Quantitative determination of G6Pase activity in histochemically defined zones of the liver acinus.

Qualitative histochemical G6Pase distribution patterns obtained with an improved method (Teutsch, 1978) served as the basis for a zonal microdissection of the liver acinus. G6Pase activity was determined quantitatively in tissue samples of zones 1 and 3 by a microfluorometric method (Burch et al., 1978). Using a correlation system it could be demonstrated that the histochemical distribution pattern obtained with the improved method was in better agreement with quantitatively estimated zonal differences of G6Pase activity, both in fed and starved female rats, than with the Wachstein and Meisel medium (1956). From a total of 50 tissue samples analyzed the following average G6Pase activities were calculated: in fed animals 15.36 +/- 3.48 U/g dry weight in zone 1, and 9.28 +/- 2.15 U/g dry weight in zone 3; in starved female rats 42.50 +/- 8.20 U/g dry weight in zone 1, and 29.25 +/- 5.68 U/g dry weight in zone 3. The qualitative histochemical as well as quantitative zonal differences of G6Pase activities are taken as further support for the hypothesis of metabolic zonation of liver parenchyma.     

NADP-dependent dehydrogenases in rat liver parenchyma

Summary Qualitative histochemical G6PDH distribution patterns obtained in the liver acinus of adult male and female rats with an improved method (Rieder et al., 1978) served as a basis for the isolation by microdissection of tissue samples of defined zonal affiliation. G6PDH activity was assayed quantitatively in tissue samples of zones 1 and 3 by a microfluorometric method, using the oil well technique and enzymatic cycling (Burch et al., 1963; Lowry and Passonneau, 1972). With the use of a correlation system further evidence could be presented for the validity of the recently described qualitative distribution patterns. From a total of 50 analyzed tissue samples the following G6PDH activities were calculated: 4.25±1.56 U/g dry weight in zone 1 and 2.08±0.46 U/g dry weight in zone 3 of male and 7.21±1.03 U/g dry weight in zone 1 and 11.10±2.56 U/g dry weight in zone 3 of female rats. These data were corrected for interference from the G6PDH activity of the Kupffer cells within zone 1 samples (approximately 80 U/g dry weight), so that the actual relative values for the parenchymal activity could be estimated for the first time: 2 U/g dry weight in zones 1 and 3 of male animals, 5 U/g dry weight in zone 1 and 11 U/g dry weight in zone 3 of female animals. In female livers G6PDH activity in zone 1 is therefore 2.5 times higher, and in zone 3 5 times higher than in the male. These zonal as well as sex-differences are clearly indicative of a heterogeneous functional organization of the liver acinus in terms of capacity for NADPH production, mainly in connection with reductive reactions in fatty acid synthesis.Supported by a grant from the SFB 46 (Molgrudent)     

NADP-dependent dehydrogenases in rat liver parenchyma. II. Comparison of qualitative and quantitative G6PDH distribution patterns with particular reference to sex differences.

Qualitative histochemical G6PDH distribution patterns obtained in the liver acinus of adult male and female rats with an improved method (Rieder et al., 1978) served as a basis for the isolation by microdissection of tissue samples of defined zonal affiliation. G6PDH activity was assayed quantitatively in tissue samples of zones 1 and 3 by a microfluorometric method, using the oil well technique and enzymatic cycling (Burch et al., 1963; Lowry and Passonneau, 1972). With the use of a correlation system further evidence could be presented for the validity of the recently described qualitative distribution patterns. From a total of 50 analyzed tissue samples the following G6PDH activities were calculated: 4.25 +/- 1.56 U/g dry weight in zone 1 and 2.08 +/- 0.46 U/g dry weight in zone 3 of male and 7.21 +/- 1.03 U/g dry weight in zone 1 and 11.10 +/- 2.56 U/g dry weight in zone 3 of female rats. These data were corrected for interference from the G6PDH activity of the Kupffer cells within zone 1 samples (approximately 80 U/g dry weight), so that the actual relative values for the parenchymal activity could be estimated for the first time: 2 U/g dry weight in zones 1 and 3 of male animals, 5 U/g dry weight in zone 1 and 11 U/g dry weight in zone 3 of female animals. In female livers G6PDH activity in zone 1 is therefore 2.5 times higher, and in zone 3 5 times higher than in the male. These zonal as well as sex-differences are clearly indicative of a heterogeneous functional organization of the liver acinus in terms of capacity for NADPH production, mainly in connection with reductive reactions in fatty acid synthesis.     

Improved method for the histochemical demonstration of glucose-6-phosphatase activity.

Methodological studies on the histochemical technique for the demonstration of G6Pase activity showed that the occurrence of common artifacts: morphological destruction, extracellular precipitation of reaction product and nuclear staining are dependent on the concentration of lead nitrate, buffer and substrate. By studying the effects of systematic variation of the incubation media on the histochemical reaction optimal concentrations of either of these components were determined. An improved medium containing 3.6 mM lead nitrate, 40 mM tris-maleate buffer, pH 6.5, 10 mM G6P and 300 mM sucrose was used for the study of G6Pase distribution patterns in liver acini of juvenile and adult rats of both sexes and in those of starved adult female rats. The results obtained indicate sex dependent differences in the functional organization of the liver acinus and furthermore demonstrate the rapid functional adaptability of liver parenchyma to changes of the nutritional situation.     

Differential time course of liver and kidney glucose-6 phosphatase activity during long-term fasting in rat correlates with differential time course of messenger RNA level

We have studied the role of Glc6Pase mRNA abundance in the time course of Glc6Pase activity in liver and kidney during long-term fasting in rat. Refered to the mRNA level in the fed state, Glc6Pase mRNA abundance was increased by 3.5 ± 0.5 and 3.7 ± 0.5 times (mean ± S.E.M., n = 5) in the 24 h and 48 h-fasted liver, respectively. Then, the liver Glc6Pase mRNA was decreased to the level of the fed liver after 72 and 96 h of fasting (1.0 ± 0.3 and 1.4 ± 0.3). In the kidney, Glc6Pase mRNA abundance was increased by 2.7 ± 1.0 and 5 ± 1.2 times at 24 and 48 h of fasting, respectively. Then, it plateaued at the level of the 48 h fasted kidney after 72 h and 96 h of fasting (4.5 ± 1.0 and 4.3 ± 1.0). After 24 and 48 h-refeeding, the abundance of Glc6Pase mRNA in 48 h-fasted rats was decreased to the level found in the liver and kidney of fed rats. The time course of the activity of Glc6Pase catalytic subunit during fasting and refeeding was strikingly parallel to the time course of Glc6Pase mRNA level in respective tissues. These data strongly suggest that the differential expression of Glc6Pase activity in liver and kidney in the course of fasting may be accounted for by the respective time course of mRNA abundance in both organs.Abbreviations Glc6Pase Glucose-6 phosphatase - GNG Gluconeogenesis     

Improved method for the histochemical demonstration of glucose-6-phosphatase activity

Summary Methodological studies on the histochemical technique for the demonstration of G6Pase activity showed that the occurrence of common artifacts: morphological destruction, extracellular precipitation of reaction product and nuclear staining are dependent on the concentration of lead nitrate, buffer and substrate. By studying the effects of systematic variation of the incubation media on the histochemical reaction optimal concentrations of either of these components were determined. An improved medium containing 3.6 mM lead nitrate, 40 mM tris-maleate buffer, pH 6.5, 10 mM G6P and 300 mM sucrose was used for the study of G6Pase distribution patterns in liver acini of juvenile and adult rats of both sexes and in those of starved adult female rats. The results obtained indicate sex dependent differences in the functional organization of the liver acinus and furthermore demonstrate the rapid functional adaptability of liver parenchyma to changes of the nutritional situation.Supported by a grant of the Deutsche Forschungsgemeinschaft     

Postnatal differentiation of sex-specific distribution patterns of G6Pase,G6PDH and ME in the rat liver

Summary The activity of the liver enzymes G6Pase, G6PDH and ME was studied in rats of 2–9 weeks old by histochemical means. In addition, G6PDH and ME activity was quantitatively determined in homogenates. In the 2nd and 3rd week G6Pase is similarly distributed in both sexes: while in the periportal zone high activity is demonstrable, the perivenous zone shows only low activity. After this period a nearly homogeneous distribution pattern becomes evident in all animals. Sex difference occurs after the 6th week: in the livers of male rats the periportal maximum is sometimes combined with a second peak in the perivenous area, in females a steep gradient emerges with high activity in the periportal zone and a low one in the perivenous zone. In the first postnatal weeks G6PDH activity is very low in parenchymal cells, but very prominent in Kupffer cells. Around the 5th week there is an increase, predominantly in the perivenous zone of both sexes. While there is again a further decrease demonstrable in male rats, the G6PDH activity of female rats rises to high adult values. This increase seems to be restricted to the perivenous zone. ME can be demonstrated at first in leucocytes. In the course of the 3rd week there is an increase of activity in both sexes: ME is demonstrable in parenchymal cells of the perivenous area and in scattered hepatocytes of the periportal area. In male rats, the perivenous activity is diminished towards the end of the investigation period, in females, however, a high activity remains in the perivenous zone. The data show that in females the activity of NADP dependent enzymes is high in the perivenous zone, so it may be assumed that a lipogenic area is situated around the terminal efferent vessels. Because of the sex difference this area may be hormone-dependent. The lipogenic area is situated opposite to the gluco(neo)genic area which corresponds to the periportal zone.Parts of this study were presented as an Inaugural Dissertation to the Medical Faculty of the University of Freiburg by H.H.Supported by grants from the Deutsche Forschungsgemeinschaft (Sa 127/7 and the SFB 46 (Molgrudent)     

Features of the lipid transport system of fish as demonstrated by studies on starvation in the rainbow trout

Summary A comparison was made of the processes involved in the transport and uptake of lipids in starved and fed trout in order to gain a fuller understanding of the underlying mechanisms of these processes and their control in fish. Trout that had been starved for 8 weeks showed significantly lower lipoprotein lipase activities than control fed fish in their adipose tissue (64±45 and 546±205 units±SEM for starved and fed, respectively;P<0.05) and liver (22±6 and 147±56;P<0.05) but no significant difference in red muscle (22±6 and 88±35) or heart (0.53±0.20 and 0.89±0.27). A similar difference in salt-resistant lipase, present in extra-hepatic tissues in trout, was found, i.e. adipose tissue: 200±105 and 1,327±190 (P<0.05); liver: 133±16 and 404±78 (P<0.01); red muscle: 101±32 and 105±20 (n.s.); heart: 2.43±0.38 and 1.92±0.37 (n.s.). The plasma cholesterol esterifying activity of starved trout (1.79±0.36 units) was significantly lower (P<0.001) than the fed fish (3.74±0.65). The concentrations of plasma VLDL and LDL were 67% and 47% lower (P<0.001 andP<0.05, respectively) in the starved than in the fed trout, while the concentration of HDL was the same (163±15 and 165±20 mg cholesterol/100 ml for starved and fed fish, respectively), as was the concentration of nonesterified fatty acids (0.303±0.039 and 0.333±0.035 mEq/l, respectively). These observations demonstrate that, in spite of differences in the distribution of lipases between the various tissues, fish possess systems for the transport and uptake of lipids that broadly parallel those of mammals and are consistent with the greater use of lipid as a major energy source in fish.Abbreviations VLDL, LDL andHDL very low density, low density and high density lipoproteins, respectively, isolated from trout plasma by flotation at densities 1.023, 1.086 and 1.21 g/ml     

Quantitative assessment of primary cerium reaction product formed by glucose-6-phosphatase activity in a male rat liver: an image analysis study

 Glucose-6-phosphatase (G6Pase) activity has been determined in periportal and pericentral areas of the liver of normal male rats. Measurements were performed on unfixed cryostat sections mounted on semipermeable membranes. In the present study, the oxidized primary reaction product of a cerium-based histochemical method [Ce(IV)perhydroxyphosphate] instead of the final reaction product after a second-step incubation was measured. For quantification of the amount of Ce(IV)perhydroxyphosphate formed the digital image analyzing system Quantimet 500+ was used. Estimated values of optical densities of Ce(IV)perhydroxyphosphate over test areas were employed for calculation of kinetic parameters of (G6Pase). Highest activities of G6Pase (higher K _m and V _max levels) were found in periportal areas of the rat liver, indicating a higher amount of active enzyme molecules and a lower affinity for the substrate. Differences in values for both K _m and V _max between periportal and pericentral zones were highly significant and closely comparable to those for male fed rats. Correlations between K _m and V _max were significant for periportal as well for pericentral liver areas. The results of the present study thus allow the same biological implications as histochemical methods employing a final reaction for quantification of enzyme activities. The present method avoids the drawbacks of enhancement reactions and demonstrates the feasibility of in situ analysis of enzyme kinetic parameters by quantification of oxidized primary cerium reaction products. Accepted: 8 January 1996     

Postnatal differentiation of sex-specific distribution patterns of G6Pase, G6PDH and ME in the rat liver

The activity of the liver enzymes G6Pase, G6PDH and ME was studied in rats of 2-9 weeks old by histochemical means. In addition, G6PDH and ME activity was quantitatively determined in homogenates. In the 2nd and 3rd week G6Pase is similarly distributed in both sexes: while in the periportal zone high activity is demonstrable, the perivenous zone shows only low activity. After this period a nearly homogeneous distribution pattern becomes evident in all animals. Sex difference occurs after the 6th week: in the livers of male rats the periportal "maximum" is sometimes combined with a second peak in the perivenous area, in females a steep gradient emerges with high activity in the periportal zone and a low one in the perivenous zone. In the first postnatal weeks G6PDH activity is very low in parenchymal cells, but very prominent in Kupffer cells. Around the 5th week there is an increase, predominantly in the perivenous zone of both sexes. While there is again a further decrease demonstrable in male rats, the G6PDH activity of female rats rises to high adult values. This increase seems to be restricted to the perivenous zone. ME can be demonstrated at first in leucocytes. In the course of the 3rd week there is an increase of activity in both sexes: ME is demonstrable in parenchymal cells of the perivenous area and in scattered hepatocytes of the periportal area. In male rats, the perivenous activity is diminished towards the end of the investigation period, in females, however, a high activity remains in the perivenous zone. The data show that in females the activity of NADP dependent enzymes is high in the perivenous zone, so it may be assumed that a lipogenic area is situated around the terminal efferent vessels. Because of the sex difference this area may be hormone-dependent. The lipogenic area is situated opposite to the gluco(neo)genic area which corresponds to the periportal zone.     

Effects of starvation and refeeding on elastase-induced emphysema

Adult rats received pancreatic elastase (75 U/100 g) intratracheally and were divided into three groups: fed, starved, and refed. Starved rats received one-third of their measured daily food consumption until they lost 40% body weight. The refed group was fed after 40% weight loss. A control group received saline intratracheally. Saline volume-pressure curve was shifted more significantly to the left of the control group in starved than in fed rats and was superimposed in refed and fed groups. Mean linear intercept was larger and alveolar surface area was smaller in starved than in fed rats compared with the control group; both were similar in fed and refed rats. Protein and hydroxyproline content of the lung were higher in fed than in control and in starved groups; after refeeding these returned to the control values. We conclude that starvation aggravates elastase-induced injury and that refeeding results in the complete recovery of the mechanical but only partial recovery of the morphometric changes induced by starvation.     

The relation of rat liver wet weight to dry weight

Summary To assess a reliable relation between the dry and wet weight of rat livers, the water content of liver samples was determined by freeze drying. The ratio between wet and dry weight of the livers turned out as 3.33±0.3 for male and 3.28±0.24 for female rats. Thus for calculations a value of 3.3 can be used irrespective of the sex of rats.Supported by grants from the Deutsche Forschungsgemeinschaft (Sa 127/8-4)     

Postnatal adaptation of gluconeogenic and liponeogenic areas in the liver parenchyma

The activity of G6Pase points to the gluco(neo)genic function of hepatocytes, whereas the activity of G6PDH and malic enzyme, both yielding NADPH, are involved in liponeogenesis. Histochemical studies of the distribution patterns and quantitative measurements concerning the postnatal weeks of rats show that after the 6th week sex differences occur. In contrast to males in female rat liver a lipogenic area emerges in the perivenous zone. This lipogenic zone is situated opposite to the gluco(neo)genic area which corresponds to the periportal zone.     

Image analysis for histochemical study of glucose-6-phosphatase inactivation by diethyl pyrocarbonate in normal human liver

Glucose-6-phosphatase (G6Pase) is a multicomponent system that catalyzes G6P hydrolysis. To determine the specificity of the histochemical reaction of G6Pase, we investigated the inhibitory effect of diethyl pyrocarbonate (DEPC), a specific and very effective inhibitor of the phosphohydrolase component of the G6Pase system, in normal human liver. The inactivation of the histochemical enzymatic activity by DEPC was monitored by determining the mean brightness of the microscopic image and the histogram of light intensity distributions. The results obtained indicate that the histogram is more sensitive than the mean brightness to variations of enzymatic activities, and that the percent of pixels brighter than a convenient level is directly proportional to DEPC concentration. This study indicates that DEPC can be used as an efficient inhibitor of the histochemical reaction of G6Pase.     

Molecular cloning of hepatic glucose-6-phosphatase catalytic subunit from gilthead sea bream (Sparus aurata): response of its mRNA levels and glucokinase expression to refeeding and diet composition

To examine the relationship between structure and function of glucose-6-phosphatase (G6Pase) in fish, we undertook molecular cloning and modulation of G6Pase expression by starvation and refeeding on diets with different nutrient composition in the liver of the carnivorous fish, Sparus aurata. A cDNA encoding the full-length G6Pase catalytic subunit from the liver of S. aurata was isolated. This cDNA encodes a 350-amino acid protein, with low homology to the mammalian G6Pase, although it contains most of the key residues required for catalysis. Based on hydrophobicity and membrane structure prediction, we propose a model containing nine-transmembrane regions for S. aurata G6Pase. Northern blots showed that refeeding after a prolonged starvation rapidly reverses the glucose/glucose-6-phosphate substrate cycle flux in the fish liver through decreased G6Pase expression and strong glucokinase (GK) induction. The effect of refeeding different diets on G6Pase and GK expression, indicated that hepatic intermediary metabolism of fish fed diets with low protein/high carbohydrate diets is impelled towards utilization of dietary carbohydrates, by means of modulation of GK mRNA levels rather than G6Pase expression. These findings challenge the role attributed to dysregulation of G6Pase or GK expression in the low ability of carnivorous fish to metabolise glucose.     

The activity of the pyruvate dehydrogenase complex in heart muscle in the previously obese mouse model

Obese gold thioglucose injected mice were reduced to lean control weight by food restriction. When pair fed with lean controls these animals then gained weight (were metabolically more efficient). Serum glucose was also elevated in this group (14.5±0.4 (14)vs 12.1±0.3 mmol/L, p<0.001). If previously obese animals were weight maintained with lean controls (by mild food restriction), serum glucose remained at control levels. The activity of the pyruvate dehydrogenase complex in heart muscle was decreased in both obese and pair fed previously obese, whilst it was similar to that of lean controls in the weight maintained previously obese and in obese mice actually dieted. In all obese and previously obese animals serum insulin was elevated. In hearts from control animals subjected to mild food restriction the pyruvate dehydrogenase complex was activated (11.53±1.80 (5)vs 3.34±0.62 (9) U/g dry weight), despite a reduced serum insulin level (42±2vs 74±10 U/ml, p<0.01). These diverse changes in the proportion of the pyruvate dehydrogenase complex in the active form and insulin levels argue for a persistent alteration in the sensitivity of the pyruvate dehydrogenase complex to insulin in obesity, as well as indicating that glucose metabolism in obese animals is altered by both body weight and diet amount.To whom correspondence should be addressed.     

Rearing temperature enhances hepatic glucokinase but not glucose-6-phosphatase activities in European sea bass (Dicentrarchus labrax) and gilthead sea bream (Sparus aurata) juveniles fed with the same level of glucose

The aim of this work was to elucidate if the previous results observed in hepatic glucokinase (GK) and glucose-6-phosphatase (G6Pase) activities in European sea bass and gilthead sea bream are due to temperature per se or to differences in feed intake at different water temperatures. For that purpose triplicate groups of fish (30 g initial body weight) were kept at 18 degrees C or 25 degrees C during two weeks and fed a fixed daily ration of a glucose-free or 20% glucose diet. At the end of the experimental period, plasma glucose levels in both species were not influenced by water temperature but were higher in fish fed the glucose diet. Higher hepatic GK activity was observed in the two fish species fed the glucose diet than the glucose-free diet. In the glucose fed groups, GK activity was higher at 25 degrees C than at 18 degrees C. Glucose-6-phosphatase activities in both species were not influenced by water temperature. In European sea bass and in contrast to gilthead sea bream it was observed an effect of dietary composition on G6Pase activities with surprising higher activities recorded in fish fed the glucose diet than in fish fed the glucose-free diet. Overall, our data strongly suggest that European sea bass and gilthead sea bream are apparently capable to strongly regulate glucose uptake by the liver but not glucose synthesis, which is even enhanced by dietary glucose in European sea bass. Within limits, increasing water temperature enhances liver GK but not G6Pase activities, suggesting that both species are more able to use dietary carbohydrates at higher rearing temperatures.     

Enhanced glucose 6-phosphatase activity in liver of rats exposed to Mg-deficient diet

Total hepatic Mg²⁺ content decreases by >25% in animals maintained for 2 weeks on Mg²⁺ deficient diet, and results in a >25% increase in glucose 6-phosphatase (G6Pase) activity in isolated liver microsomes in the absence of significant changed in enzyme expression. Incubation of Mg²⁺-deficient microsomes in the presence of 1 mM external Mg²⁺ returned G6Pase activity to levels measured in microsomes from animals on normal Mg²⁺ diet. EDTA addition dynamically reversed the Mg²⁺ effect. The effect of Mg²⁺ or EDTA persisted in taurocholic acid permeabilized microsomes. An increase in G6Pase activity was also observed in liver microsomes from rats starved overnight, which presented a ∼15% decrease in hepatic Mg²⁺ content. In this model, G6Pase activity increased to a lesser extent than in Mg²⁺-deficient microsomes, but it could still be dynamically modulated by addition of Mg²⁺ or EDTA. Our results indicate that (1) hepatic Mg²⁺ content rapidly decreases following starvation or exposure to deficient diet, and (2) the loss of Mg²⁺ stimulates G6P transport and hydrolysis as a possible compensatory mechanism to enhance intrahepatic glucose availability. The Mg²⁺ effect appears to take place at the level of the substrate binding site of the G6Pase enzymatic complex or the surrounding phospholipid environment.     

Quantitative histochemical analysis of glucose-6-phosphatase activity in rat liver using an optimized cerium-diaminobenzidine method

We have optimized a cerium-diaminobenzidine-based method for histochemical analysis of glucose-6-phosphatase (G6Pase) activity and have determined quantitative data on the zonal distribution pattern in the liver acinus of fasted male rats. In the cerium-diaminobenzidine technique, cerium instead of lead ions is used as capturing reagent for the enzymatically liberated phosphate. For light microscopy, the primary reaction product, cerium phosphate, is then visualized by conversion into cerium perhydroxide using hydrogen peroxide and subsequent oxidative polymerization of diaminobenzidine to diaminobenzidine brown as the final reaction product. Variation of the substrate (glucose-6-phosphate) concentration in the incubation medium yielded in periportal zones a KM value of 2.3 +/- 0.7 mM and a Vmax value of 0.96 +/- 0.18 (expressed as mean integrated absorbance). In perivenous zones a KM value of 1.1 +/- 0.4 mM and a Vmax value of 0.51 +/- 0.08 were calculated. The cytophotometric analysis performed in this study demonstrated for the first time that a functional difference of G6Pase, the key enzyme for gluconeogenesis, exists in the periportal and perivenous zones of the liver acinus. Periportal zones contain twice as many enzyme molecules (high Vmax) as perivenous zones, but the affinity for the substrate is twice as low. This may have important implications for the concept of metabolic zonation of the liver and also for glucose homeostasis in the blood.