems, and displayed both functional markers. Fixed 3T3 cells or 3T3 cell conditioned medium did not substitute for the viable 3T3 cell co-culture system in preserving hepatocyte viability and functionality.     

Transplantation of fetal liver tissue suspension into the spleens of adult syngenic rats: inducibility of cytochrome P450 dependent monooxygenase functions by beta-naphthoflavone, phenobarbital and dexamethasone.

In the present study the effects of beta-naphthoflavone (BNF), phenobarbital (PB) and dexamethasone (DEX) on cytochrome P450 (P450) dependent monooxygenase functions were investigated in intrasplenic liver cell explants in comparison to adult liver. Fetal liver tissue suspensions were transplanted into the spleens of 60-90 days old adult male syngenic Fisher 344 inbred rats. 2, 4 or 6 months after surgery, transplant recipients and age matched controls were orally treated with BNF (1x50 mg/kg body weight (b.wt.)), PB (1x50 mg/kg b.wt.), DEX (for 3 days 4 mg/kg b.wt. per day), or the respective solvents (dimethylsulfoxide or 0.9% NaCl). The animals were sacrificed 24 (BNF, DEX) or 48 (PB) hours after the last treatment. P450 mediated monooxygenase functions were measured in spleen and liver 9000 g supernatants by three model reactions for different P450 subtypes: ethoxyresorufin O-deethylation (EROD; 1A), ethoxycoumarin O-deethylation (ECOD; 1A, 2A, 2B), and ethylmorphine N-demethylation (END; 3A). Spleen weights were significantly higher in transplanted rats, compared to controls, at all three time points after surgery. Induction with PB or DEX, and in some cases also with BNF, lead to a significant increase in liver weights of transplant recipients and control rats independent of the time after transplantation. In contrast, there was no influence on spleen weights due to BNF or PB. At all time points after surgery, with DEX a marked decrease in body weights, weights of adrenal glands and of lymphatic organs like thymus glands and spleens was observed, with the weights of the transplant containing spleens being still higher in comparison to control organs. Spleens of control animals displayed nearly no P450 mediated monooxygenase functions neither without nor with induction. After transplantation, however, significant EROD and ECOD, but hardly any END activities were seen in the host organs at all three time points after surgery. In transplant containing spleens EROD and ECOD were significantly increased after BNF or PB treatment at all three time points after surgery, and ECOD after DEX administration, but at 4 and 6 months after transplantation only. END was only induced after DEX treatment at 6 months after transplantation. With the livers of both transplant recipients and control rats EROD and ECOD were increased after BNF induction and EROD, ECOD, and END after PB treatment at all three time points after transplantation. After DEX administration END was significantly enhanced only at 2 and 4 months after transplantation, ECOD was decreased at 2 and 4 months, and EROD was diminished at all three time points after surgery. Transplantation of fetal liver tissue suspensions into the spleens did not influence monooxygenase functions and their inducibility within the respective livers of the animals. These results demonstrate that transplanted liver cells originating from syngenic fetal liver tissue suspensions display P450 dependent monooxygenase functions which are, simi lar to normal adult liver, inducible by BNF, PB and DEX. Both monooxygenase functions and their inducibility within the transplant containing spleens display quantitative and qualitative developmental changes.     

Aroclor 1254 pretreatment effects on DNA repair in rat hepatocytes elicited by in vivo or in vitro exposure to various chemicals

Inducers of liver mixed function oxidase (MFO) activities have profound effects on the genotoxicity of substances that undergo metabolic activation by the MFO system. The polychlorinated biphenyl mixture Aroclor 1254 is a broad-spectrum inducer of liver MFO activities that has been employed as a pretreatment to augment the metabolic activation capabilities of rat liver fractions used in a number of short-term tests for genotoxicity, including the Ames Salmonella/bacterial mutagenicity assay. The present study was designed to characterize the effects of Aroclor pretreatment of rats on the DNA repair responses elicited by various chemicals in the in vitro hepatocyte primary culture/DNA repair (HPC/DR) assay as well as the in vivo/in vitro HPC/DR assay. The amount of DNA repair produced in vitro by diethylnitrosamine (DEN), benzo(a)pyrene (B(a)P), 3-methylcholanthrene (3-MC), 2-acetylaminofluorene (2-AAF), o-aminoazotoluene (o-AT), and aflatoxin B1 (AFB1) was significantly greater in hepatocytes derived from Aroclor-pretreated rats than in control rat hepatocytes; in vitro responses to dimethylnitrosamine (DMN), 7,12-dimethylbenzanthracene (DMBA), benzidine (BZ), and 2-naphthylamine (2-NA) were not significantly affected by Aroclor pretreatment. DNA repair elicited by the direct-acting alkylating agents methyl methanesulfonate and N-methyl-N'-nitro-N-nitrosoguanidine was also not increased by Aroclor pretreatment, which indicated that Aroclor does not exert a general stimulatory effect on the hepatocellular DNA repair capacity. Therefore, the pretreatment-related potentiation of DNA repair observed for 6 out of 12 compounds tested in vitro was considered to be due to enhanced metabolic activation. These results suggested that pretreatment with Aroclor may increase the sensitivity of the in vitro HPC/DR assay to certain compounds. In contrast, Aroclor pretreatment had little effect on the amount of hepatocellular DNA repair elicited by in vivo administration of DMN, DEN, o-AT, 2-AAF, 3-MC, or AFB1, which indicated that this pretreatment regimen may have little utility for improving the sensitivity of the in vivo/in vitro HPC/DR assay.     

高原环境猪肝细胞体外球形聚集体培养

目的了解在高原环境条件下体外球形聚集体培养猪肝细胞的适宜接种浓度及其生长、增殖和生物学功能情况,为构建高原体外生物型人工肝脏寻找更加理想的生物材料。方法采用已适应本地环境的长白仔猪分离肝细胞,分别以浓度2×105/mL接种进行体外单层培养和以浓度1×106/mL、5×106/mL接种进行体外球形聚集体培养,对比观察培养细胞数量及培养上清液中总蛋白、白蛋白和尿素水平变化。结果接种4d后,3组细胞数量均明显增多,培养上清液中总蛋白、白蛋白和尿素水平均呈现显著升高;球形聚集体培养显著高于单层培养,并且5×106/mL接种组更高。结论浓度5×106/mL接种的球形聚集体培养猪肝细胞的生长、增殖及生物学功能更好,用作构建高原体外生物型人工肝脏的生物材料可能更加理想。