Intralobular localization of different cytochrome P-450 form dependent monooxygenase activities in the liver of normal and inducer-treated rats.

1. Isolated periportal (PP) and perivenous (PV) hepatocytes from normal and inducer-treated rat livers were used to examine the following: intralobular localization of cytochrome P-450IA, P-450IIB, P-450IIE and P-450IIIA dependent monooxygenase activities and effects of phenobarbital (PB), beta-naphthoflavone (BNF) and pregnenolone-16 alpha-carbonitrile (PCN) on the zonal induction of these monooxygenases. 2. 7-Ethoxyresorufin O-deethylase (7EROD), 7-pentoxyresorufin O-dealkylase (7PROD) and N-nitrosodimethylamine N-demethylase (NAND) activities of PP hepatocytes were not significantly different from those of PV hepatocytes. 3. Ethylmorphine N-demethylase (EMND) activity was significantly higher in PV hepatocytes than in PP hepatocytes of normal rats. 4. EMND activity was induced by PCN and PB treatments. The response of EMND activity to PCN treatment was higher in PP hepatocytes than that in PV hepatocytes, and as a result the PV dominance disappeared following PCN treatment. 5. Extents of the response of this activity to PB treatment were similar in PP and PV hepatocytes, and PV dominance remained unchanged even after induction.     

Zonal expression of StARD1 and oxidative stress in alcoholic-related liver disease

Alcoholic-related liver disease (ALD) is one of the leading causes of chronic liver disease and morbidity. Unfortunately, the pathogenesis of ALD is still incompletely understood. StARD1 has emerged as a key player in other etiologies of chronic liver disease, and alcohol-induced liver injury exhibits zonal distribution. Here, we report that StARD1 is predominantly expressed in perivenous (PV) zone of liver sections from mice-fed chronic and acute-on-chronic ALD models compared to periportal (PP) area and is observed as early as 10 days of alcohol feeding. Ethanol and chemical hypoxia induced the expression of StARD1 in isolated primary mouse hepatocytes. The zonal-dependent expression of StARD1 resulted in the accumulation of cholesterol in mitochondria and increased lipid peroxidation in PV hepatocytes compared to PP hepatocytes, effects that were abrogated in PV hepatocytes upon hepatocyte-specific Stard1 KO mice. Transmission electron microscopy indicated differential glycogen and lipid droplets content between PP and PV areas, and alcohol feeding decreased glycogen content in both areas while increased lipid droplets content preferentially in PV zone. Moreover, transmission electron microscopy revealed that mitochondria from PV zone exhibited reduced length with respect to PP area, and alcohol feeding increased mitochondrial number, particularly, in PV zone. Extracellular flux analysis indicated lower maximal respiration and spared respiratory capacity in control PV hepatocytes that were reversed upon alcohol feeding. These findings reveal a differential morphology and functional activity of mitochondria between PP and PV hepatocytes following alcohol feeding and that StARD1 may play a key role in the zonal-dependent liver injury characteristic of ALD.     

Translation of preprochymosin in vitro. Evidence for folding of prochymosin to the native conformation.

The uptake and metabolism of 35S-labelled sulphur amino acids were compared in periportal (PP) and perivenous (PV) rat hepatocytes, isolated by digitonin/collagenase perfusion, to identify the factors underlying the previously observed [Kera, Penttilä & Lindros, Biochem. J. (1988) 254, 411-417] higher rate of GSH replenishment in PP cells. The buthionine sulphoximine-inhibitable synthesis of GSH was faster in PP than in PV hepatocytes with both cysteine (6.1 versus 5.0 mumol/h per g of cells) and methionine (4.5 versus 3.3 mumol/h per g) as well as with endogenous precursors and L-2-oxo-4-thiazolidinecarboxylate as substrates. However, the uptake of cysteine by PP cells was slower than by PV cells (8.6 versus 10.3 mumol/h per g of cells), whereas methionine was taken up at similar rates. The activity of gamma-glutamylcysteine synthetase (GCS) was slightly higher in digitonin lysates from the PP than from the PV zone. Production of sulphate, the major catabolite of [35S]cysteine sulphur, as well as incorporation of the label into protein occurred at similar rates in PP and PV cells. Taurine, on the other hand, was produced from [35S]cysteine much faster by PV than by PP cells (0.7 versus 0.1 mumol/h per g of cells). Accordingly, the taurine content of PV hepatocytes tended to be higher and to increase faster during incubation with methionine. These results imply that metabolism of taurine is highly zonated within the acinus. They also suggest that both the slightly lower GCS activity and the fast metabolism of cysteine to taurine limit the capacity of PV hepatocytes to synthesize GSH.     

Peri- and postnatal changes in reduced nicotinamide adenine dinucleotide phosphate-cytochrome P-450 reductase content in hepatocytes of rats

Summary To study the process of the expression of reduced nicotinamide adenine dinucleotide phosphate-cytochrome P-450 reductase (EC 1.6.2.4) in the liver during development, the amount of enzyme in the cytoplasm of periportal and perivenular hepatocytes in sections cut from livers of male rats was measured during peri- and postnatal growth by quantitative immunohistochemistry with a video image processor. In livers of 19-day-old foetuses, the reductase content in the cytoplasm of periportal and perivenular hepatocytes was 0.16 μM and 0.20 μM, respectively. From the 19th day of gestation to 5 days after birth, the enzyme content increased markedly in the cytoplasm of periportal (288%) and perivenular hepatocytes (301%). Subsequently, the content in the cytoplasm of periportal hepatocytes increased slightly (46%) from 5 to 20 days of age, remained unchanged from 20 to 45 days of age, and increased slightly (15%) from 45 to 90 days of age. However, the content in the cytoplasm of perivenular hepatocytes increased progressively (125%) between 5 and 90 days of age. Thus, the amount of cytochrome P-450 reductase increases markedly in periportal and perivenular hepatocytes during the perinatal period, and subsequently the enzyme content increases gradually in periportal hepatocytes and progressively in perivenular hepatocytes. The present results also suggest that the divergence between cytochrome P-450 expression and the cytochrome P-450-dependent drug metabolic activity in hepatocytes during the perinatal period, found in previous studies, can be attributed to a low cytochrome P-450 reductase density in the membrane of endoplasmic reticulum of periportal and perivenular hepatocytes.     

Monocyte aryl hydrocarbon hydroxylase (AHH) activity mimics Kupffer cell and hepatocyte AHH activity in an animal model of liver disease.

We have previously reported that monocyte aryl hydrocarbon hydroxylase (AHH) activity is depressed in patients with liver disease and is decreased more in cirrhosis than in early stage liver disease. To determine if monocyte AHH activity reflects liver AHH activity, we studied an animal model of cirrhosis, i.e., yellow phosphorus induced cirrhosis in the pig. AHH activity was detectable in monocytes isolated from peripheral blood of normal pigs (0.32 +/- 0.13 nmol.mg-1 P.h-1, n = 11) and was comparable to the level of AHH activity in hepatic Kupffer cells isolated from wedge or needle biopsies of livers of normal pigs (0.38 +/- 0.21, n = 7). The AHH level in pig Kupffer cells was approximately 10% of the AHH level in hepatocytes and microsomes. To induce liver disease, pigs were administered yellow phosphorus (0.6 mg/kg) 5 days per week for 16 weeks. At 4 weeks of treatment, monocyte AHH activity was not different from control and liver histology was normal. Depression of monocyte AHH activity was evident at 8 weeks of treatment when liver fibrosis was seen histologically. At 12 weeks of treatment when histology revealed extensive liver fibrosis and collagen levels were elevated, the level of monocyte AHH activity was decreased 67% compared with controls. Similar changes were observed at 12 weeks in Kupffer cell AHH activity (86% decrease) and hepatocyte AHH activity (70% decrease) compared with controls. These results suggest that monocyte AHH activity reflects liver AHH activity and may be a good indicator of change in liver enzyme function in liver disease in the pig model of cirrhosis.     

Aryl hydrocarbon hydroxylase of rat brain mitochondria: Properties of,and effect of inhibitors and inducers on,enzyme activity

Aryl hydrocarbon hydroxylase (AHH), a typical example of mixed-function oxidase system, was studied in rat brain mitochondria. The enzyme was found to require oxygen and NADH for optimal expression of the activity. Coaddition of NADPH in the incubation system containing NADH resulted in an additive effect on the enzyme activity. NADH- and NADPH-dependent mitochondrial AHH activity was linear with respect to protein concentration and incubation time. The enzyme exhibited a sharp optima at pH 7.6. Specific activity of NADH-dependent mitochondrial AHH in rat brain was 3–4 and 8–11 times higher than that of NADPH-dependent mitochondrial and microsomal enzyme activity, respectively. Of the species investigated, NADH-dependent mitochondrial AHH followed the order: mice ? guinea pig > rat, while NADPH-supported mitochondrial AHH was in the order: rat > guinea pig ? mice. Specific activity of NADH-dependent mitochondrial AHH in various rat brain regions was similar with the exception of olfactory lobes which exhibited 60% higher activity than other region. When total region activities were added approximately whole brain activity was recovered. The apparent K_m value of NADH-dependent mitochondrial AHH was 1.18 μm with benzo(a)pyrene as a substrate. This K_m value was five to six times lower than that of NADPH-dependent microsomal AHH in rat brain (6.66 μm). NADH-dependent mitochondrial AHH was inhibited by KCN in a concentration-dependent manner while NADPH-supported mitochondrial AHH did not reveal any sensitivity to cyanide. Brain microsomal NADH as well as NADPH-supported AHH was also inhibited by KCN in a concentration-dependent manner. Carbon monoxide inhibited NADH-dependent mitochondrial AHH activity (48%) and had no effect on NADPH-dependent mitochondrial enzyme. Mitochondrial NADH and NADPH-dependent AHH activities were induced by 3-methylcholanthrene (64–73%) and benzo(a)pyrene (91–92%) pretreatments while no induction occurred with phenobarbital administration. 1-Benzylimidazole, SKF 525 A, metyrapone, and α-naphthoflavone inhibited both basal and 3-methylcholanthreneinduced NADH-dependent mitochondrial AHH activity. α-Naphthoflavone was more effective in inhibiting 3-methylcholanthrene-stimulated rat brain NADH-dependent mitochondrial AHH. Mitochondrial NADH-dependent AHH activity increased gradually with the onset of development and attained a steady state after 49–56 days of age. An increase of eight- to ninefold in the specific enzyme activity was observed between 7- and 56-day-old rats. No significant increase in brain mitochondrial AHH activity was observed between 56- and 91-day-old rats.     

Differential localization of microsomal mixed function oxidase activity in periportal and perivenous hepatocytes isolated from rat liver

1. The activity per mg of microsomal protein of aminopyrine N-demethylase was higher in perivenous (PV) than in periportal (PP) hepatocytes of rat, but when it was expressed per cytochrome P-450 content the difference in the activity was not significant. 2. The activity of 7-ethoxycoumarin O-deethylase, when expressed per mg protein and per P-450 content, was significantly higher in PV than in PP cells. 3. The activities of dimethylnitrosamine(DMNA) N-demethylase and aniline p-hydroxylase were not significantly different between two subpopulations of isolated hepatocytes when either expressed per mg protein or per P-450 content.     

Induction of P-450 isoenzyme activities in Syrian golden hamster liver compared to rat liver as probed by the rate of 7-alkoxyresorufin-O-dealkylation

The activities of 7-ethoxyresorufin-O-deethylase (EROD), 7-pentoxyresorufin-O-deethylase (PROD), 7-ethoxycoumarin-O-deethylase (ECOD) and aromatic hydrocarbon hydroxylase (AHH) were measured in hepatic microsomes from male and female Wistar rats and Syrian golden hamsters in order to probe the basal activity and the inducibility by phenobarbital (PB) and 3-methylcholanthrene (MC) of different P-450 isoenzymes. The basal activities of EROD and ECOD, but not PROD and AHH, were higher in male hamsters than in male rats. No sex-related difference in enzyme activities was observed with hamsters, whereas male rats had a higher ECOD and AHH activity than female rats. Induction by PB led to a 450-fold and 250-fold increase in PROD activity in male and female rat liver microsomes, respectively, while MC had a more pronounced inductive effect on EROD activity in this species. In hamsters, EROD activity was induced by MC but not by PB. Unexpectedly PROD activity in male and female hamster liver microsomes was only moderately induced by PB, the extent being lower than on induction by MC. Therefore, the activity of PROD, which is useful as a specific enzymatic assay for P-450 IIB in the rat liver, cannot be used to probe PB-like inducers in the hamster liver.     

Postnatal changes in sublobular distribution of NADPH-cytochrome P-450 reductase in rat liver

Summary Immunohistochemical distribution of NADPH-cytochrome P-450 reductase (NADPH-ferrihaemoprotein reductase; EC 1.6.2.4.) in the liver lobule was examined during development of the rat. From the 19th day of gestation to 4 days after birth, the enzyme was distributed uniformly throughout the lobule. The immunostaining for the enzyme was weak before birth, and became slightly stronger after birth. A slightly uneven distribution of immunoreactivity, stronger in perivenular zones, appeared at 5 days after birth. Then, the staining intensity in perivenular zones became progressively stronger with age, except for a slight increase between 10 and 20 days of age. The intensity in periportal zones also increased gradually, although it remained weaker than that in perivenular zones. Around 30 days of age, the distribution of the immunostaining, stronger in perivenular than in periportal zones, was similar to that seen in the lobules of adult animals. thus, heterogeneity among hepatocytes with respect to the enzyme content is not present in fetal and newborn rats but develops gradually during postnatal development; the postnatal growth of the liver is accompanied by a change in the pattern of the distribution of this enzyme within the lobule.     

Endotoxin promotes preferential periportal upregulation of VLDL secretion in the rat liver

Zonation affects liver parenchymal cell function and metabolism as well as nonparenchymal cell activation, but whether VLDL production is zonated has yet to be elucidated. Infection induces enhanced VLDL secretion by the liver. Ex vivo studies were undertaken to examine the liver heterogeneity for VLDL formation and secretion and their in vivo response to endotoxin. Highly pure periportal (PP) and perivenous (PV) hepatocytes were isolated from fasted lipopolysaccharide-treated, fasted, and fed rats. They were used to assess their capacity to release VLDL-apolipoprotein B (apoB) and lipid classes in relation to de novo lipid synthesis and the expression of genes crucial to VLDL production. Despite the common superior ability of PP hepatocytes for lipid release and zonal differences in lipid synthesis, zonated secretion of VLDL particles was observed in septic but not in normal fed or fasted livers. The endotoxin-induced apoB secretion was more accentuated in PP hepatocytes; this was accompanied by a preferential PP increase in apoB and microsomal triglyceride transfer protein mRNA levels, whereas lipogenesis indicators were, if anything, similarly modified in hepatocytes of either acinar origin. We conclude that PP and PV hepatocytes exhibited similar capabilities for VLDL formation/secretion in normal conditions; however, the endotoxic pressure did zonate periportally.     

Variable responses of small and large human hepatocytes to hypoxia and hypoxia/reoxygenation (H-R)

Hypoxia and hypoxia-reoxygenation (H-R) regulate human hepatocyte cell death by mediating the accumulation of reactive oxygen species (ROS). Hepatocytes within the liver are organised into peri-portal (PP) and peri-venous (PV) subpopulations. PP and PV hepatocytes differ in size and function. We investigated whether PP and PV human hepatocytes exhibit differential susceptibility to hypoxic stress. Isolated hepatocytes were used in an in vitro model of hypoxia and H-R. ROS production and cell death were assessed using flow cytometry. PV, and not PP hepatocytes, accumulate intracellular ROS in a mitochondrial dependent manner during hypoxia and H-R. This increased ROS regulates hepatocyte apoptosis and necrosis via a mitochondrial pathway. These findings have implications on the understanding of liver injury and application of potential therapeutic strategies.     

Changes in hepatocyte dehydrogenase activity in different zones of liver acini during the revascularization of ischemic extremities

After ischemia (3, 6, 9 and 12 h) of the hind extremities in dogs with a subsequent revascularization for 2 h, enzymatic activity of hepatocytes changes. After ischemia for 3 h the enzymatic activity increases. Restoration of the blood flow at later stages of the experiment results in a progressive decrease of dehydrogenase and diaphorase activities. To a greater extend the changes of the enzymatic activity are observed in perivenular hepatocytes (in the 3d zone of the hepatic acinus).     

A new microphotometric method for measurement of cytochrome P-450 in sections of liver

We developed a new microphotometric method for measuring the amounts of cytochrome P-450 (P-450) in fresh frozen sections of liver. Four serial frozen sections cut from the liver were separately incubated in 50 mM Tris-HCl buffer (pH 8.0) alone, in buffer containing sodium dithionite, in buffer saturated with carbon monoxide (CO), and in buffer saturated with CO and containing sodium dithionite. The difference between absorbance at 450 nm and that at 490 nm was measured in these sections with a simple microphotometer system. This method yielded precise amounts of P-450 in sections by measuring the true extinction of P-450 and by minimizing the effect of contaminating hemoproteins. Livers of adult rats contained large amounts of P-450, which was greater in perivenular hepatocytes than in periportal hepatocytes. In livers of newborn rats, however, small amounts of the enzyme were distributed evenly throughout the lobule.     

Tumor-influenced amino acid transport activities in zonal-enriched hepatocyte populations

Cancer influences hepatic amino acid metabolism in the host. To further investigate this relationship, the effects of an implanted fibrosarcoma on specific amino acid transport activities were measured in periportal (PP)- and perivenous (PV)-enriched rat hepatocyte populations. Na(+)-dependent glutamate transport rates were eightfold higher in PV than in PP preparations but were relatively unaffected during tumor growth. System N-mediated glutamine uptake was 75% higher in PV than in PP preparations and was stimulated up to twofold in both regions by tumor burdens of 9 +/- 4% of carcass weight compared with hepatocytes from pair-fed control animals. Excessive tumor burdens (26 +/- 7%) resulted in hypophagia, loss of PV-enriched system N activities, and reduced transporter stimulation. Conversely, saturable arginine uptake was enhanced fourfold in PP preparations and was induced twofold only after excessive tumor burden. These data suggest that hepatic amino acid transporters are differentially influenced by cancer in a spatial and temporal manner, and they represent the first report of reciprocal zonal enrichment of system N and saturable arginine uptake in the mammalian liver.     

Gamma-glutamyltransferase induction by dexamethasone in cytochrome P-450-depleted rat liver

The effects of the cytochrome P-450 depletion by cobaltic protoporphyrin IX on the postnatal glucocorticoid-inducibility of the membrane-bound enzyme gamma-glutamyltransferase have been assessed in the rat liver. Dexamethasone-induced gamma-glutamyltransferase activity in 14-, 28- and 77-day-old rats was high, weak and absent, respectively, and inversely correlated with the physiological cytochrome P-450 activity. In the liver acinus, the enzyme was reexpressed by the zone 1 and zone 2 hepatocytes in suckling rats, substantially only by the zone 1-hepatocytes in just weaned rats. Following cytochrome P-450 depletion, gamma-glutamyltransferase induction by dexamethasone was more rapid, more intense and more extended in the liver, acinus, occurring also in the zone 3 hepatocytes in suckling rats, in the zone 2 and a few zone 3 hepatocytes in just weaned rats. Further, the enzyme induction occurred also in adult rats in the zone 1 and in some zone 2 cells. This shows that cytochrome P-450 modulates the extent of hepatic gamma-glutamyltransferase induction by dexamethasone in postnatal rat-hepatocytes. The phenomenon may be consequent on hormone biotransformation changes caused by the cytochrome P-450 depletion.     

Strain differences in aryl hydrocarbon hydroxylase induction by 3-methylcholanthrene in rabbits.

We determined both basal and induced AHH activity in livers of six partially inbred strains of rabbits. Strain III rabbits had the highest enzyme activity upon induction by 3-MCA, i.e., four to five times that in strain WH (noninducible), which has the lowest enzyme activity. AHH induction was also "low" in strains X, OS, ACEP, and AC. F1 hybrids between strains III and WH revealed a differential response to the induction of liver AHH activity by MCA: the levels of induced hydroxylase activity were consistently higher in (III X WH)F1 rabbits than in the reciprocal (WH X III)F1 hybrids. All possible crosses between these two "extreme" strains are now being analyzed to estimate the number of genes involved in their response difference to MCA.     

Comparison of aryl hydrocarbon hydroxylase and epoxide hydratase. Induction in primary fetal rat liver cell culture

The activity of aryl hydrocarbon hydroxylase (AHH) and/or epoxide hydratase (EH) is induced in primary fetal rat liver cell culture by benz-[alpha]anthracene (BA), phenobarbital (PB), cigarette smoke condensate (CSC), 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) and trans-stilbene oxide (TSO). The response of the two enzymes to the different chemicals varies as follows: (a) AHH is induced by lower concentrations of BA, PB and CSC than those required to significantly induce EH; (b) AHH is selectively induced by TCDD and by low BA concentrations; (c) the kinetics of AHH induction by BA, PB and CSC is faster than that of EH; (d) TSO is a selective inducer of EH. As described earlier for AHH, RNA and protein synthesis and the continuous presence of the inducer are required in the early phases of EH induction. Later when the EH activity has reached a plateau, intact RNA and protein synthesis is not necessary to maintain the enzyme at its optimal value. The removal of the inducer determines a decay of the EH activity, allowing the estimation of a biological tau 1/2 of about 72 h. TSO prevents the AHH induction by PB, but not that mediated by BA and CSC. Added together with PB, BA, CSC or PB plus BA, TSO induces the EH activity in a more than additive manner. This effect is only seen after 6 days of continuous treatment. These results indicate that in this tissue culture model, the mechanism of AHH and EH induction can clearly be dissociated.     

Aryl hydrocarbon hydroxylase activity in F-344 rats subchronically exposed to benzo(a)pyrene and fluoranthene through diet

In order to investigate the relationship between aryl hydrocarbon hydroxylase (AHH) activity and exposure to benzo[a]pyrene [B(a)p] and fluoranthene (FLA), AHH activities in liver tissues of male and female F-344 rats were determined. Based on a range-finding study, doses of 0, 5, 50, and 100 mg/kg B(a)p or 0, 150, 750, and 1500 mg/kg FLA were administered in the animal diet over a 90-day period. After dosing, animals were sacrificed, liver tissues were removed, and microsomes were isolated. AHH activities were determined by reverse-phase HPLC coupled with fluorescence detection using 3-hydroxy B(a)p, and trans-2,3-dihydroxy-1,10-epoxy-1,2,3,10b tetrahydrofluoranthene as the standards. A dose-dependent increase in enzyme activity was observed with increased B(a)p or FLA exposure in both males and females. Our results also demonstrate that B(a)p-exposed females possess a higher AHH activity than males, but there is no significant sex difference with regard to enzyme activity in the case of FLA at higher doses. Overall, our findings suggest that long-term exposure to the parent compound results in elevated levels of AHH activity, which may contribute to the formation of toxic reactive metabolites and subsequent symptoms in target organs.     

The aromatic hydrocarbon receptor for 2,3,7,8-tetrachlorodibenzo-p-dioxin and variable levels of induced aryl hydrocarbon hydroxylase activity in clones of mouse hepatoma cells

Induction of aryl hydrocarbon hydroxylase (AHH) activity was studied in clones and subclones of mouse hepatoma (Hepa-lcl) cells. When maximally induced, one clone had significantly lower (p less than 0.005), two had approximately the same, and two had significantly higher (p less than 0.005) levels of AHH activity compared with Hepa-lcl. The maximal level of induced activity, relative to the parent population, in two clones chosen for further analysis was 0.14 +/- 0.09 for clone 1 (Hs-1) and 0.94 +/- 0.28 for clone 9 (Hs-9). These relative levels were stable over a period of 10 months and were similar when activity was induced either with 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) or benz[a]anthracene. Subclones of Hepa-lcl cells, derived from the Hs-9 clone, also demonstrated variation in induced AHH activity. When maximally induced with TCDD, six subclones had significantly lower AHH activity (p less than 0.005), two had approximately the same, and one had significantly higher levels (p less than 0.005) compared with the progenitor Hs-9 population. Comparative analysis of Ah receptor characteristics in two unselected clones of Hepa-lcl with significantly different levels of AHH activity demonstrated that there was no apparent correlation between relative level of induced AHH activity and (i) total quantity of Ah receptor (cytosol and nuclear), (ii) receptor affinity for TCDD and number of receptor sites in each cell, (iii) subcellular distribution of [3H]TCDD, or (iv) specificity and saturable nature of binding. Coordinate measurement of the concentration of nuclear receptor and absolute induced AHH activity in Hepa-lcl and its clones had a positive correlation (r = 0.79).