Advances in Experimental Medicine and Biology, 2006
Retinal neovascularisation is a major clinical complication of diabetic retinopathy that takes pl... more Retinal neovascularisation is a major clinical complication of diabetic retinopathy that takes place late in the disease process and constitutes the most damaging phase resulting in loss of vision (Klein et al., 1984). Neovascularisation is defined as the growth of new blood vessels which, in a disease process such as diabetic retinopathy, occurs in abnormal retinal locations. Long term consequences
Atypical acinar cell foci were induced in the pancreases of rats by injection of azaserine. An in... more Atypical acinar cell foci were induced in the pancreases of rats by injection of azaserine. An incubation period of 6 weeks was sufficient for the detection of all glutathione S-transferase mu positive foci. In chow-fed rats, the labelling index of foci was 12-fold higher than normal pancreatic tissue. Feeding rats raw soya flour (RSF) for up to 20 weeks did not increase the number of foci per pancreas but did produce significant increases in labelling index and growth rate. In normal pancreatic tissue, the trophic response was complete after 4 weeks of RSF feeding. In foci, however, the trophic response to RSF was prolonged. Involution of normal pancreatic tissue was seen in rats fed RSF for 19 weeks and then switched to chow 1 week prior to death. No evidence for involution was seen in the foci of these animals, although a 40-fold reduction was seen in labelling index. The labelling index of these foci was reduced to the level seen in normal tissue of chow-fed rats. These results are consistent with increased cholecystokinin (CCK) responsiveness and CCK dependence in azaserine-induced pancreatic foci.
Feeding male Wistar rats a choline-deficient diet containing 0.07% DL-ethionine (CDE diet) for up... more Feeding male Wistar rats a choline-deficient diet containing 0.07% DL-ethionine (CDE diet) for up to 5 weeks results in the production of two distinct non-parenchymal cell populations, oval and duct-like cells. These cells can undergo replication and display different patterns of expression of glutathione S-transferases (GSTs) and pyruvate kinases (PKs). Oval cells were first detected around the periportal region after 1 week of CDE treatment and infiltrated the parenchyma after 2 weeks. Duct-like structures first appeared as isolated ducts in the parenchymal region at 2 weeks and were easily detected after 2.5 weeks. These duct-like structures differed from the bile ducts which reside in the portal region. Large concentrations of duct-like structures in cyst-like clusters were detected after 5 weeks. Enlargement of these structures from single ducts to clusters of up to 20 ducts was observed over 3-5 weeks of CDE treatment. The number of cells forming a duct increased from 5 to 30 cells. We established a double immunocytochemical staining technique to characterize the oval and duct-like cells for their expression of GSTs and PKs. pi GST and M2-PK, which are fetal hepatocytes isoenzymes, are present in virtually all the oval and duct-like cells. Most of the oval cells are devoid of the adult hepatocytes markers, alpha GST, mu GST and L-PK. There are two sub-populations of duct-like cells, one which expresses only fetal markers and the other which co-expresses the adult and fetal isoenzymes. Hence, oval cells display characteristics of fetal hepatocytes and some duct-like cells appear more mature than oval cells. Using a combination of double immunocytochemical and [3H]thymidine labelling techniques we have established that oval cells differentiate into duct-like cells.
We have examined the development of retinal projections in a diminutive polyprotodont marsupial, ... more We have examined the development of retinal projections in a diminutive polyprotodont marsupial, the fat-tailed dunnart, Sminthopsis crassicaudata. Here, we document the most immature mammalian visual system at birth described to date. At postnatal day (P) 0, the retinal ganglion cell layer has yet to form, and axons have not entered the optic stalk. By P4, the retinal ganglion cell layer could be distinguished at the posterior pole, and the front of growing axons extended one-third the length of the optic stalk, a distance of approximately 150 microm; a few pioneer growth cones had grown beyond the main axon group but had still to reach the midline. Axons had decussated at the optic chiasm by P10 to penetrate the base of the contralateral optic tract and, by P15, had reached the dorsal lateral geniculate nucleus (dLGN), superior colliculus (SC), and accessory optic system (AOS); ipsilaterally projecting axons matured slightly later. From P20, axons had reached the caudal SC both contralaterally and ipsilaterally and terminated throughout the depth of the retinorecipient layers. After P30, the projections gradually refined. Within the rostral dLGN, segregation into four contralateral and four ipsilateral bands occurred by P50, approximately 5 days after eye opening. The projection to the ipsilateral SC underwent refinement by P50, becoming restricted to its rostral pole, and presented as discrete patches within the stratum opticum. At birth, the dunnart visual system is comparable to early to midembryonic stages [embryonic day (E) 12, E14, E19, E24, and E30, respectively] in the mouse, rat, ferret, cat, and monkey. The extreme immaturity of the neonatal dunnart together with the observation that the entire development of the primary optic pathway occurs postnatally over a protracted period make this marsupial especially valuable for investigating factors that control pathway formation in the early developing mammalian primary visual system.
The toxicity of paracetamol has been investigated in freshly isolated hamster hepatocytes. Two ph... more The toxicity of paracetamol has been investigated in freshly isolated hamster hepatocytes. Two phases of toxicity have been identified. In phase 1, metabolic activation of paracetamol occurs with depletion of glutathione. In phase 2, there is progressive morphological damage, leading ultimately to cell death. This occurs even in the absence of further exposure to paracetamol. The thiol reductant, dithiothreitol, added at the start of phase 2, prevents and reverses the toxicological damage that would otherwise occur. Thus, it is most likely that paracetamol causes hepatotoxicity through oxidation of SH groups in key enzymes. N-Acetylcysteine, but not methionine, has an effect similar to that of dithiothreitol. This difference is probably due to oxidation of the enzymes involved in the conversion of methionine to cysteine, whereas N-acetylcysteine can still serve as a precursor of glutathione. The glutathione can act both by adduct formation with the metabolite of paracetamol and as a thiol reductant. Species differences in sensitivity to paracetamol toxicity were shown to be due to differences in the rate of oxidation of the drug to its toxic metabolite. Most people are relatively poor activators of paracetamol, but in few subjects the reaction proceeds quite rapidly, rendering such individuals more sensitive to the hepatotoxic effects of the drug.
Transcriptional activity of the glutathione S-transferase (GST) alpha (subunits 1 and 2), mu (sub... more Transcriptional activity of the glutathione S-transferase (GST) alpha (subunits 1 and 2), mu (subunits 3 and 4) and pi (subunit 7) gene families has been analyzed using the nuclear 'run-on' technique on adult rat hepatocytes maintained for 4 days in conventional culture and for 4 and 12 days in co-culture with rat liver epithelial cells. Several medium conditions are included in this study, namely with or without fetal calf serum and with nicotinamide or dimethylsulphoxide. Hepatocytes co-cultured for 4 days maintain approximately 30-70% of the alpha gene family transcriptional activity, whatever the medium conditions, when compared to freshly isolated hepatocytes. A marked decrease is observed after 12 days of co-culture or when hepatocytes are maintained in conventional culture. The transcriptional activity of the mu gene family is maintained at 40-160% when hepatocytes are cultured with or without fetal calf serum, and is inducible by nicotinamide (approximately 4-fold) and dimethylsulphoxide (approximately 2-fold) in conventional culture and/or in co-culture. In contrast to freshly isolated hepatocytes, GST pi gene transcriptional activity is observed in conventional and co-cultured hepatocytes, irrespective of the medium conditions. Dimethylsulphoxide treatment however, represses the expression of GST 7 in vitro. These results demonstrate that the expression of GST alpha, mu and pi genes in conventional and co-cultured rat hepatocytes is controlled primarily at the level of transcription. It cannot be excluded, however, that dimethylsulphoxide stabilizes the GST mRNA levels in vitro.
Previous studies, by using Northern blotting analyses, showed that phenobarbital (PB) affects the... more Previous studies, by using Northern blotting analyses, showed that phenobarbital (PB) affects the steady-state mRNA levels of glutathione S-transferase (GST) subunits 1/2, 3/4 and 7 in both conventional cultures of adult rat hepatocytes and co-cultures, with rat liver epithelial cells [Vandenberghe et al., 1989, FEBS Lett. 251, 59-64; Morel et al., 1989, FEBS Lett. 258, 99-102]. To determine whether PB acts at the transcriptional level, nuclear 'run on' experiments using cDNA probes hybridizing to GST subunits 1/2, 3/4 and 7 mRNA were performed on purified nuclei isolated from control and PB treated hepatocytes seeded under conventional and co-culture conditions. Data from this study demonstrate that the increase in steady-state mRNA levels observed in both conventional culture and co-culture after 4 days PB exposure results from an increased transcriptional activity of the GST genes. However, a substantial increase in steady-state mRNA levels in the absence of a commensurate increase in transcriptional activity at 12 days of co-culture, indicates that the barbiturate has also a stabilizing effect in vitro on the GST mRNAs.
Atypical acinar cell foci were induced in the pancreases of rats by injection of azaserine. An in... more Atypical acinar cell foci were induced in the pancreases of rats by injection of azaserine. An incubation period of 6 weeks was sufficient for the detection of all glutathione S-transferase mu positive foci. In chow-fed rats, the labelling index of foci was 12-fold higher than normal pancreatic tissue. Feeding rats raw soya flour (RSF) for up to 20 weeks did not increase the number of foci per pancreas but did produce significant increases in labelling index and growth rate. In normal pancreatic tissue, the trophic response was complete after 4 weeks of RSF feeding. In foci, however, the trophic response to RSF was prolonged. Involution of normal pancreatic tissue was seen in rats fed RSF for 19 weeks and then switched to chow 1 week prior to death. No evidence for involution was seen in the foci of these animals, although a 40-fold reduction was seen in labelling index. The labelling index of these foci was reduced to the level seen in normal tissue of chow-fed rats. These results are consistent with increased cholecystokinin (CCK) responsiveness and CCK dependence in azaserine-induced pancreatic foci.
Dinitropyrenes are mutagenic and carcinogenic environmental pollutants commonly found in diesel e... more Dinitropyrenes are mutagenic and carcinogenic environmental pollutants commonly found in diesel exhaust and airborne particulates. In the present study, the ability of rabbit lung to metabolize 1,8-dinitro[4,5,9,10-3H]pyrene by both oxygen-dependent and oxygen-independent pathways has been investigated. Using lung 9000 g supernatant, the biotransformation of 1,8-dinitropyrene to stable metabolites was more extensive in the absence of oxygen. A major proportion of the metabolites was ether-extractable. Five metabolite peaks (A-E) were detected by HPLC in the absence of oxygen. Formation of metabolites A, C, D and E was decreased under aerobic conditions. Metabolites B and C co-chromatographed with the reference standards 1,8-diaminopyrene and 1-acetyl-amino-8-nitropyrene, respectively. The formation of metabolites A and C was dependent on the presence of acetyl coenzyme A. Binding of radiolabel to calf thymus DNA occurred under both anaerobic and aerobic conditions, although there was significantly higher binding in the presence of oxygen. Omission of acetyl coenzyme A significantly increased DNA binding. In experiments where calf thymus DNA was omitted from the incubation medium, covalent binding of radiolabel to acid-precipitable lung S9 macromolecules was detected only under aerobic conditions (11.1 +/- 4.3 pmol/mg protein). The results indicate that rabbit lung can metabolize 1,8-dinitropyrene by both reductive and oxidative pathways. Reductive metabolism is the major pathway for formation of stable metabolites while alkylation of cellular macromolecules occurs primarily via oxidation. There was no correlation between acetyl coenzyme A-dependent acetylation and activation of 1,8-dinitropyrene to reactive species which bind to DNA.
Feeding male Wistar rats a choline-deficient diet containing 0.07% DL-ethionine (CDE diet) for up... more Feeding male Wistar rats a choline-deficient diet containing 0.07% DL-ethionine (CDE diet) for up to 5 weeks results in the production of two distinct non-parenchymal cell populations, oval and duct-like cells. These cells can undergo replication and display different patterns of expression of glutathione S-transferases (GSTs) and pyruvate kinases (PKs). Oval cells were first detected around the periportal region after 1 week of CDE treatment and infiltrated the parenchyma after 2 weeks. Duct-like structures first appeared as isolated ducts in the parenchymal region at 2 weeks and were easily detected after 2.5 weeks. These duct-like structures differed from the bile ducts which reside in the portal region. Large concentrations of duct-like structures in cyst-like clusters were detected after 5 weeks. Enlargement of these structures from single ducts to clusters of up to 20 ducts was observed over 3-5 weeks of CDE treatment. The number of cells forming a duct increased from 5 to 30 cells. We established a double immunocytochemical staining technique to characterize the oval and duct-like cells for their expression of GSTs and PKs. pi GST and M2-PK, which are fetal hepatocytes isoenzymes, are present in virtually all the oval and duct-like cells. Most of the oval cells are devoid of the adult hepatocytes markers, alpha GST, mu GST and L-PK. There are two sub-populations of duct-like cells, one which expresses only fetal markers and the other which co-expresses the adult and fetal isoenzymes. Hence, oval cells display characteristics of fetal hepatocytes and some duct-like cells appear more mature than oval cells. Using a combination of double immunocytochemical and [3H]thymidine labelling techniques we have established that oval cells differentiate into duct-like cells.
Advances in Experimental Medicine and Biology, 2006
Retinal neovascularisation is a major clinical complication of diabetic retinopathy that takes pl... more Retinal neovascularisation is a major clinical complication of diabetic retinopathy that takes place late in the disease process and constitutes the most damaging phase resulting in loss of vision (Klein et al., 1984). Neovascularisation is defined as the growth of new blood vessels which, in a disease process such as diabetic retinopathy, occurs in abnormal retinal locations. Long term consequences
Atypical acinar cell foci were induced in the pancreases of rats by injection of azaserine. An in... more Atypical acinar cell foci were induced in the pancreases of rats by injection of azaserine. An incubation period of 6 weeks was sufficient for the detection of all glutathione S-transferase mu positive foci. In chow-fed rats, the labelling index of foci was 12-fold higher than normal pancreatic tissue. Feeding rats raw soya flour (RSF) for up to 20 weeks did not increase the number of foci per pancreas but did produce significant increases in labelling index and growth rate. In normal pancreatic tissue, the trophic response was complete after 4 weeks of RSF feeding. In foci, however, the trophic response to RSF was prolonged. Involution of normal pancreatic tissue was seen in rats fed RSF for 19 weeks and then switched to chow 1 week prior to death. No evidence for involution was seen in the foci of these animals, although a 40-fold reduction was seen in labelling index. The labelling index of these foci was reduced to the level seen in normal tissue of chow-fed rats. These results are consistent with increased cholecystokinin (CCK) responsiveness and CCK dependence in azaserine-induced pancreatic foci.
Feeding male Wistar rats a choline-deficient diet containing 0.07% DL-ethionine (CDE diet) for up... more Feeding male Wistar rats a choline-deficient diet containing 0.07% DL-ethionine (CDE diet) for up to 5 weeks results in the production of two distinct non-parenchymal cell populations, oval and duct-like cells. These cells can undergo replication and display different patterns of expression of glutathione S-transferases (GSTs) and pyruvate kinases (PKs). Oval cells were first detected around the periportal region after 1 week of CDE treatment and infiltrated the parenchyma after 2 weeks. Duct-like structures first appeared as isolated ducts in the parenchymal region at 2 weeks and were easily detected after 2.5 weeks. These duct-like structures differed from the bile ducts which reside in the portal region. Large concentrations of duct-like structures in cyst-like clusters were detected after 5 weeks. Enlargement of these structures from single ducts to clusters of up to 20 ducts was observed over 3-5 weeks of CDE treatment. The number of cells forming a duct increased from 5 to 30 cells. We established a double immunocytochemical staining technique to characterize the oval and duct-like cells for their expression of GSTs and PKs. pi GST and M2-PK, which are fetal hepatocytes isoenzymes, are present in virtually all the oval and duct-like cells. Most of the oval cells are devoid of the adult hepatocytes markers, alpha GST, mu GST and L-PK. There are two sub-populations of duct-like cells, one which expresses only fetal markers and the other which co-expresses the adult and fetal isoenzymes. Hence, oval cells display characteristics of fetal hepatocytes and some duct-like cells appear more mature than oval cells. Using a combination of double immunocytochemical and [3H]thymidine labelling techniques we have established that oval cells differentiate into duct-like cells.
We have examined the development of retinal projections in a diminutive polyprotodont marsupial, ... more We have examined the development of retinal projections in a diminutive polyprotodont marsupial, the fat-tailed dunnart, Sminthopsis crassicaudata. Here, we document the most immature mammalian visual system at birth described to date. At postnatal day (P) 0, the retinal ganglion cell layer has yet to form, and axons have not entered the optic stalk. By P4, the retinal ganglion cell layer could be distinguished at the posterior pole, and the front of growing axons extended one-third the length of the optic stalk, a distance of approximately 150 microm; a few pioneer growth cones had grown beyond the main axon group but had still to reach the midline. Axons had decussated at the optic chiasm by P10 to penetrate the base of the contralateral optic tract and, by P15, had reached the dorsal lateral geniculate nucleus (dLGN), superior colliculus (SC), and accessory optic system (AOS); ipsilaterally projecting axons matured slightly later. From P20, axons had reached the caudal SC both contralaterally and ipsilaterally and terminated throughout the depth of the retinorecipient layers. After P30, the projections gradually refined. Within the rostral dLGN, segregation into four contralateral and four ipsilateral bands occurred by P50, approximately 5 days after eye opening. The projection to the ipsilateral SC underwent refinement by P50, becoming restricted to its rostral pole, and presented as discrete patches within the stratum opticum. At birth, the dunnart visual system is comparable to early to midembryonic stages [embryonic day (E) 12, E14, E19, E24, and E30, respectively] in the mouse, rat, ferret, cat, and monkey. The extreme immaturity of the neonatal dunnart together with the observation that the entire development of the primary optic pathway occurs postnatally over a protracted period make this marsupial especially valuable for investigating factors that control pathway formation in the early developing mammalian primary visual system.
The toxicity of paracetamol has been investigated in freshly isolated hamster hepatocytes. Two ph... more The toxicity of paracetamol has been investigated in freshly isolated hamster hepatocytes. Two phases of toxicity have been identified. In phase 1, metabolic activation of paracetamol occurs with depletion of glutathione. In phase 2, there is progressive morphological damage, leading ultimately to cell death. This occurs even in the absence of further exposure to paracetamol. The thiol reductant, dithiothreitol, added at the start of phase 2, prevents and reverses the toxicological damage that would otherwise occur. Thus, it is most likely that paracetamol causes hepatotoxicity through oxidation of SH groups in key enzymes. N-Acetylcysteine, but not methionine, has an effect similar to that of dithiothreitol. This difference is probably due to oxidation of the enzymes involved in the conversion of methionine to cysteine, whereas N-acetylcysteine can still serve as a precursor of glutathione. The glutathione can act both by adduct formation with the metabolite of paracetamol and as a thiol reductant. Species differences in sensitivity to paracetamol toxicity were shown to be due to differences in the rate of oxidation of the drug to its toxic metabolite. Most people are relatively poor activators of paracetamol, but in few subjects the reaction proceeds quite rapidly, rendering such individuals more sensitive to the hepatotoxic effects of the drug.
Transcriptional activity of the glutathione S-transferase (GST) alpha (subunits 1 and 2), mu (sub... more Transcriptional activity of the glutathione S-transferase (GST) alpha (subunits 1 and 2), mu (subunits 3 and 4) and pi (subunit 7) gene families has been analyzed using the nuclear 'run-on' technique on adult rat hepatocytes maintained for 4 days in conventional culture and for 4 and 12 days in co-culture with rat liver epithelial cells. Several medium conditions are included in this study, namely with or without fetal calf serum and with nicotinamide or dimethylsulphoxide. Hepatocytes co-cultured for 4 days maintain approximately 30-70% of the alpha gene family transcriptional activity, whatever the medium conditions, when compared to freshly isolated hepatocytes. A marked decrease is observed after 12 days of co-culture or when hepatocytes are maintained in conventional culture. The transcriptional activity of the mu gene family is maintained at 40-160% when hepatocytes are cultured with or without fetal calf serum, and is inducible by nicotinamide (approximately 4-fold) and dimethylsulphoxide (approximately 2-fold) in conventional culture and/or in co-culture. In contrast to freshly isolated hepatocytes, GST pi gene transcriptional activity is observed in conventional and co-cultured hepatocytes, irrespective of the medium conditions. Dimethylsulphoxide treatment however, represses the expression of GST 7 in vitro. These results demonstrate that the expression of GST alpha, mu and pi genes in conventional and co-cultured rat hepatocytes is controlled primarily at the level of transcription. It cannot be excluded, however, that dimethylsulphoxide stabilizes the GST mRNA levels in vitro.
Previous studies, by using Northern blotting analyses, showed that phenobarbital (PB) affects the... more Previous studies, by using Northern blotting analyses, showed that phenobarbital (PB) affects the steady-state mRNA levels of glutathione S-transferase (GST) subunits 1/2, 3/4 and 7 in both conventional cultures of adult rat hepatocytes and co-cultures, with rat liver epithelial cells [Vandenberghe et al., 1989, FEBS Lett. 251, 59-64; Morel et al., 1989, FEBS Lett. 258, 99-102]. To determine whether PB acts at the transcriptional level, nuclear 'run on' experiments using cDNA probes hybridizing to GST subunits 1/2, 3/4 and 7 mRNA were performed on purified nuclei isolated from control and PB treated hepatocytes seeded under conventional and co-culture conditions. Data from this study demonstrate that the increase in steady-state mRNA levels observed in both conventional culture and co-culture after 4 days PB exposure results from an increased transcriptional activity of the GST genes. However, a substantial increase in steady-state mRNA levels in the absence of a commensurate increase in transcriptional activity at 12 days of co-culture, indicates that the barbiturate has also a stabilizing effect in vitro on the GST mRNAs.
Atypical acinar cell foci were induced in the pancreases of rats by injection of azaserine. An in... more Atypical acinar cell foci were induced in the pancreases of rats by injection of azaserine. An incubation period of 6 weeks was sufficient for the detection of all glutathione S-transferase mu positive foci. In chow-fed rats, the labelling index of foci was 12-fold higher than normal pancreatic tissue. Feeding rats raw soya flour (RSF) for up to 20 weeks did not increase the number of foci per pancreas but did produce significant increases in labelling index and growth rate. In normal pancreatic tissue, the trophic response was complete after 4 weeks of RSF feeding. In foci, however, the trophic response to RSF was prolonged. Involution of normal pancreatic tissue was seen in rats fed RSF for 19 weeks and then switched to chow 1 week prior to death. No evidence for involution was seen in the foci of these animals, although a 40-fold reduction was seen in labelling index. The labelling index of these foci was reduced to the level seen in normal tissue of chow-fed rats. These results are consistent with increased cholecystokinin (CCK) responsiveness and CCK dependence in azaserine-induced pancreatic foci.
Dinitropyrenes are mutagenic and carcinogenic environmental pollutants commonly found in diesel e... more Dinitropyrenes are mutagenic and carcinogenic environmental pollutants commonly found in diesel exhaust and airborne particulates. In the present study, the ability of rabbit lung to metabolize 1,8-dinitro[4,5,9,10-3H]pyrene by both oxygen-dependent and oxygen-independent pathways has been investigated. Using lung 9000 g supernatant, the biotransformation of 1,8-dinitropyrene to stable metabolites was more extensive in the absence of oxygen. A major proportion of the metabolites was ether-extractable. Five metabolite peaks (A-E) were detected by HPLC in the absence of oxygen. Formation of metabolites A, C, D and E was decreased under aerobic conditions. Metabolites B and C co-chromatographed with the reference standards 1,8-diaminopyrene and 1-acetyl-amino-8-nitropyrene, respectively. The formation of metabolites A and C was dependent on the presence of acetyl coenzyme A. Binding of radiolabel to calf thymus DNA occurred under both anaerobic and aerobic conditions, although there was significantly higher binding in the presence of oxygen. Omission of acetyl coenzyme A significantly increased DNA binding. In experiments where calf thymus DNA was omitted from the incubation medium, covalent binding of radiolabel to acid-precipitable lung S9 macromolecules was detected only under aerobic conditions (11.1 +/- 4.3 pmol/mg protein). The results indicate that rabbit lung can metabolize 1,8-dinitropyrene by both reductive and oxidative pathways. Reductive metabolism is the major pathway for formation of stable metabolites while alkylation of cellular macromolecules occurs primarily via oxidation. There was no correlation between acetyl coenzyme A-dependent acetylation and activation of 1,8-dinitropyrene to reactive species which bind to DNA.
Feeding male Wistar rats a choline-deficient diet containing 0.07% DL-ethionine (CDE diet) for up... more Feeding male Wistar rats a choline-deficient diet containing 0.07% DL-ethionine (CDE diet) for up to 5 weeks results in the production of two distinct non-parenchymal cell populations, oval and duct-like cells. These cells can undergo replication and display different patterns of expression of glutathione S-transferases (GSTs) and pyruvate kinases (PKs). Oval cells were first detected around the periportal region after 1 week of CDE treatment and infiltrated the parenchyma after 2 weeks. Duct-like structures first appeared as isolated ducts in the parenchymal region at 2 weeks and were easily detected after 2.5 weeks. These duct-like structures differed from the bile ducts which reside in the portal region. Large concentrations of duct-like structures in cyst-like clusters were detected after 5 weeks. Enlargement of these structures from single ducts to clusters of up to 20 ducts was observed over 3-5 weeks of CDE treatment. The number of cells forming a duct increased from 5 to 30 cells. We established a double immunocytochemical staining technique to characterize the oval and duct-like cells for their expression of GSTs and PKs. pi GST and M2-PK, which are fetal hepatocytes isoenzymes, are present in virtually all the oval and duct-like cells. Most of the oval cells are devoid of the adult hepatocytes markers, alpha GST, mu GST and L-PK. There are two sub-populations of duct-like cells, one which expresses only fetal markers and the other which co-expresses the adult and fetal isoenzymes. Hence, oval cells display characteristics of fetal hepatocytes and some duct-like cells appear more mature than oval cells. Using a combination of double immunocytochemical and [3H]thymidine labelling techniques we have established that oval cells differentiate into duct-like cells.
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