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)     

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.     

Histochemical studies on metabolic zonation of the liver in the trout (Salmo gairdneri)

Summary The livers of 26 adult male and female trout were studied histochemically. G6Pase activity was always found to be heterotopically distributed with a constant maximum in the periportal area. In many cases the glycogen content and the activity of phosphorylase predominated in the periportal zone as well. Maximum activity of glucose-6-phosphate-dehydrogenase and malic enzyme, however, could be demonstrated preferentially in the perivenous area. Lactate dehydrogenase, succinate dehydrogenase, alcohol dehydrogenase, acid phosphatase and -glucuronidase were found equally in all liver cells. 3-Hydroxybutyrate dehydrogenase was absent. Thus, the principles of metabolic zonation have been established in trout liver, the architecture of which differs essentially from that of mammals. The course of the terminal afferent and efferent vessels is the decisive factor for the heterotopic localization of functional units rather than the tubular or plate-forming arrangement of the hepatocytes.Supported by Grants from the Deutsche Forschungsgemeinschaft (Sa 127/8-4)Parts of this study were presented as an Inauguraldissertation to the Medical Faculty of the University of Basel     

The influence of temperature on glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase and the regulation of these enzymes in a mesophilic and a thermophilic cyanobacterium

The activities and kinetics of the enzymes G6PDH (glucose-6-phosphate dehydrogenase) and 6PGDH (6-phosphogluconate dehydrogenase) from the mesophilic cyanobacterium Synechococcus 6307 and the thermophilic cyanobacterium Synechococcus 6716 are studied in relation to temperature. In Synechococcus 6307 the apparent K _m's are for G6PDH: 80M (substrate) and 20M (NADP⁺); for 6PGDH: 90M (substrate) and 25M (NADP⁺). In Synechococcus 6716 the apparent K _m's are for G6PDH: 550M (substrate) and 30M (NADP⁺); for 6PGDH: 40M (substrate) and 10M (NADP⁺). None of the K _m's is influenced by the growth temperature and only the K _m's of G6PDH for G6P are influenced by the assay temperature in both organisms. The idea that, in general, thermophilic enzymes possess a lower affinity for their substrates and co-enzymes than mesophilic enzymes is challenged.Although ATP, ribulose-1,5-bisphosphate, NADPH and pH can all influence the activities of G6PDH and 6PGDH to a certain extent (without any difference between the mesophilic and the thermophilic strain), they cannot be responsible for the total deactivation of the enzyme activities observed in the light, thus blocking the pentose phosphate pathway.Abbreviations G6PDH glucose-6-phosphate, dehydrogenase - 6PGDH 6-phosphogluconate dehydrogenase - G6P glucose-6-phosphate - 6PG 6-phosphogluconate - RUDP ribulose-1,5-bisphosphate - Tricine N-Tris (hydroxymethyl)-methylglycine     

Distribution of cyclic AMP phosphodiesterase in microdissected periportal and perivenous rat liver tissue with different dietary states

Summary Cyclic AMP phosphodiesterase was measured in liver homogenates and microdissected periportal and perivenous liver tissue from rats in different dietary states under different conditions of substrate saturation and effector stimulation. A radiochemical microtest, more sensitive by 2–3 orders of magnitude than the usual assay, was established for the determination of the activity in liver samples corresponding to 200–800 ng dry weight. At saturating cyclic AMP concentrations (46 M) phosphodiesterase was homogeneously distributed within the liver acinus of fed rats. Starvation for 48 h led to a decrease in the overall activity and to a heterogenous distribution with slightly higher activities in the perivenous zone. At physiological cyclic AMP concentrations (1.8 M) phosphodiesterase showed a flat zonal gradient in livers of fed rats with higher levels in the periportal zone; after 48 h starvation it was homogeneously distributed. In the presence of cyclic GMP (2 M) the basal activity at physiological substrate concentrations was stimulated to a greater extent in the perivenous zone. This led to a homogeneous activity distribution in the fed state and to a heterogenous pattern with a slight perivenous maximum in the fasted state. Thus there was no or only a small zonal heterogeneity of signal transmitting enzymes such as cyclic AMP phosphodiesterase and glucagon-stimulated adenylate cyclase (Zierz and Jungermann 1984). This similar signal transducing capacity in the periportal and the perivenous area will contribute to maintain the zonation of signal input due to the hormone concentration gradients across the liver acinus.     

Cytochemistry and biochemistry of acid phosphatases

Summary Acid phosphatases of the rat ventral prostate were studied cytochemically using different substrates. The results were compared to findings on isoelectric focussing gels stained for acid phosphatase activity. This is a highly specific and reproducible method which allows the distinction between secretory androgen-dependent and lysosomal acid phosphatases. Activity of lysosomal acid phosphatase was increased after castration, while the activity of the secretory enzyme gradually decreased after androgen deprivation. None of the substrates tested was selectively hydrolyzed by either secretory or lysosomal acid phosphatase. Phenylphosphate, creatine phosphate and choline phosphate were found to be inappropriate substrates for histochemical purposes, however, reproducible results were obtained with -naphthylphosphate, -glycerophosphate and p-nitrophenylphosphate. The method of isoelectric focussing (pH range 4.0–8.0) of enzymes with subsequent histochemical staining demonstrated lysosomal enzymes at pH 7.9 and 8.2 respectively. Small amounts of identical enzymes were found in liver, kidney, blood or epididymis. Secretory acid phosphatases were focussed at pH 5.5, 5.6, 5.65 and 7.15. Similar enzymes have been identified in epididymis, kidney, liver and pancreas. These results indicate that 1) at present no specific substrate for prostatic secretory or lysosomal acid phosphatases is available and 2) that no prostate-specific prostatic acid phosphatase (PAP) exists in the rat ventral prostate.Supported by the Deutsche Forschungsgemeinschaft (Au 48/6)     

Hydrolysis of G6P by a microsomal aspecific phosphatase and glucose phosphorylation by a low K m hexokinase in the digestive gland of the crab Carcinus maenas: variations during the moult cycle

Summary The hydrolysis of glucose-6-phospate in the digestive gland of the crab Carcinus maenas is carried out by an aspecific phosphatase. This enzyme possesses the following features: (1) insensitivity to acid treatment; (2) absence of inhibition when exposed to citrate at low pH; (3) similar affinity for G6P as the acid phosphatase for Na--glycerophosphate (K _m 2.3 and 2.0 mM, respectively). Glucose-6-phosphate and Na--glycerophate hydrolysis reactions seem to be catalysed by the same enzyme, since both activities exhibit the same distribution in a subcellular fractionation of the gland. Furthermore, as these activities are principally recovered in the subcellular fraction enriched in calcospherites (or calcium phosphate granules), it is proposed that the aspecific G6P-phosphohydrolase could play a major role in the formation of these granules. The phosphorylation of glucose is made by two low K _m hexokinases (230 and 64 M, respectively). As their level of activity shows significant changes over the moult cycle, these enzymes could be considered as having a regulatory role in the storage of glucose in the digestive gland.Abbreviations Acid Pase aspecific acid phosphatase - ATP adenosine triphosphate - DTT dithiothreitol - EDTA ethylenediaminetetra-acetate - G calcium phosphate granules fraction - G6P glucose-6-phosphate - G6Pase hepatic glucose-6-phosphatase - G6PDH glucose-6-phosphate dehydrogenase - K _m Michaelis-Menten constant - MI mitochondria and intermediate postmitochondrial particles - N nuclei fraction - NADH nicotineamide adenine dinucleotide - P microsome fraction - Pi inorganic phosphate - PMSF phenylmethylsulphonylfluoride - STI soybean trypsin inhibitor - glyP Na--glycerophosphate - T_1,2,3 transport protein 1,2,3 - TCA trichloroacetic acid     

Coexpression of periportal and perivenous enzymes in rat hepatocytes after experimental bile duct ligation: Comparison with intrasplenically transplanted hepatocytes

The coexpression of normally periportal and perivenous markers has been described in heterotopically transplanted hepatocytes. To determine whether such a coexpression might also occur in hepatocytes retaining their original intrahepatic location, we compared in bileduct-ligated livers and intrasplenically transplanted hepatocytes, the expression and distribution of the predominantly periportal glucose-6-phosphatase, succinate dehydrogenase, and lactate dehydrogenase, the predominantly perivenous glutamate dehydrogenase, NADPH-dehydrogenase, and -hydroxybutyrate dehydrogenase, and the strictly perivenous glutamine synthetase. The coexpression of high levels of the two periportal markers glucose-6-phosphatase and lactate dehydrogenase and of the perivenous marker NADPH dehydrogenase was observed in two situations: in clusters of hepatocytes isolated within the ductular proliferation in bile-duct-ligated livers and the majority of intrasplenically transplanted hepatocytes. The expression of glutamine synthetase was different according to the site. The protein was observed in certain intrasplenically transplanted hepatocytes bordering the splenic vessels but was never detected in hepatocyte clusters found in bile-duct-ligated livers. Our study therefore suggests that the coexpression of periportal and perivenous markers in the same hepatocytes is likely to be a non-specific consequence of the loss of the normal connections of hepatocytes with the normal liver microcirculation.     

Genetic variation detected by use of the M13 “DNA fingerprint” probe in Malus,Prunus, and Rubus (Rosaceae)

Summary Recently, DNA fingerprints have been reported in a wide array of organisms. We used the M13 repeat probe on several genera and species in the angiosperm family Rosaceae. Four apple cultivars could be differentiated when any one of five restriction enzymes was used to analyze minisatellite DNA. Similarly, four individual trees of Prunus serotina (black cherry) exhibited different fingerprints with each of four enyzmes. A total of 14 Rubus (blackberries and raspberries) plants representing four species were investigated with two enzymes. Extensive inter-and intraspecific variation was found. However, some closely growing plants had identical fingerprints, probably due to their being derived through vegetative propagation.     

Zonation of metabolism and gene expression in liver

Conclusion The zonation of gene expression resulting in the different cellular equipment of liver cells with enzymes, translocators and subcellular structures is regulated mainly at a pretranslational level. In the dynamic zonation of carbohydrate metabolizing enzymes, gradients in oxygen and in the glucagon/insulin ratio decreasing from the periportal to the perivenous area appear to be major effectors. In the stable zonation of ammonia-metabolizing enzymes local paracrine cell-cell interactions via diffusible mediators could play a major role (Fig. 6).This paper was presented at the symposium Metabolic Zonation of the Liver: New Answers to Old Questions, held in honour of Prof. Dr. D. Sasse's 60th birthday, 26 August 1994, in Basel     

Methane production by anaerobic digestion of animal manures

Anaerobic digestion of swine manure was performed at mesophilic and thermophilic temperatures. In addition, the possibility of enhancement of biogas production by the co-digestion of manures with cellulosic waste residues (e.g., corn stover), was investigated. In the latter studies, the effect of particle size on the gasification efficiency was assessed.Methane productivity, G(m³ methane/m³ slurry volume.day), in the digesters operating at a stationary state could be correlated with the volatile solids loading, L (kg/m³.day), Retention time, (days), and pH as follows: G = L/(1 + 10^pK-pH) + [k/(1 + k)] where is dependent primarily on the nature of the utilizable carbohydrate fraction. The constant, , is found to be a function of the organic nitrogenous fraction of the manure. The constants pK and k (days^-1) are dependent on the temperature only.     

Expression of the plant sulphite reductase in cell suspension cultures from Catharanthus roseus L.

Sulphur-heterotrophic growth exhibited a dual response to the expression of sulphate-assimilating enzymes. The level of ATP-sulphurylase (EC 2.7.7.4) appeared repressed while sulphite reductase (EC 1.8.7.1) and O-acetyl-l-serine sulphhydrylase (EC 4.2.99.8) were derepressed and coordinated in their occurrence. The capability of the cells to reduce adenylylphosphosulphate or 3-phospho adenylylphosphosulphate to cysteine coincided with the activity of sulphite reductase. The expression of these reducing steps lacked correlation with the regulation of ATP-sulphurylase.Abbreviations APS adenylylphosphosulphate - MVH reduced methylviologen - OAS O-acetyl-l-serine - PAPS 3-phospho adenylylphosulphate     

Enzymatic patterns in the embryonic development of the cricket,Acheta domesticus L.

Summary The activity of the enzymes G6PDH, 6PGDH, GAPDH, LDH, CS, MDH, NADP-linked ICDH, GOT, GPT, and GLDH was tested in different stages of developing eggs and in just hatched larvae of crickets. A malic synthase could not be found. The enzymatic pattern changes considerably during this period. Considering this pattern, and especially the quotient (GAPDH)/CS, it seems justified to state that, up to the formation of the germ band, the energy is derived mainly from oxidation of glucose in the citric acid cycle. Later on, lipids substitute partly for glucose. Anaerobic energy production seems to be limited to the stage of the dorsal closure. By inhibiting the formation of the germ band, the activity of GAPDH, and CS is not changed significantly. The rise in activity of G6PDH is correlated with the increased rate of r-RNA synthesis. The increase of activity of MDH and NADP-linked ICDH corresponds to the differentiation of the germ band. These enzymes, together with GOT, GPT, and GLDH should be involved in the synthesis of amino acids from carbohydrates during the later part of development. In the hatched larvae the activity of all enzymes has risen considerably. This stage is characterized by the fact that G6PDH, 6PGDH, GAPDH, LDH, CS, and NADP-linked ICDH display the same activity.This work was supported by the Stiftung für Krebs- und Scharlachforschung (Strebelstiftung).     

Histochemical localization of β-glycosidases in roots ofZea mays

Summary With 6-bromo-2-naphthyl--D-glucoside as substrate, -glucosidase activity has been histochemically localized in the lateral root meristems ofZea mays. Enzyme activity is highest in the epidermis and root cap of the young primordium. In contrast, enzyme activity is low in the parent root cortex, including the damaged areas around the lateral root. The results indicate that -glucosidase is involved in the development of the lateral root rather than its penetration through the cortex.     

Alkali burns of the rabbit cornea

Summary In alkali burned rabbit corneas activities of -glucuronidase, N-acetyl--D-glucosaminidase and acid -galactosidase were studied histochemically in various time intervals after the traumatization. The technic with semipermeable membranes was employed. Within four days after the injury enzyme activities in the traumatized area were almost lacking. The corresponding activities in the unaffected part of the cornea were within the norm. On the 7th day enzyme activities were on an increase (but still subnormal) in the traumatized area. This area was surrounded by a zone of keratocytes with high levels of enzyme activities. This was particularly remarkable in keratocytes subjacent to the epithelium. The activation of all enzymes studied was present in the basal layer of the epithelium and in the endothelium as well. On the 14th day enzyme activities in the traumatized area were nearly restored and on the 32nd day they could not be distinguished from the normal cornea. -galactosidase displayed a relatively maximal increase in the activity of all enzymes investigated.     

Effects of 17β-estradiol on the distribution and activity of some oxydative enzymes of uterine and cervical epithelium in neonatal mice

Summary The following enzymes were studied histochemically in uterine and cervical epithelium from neonatal mice treated with 17-estradiol for the first four days after birth: NADH-, NADPH-, succinate-, -glycerophosphate-, lactate-, glucose-6-phosphate-, and 17-OH-steroid dehydrogenases.It was demonstrated that estradiol administration had a marked influence on distribution and activity of several of the enzymes compared with the control animals. In cervix there was an increase of activity for most of the enzymes, especially in the apical parts of the epithelium cells. The uterine epithelium was also estradiol sensitive as regards most enzymes, and in the case of glucose-6-phosphate dehydrogenase there was a dramatic enhancement of reaction in the uterus of the experimental animals. The differences obtained between cervical and uterine epithelium are described.17-OH-steroid dehydrogenase could not be detected histochemically in the present material.Supported by the Norwegian Research Council for Science and the Humanities.     

The activities of peroxisomal oxidases in periportal and perivenous zones of the rat liver acinus

Summary Using a new biochemical microassay the activities of three peroxisomal oxidases in single microdissected periportal and perivenous zones of the liver acinus were measured. Whereas urate oxidase is homogeneously distributed through the acinus, the activities of D-aminoacid oxidase and -hydroxyacid oxidase are respectively 1.80-and 2.71-fold higher in the periportal hepatocytes than in the perivenous hepatocytes.     

Investigations on the organization of genetic loci in Drosophila melanogaster: lethal mutations affecting 6-phosphogluconate dehydrogenase and their suppression.

Summary The molecular nature of lethal and semilethal mutations in the Pgd locus of D. melanogaster coding for 6-phosphogluconate dehydrogenase (6PGD) was studied. All the 11 mutations affect the structural gene of the Pgd locus: 3 semilethal mutations resulted in altered 6PGD molecules with decreased catalytic activities; the rest 8 lethals were null alleles characterized by mutant polypeptides capable of reacting with antisera against highly purified 6PGD.Null or low activity alleles for glucose-6-phosphate dehydrogenase induced by ethyl methanesulfonate were shown to be suppressors for the lethal mutations in the Pgd locus.A monocistronic type of organization of the Pgd locus is suggested taking into account the biochemical mechanism of suppression of the Pgd-lethals and their location in the structural gene coding for 6PGD.     

Regional and subcellular distribution of taurine-synthesizing enzymes in the rat central nervous system

The distribution of cysteine oxidase (CO) and cysteine sulfinate decarboxylase (CSD) was examined in 12 regions of the rat central nervous system (CNS). The distribution of CO activity, expressed as mol of cysteine sulfinate formed per h per g, was the following: hypothalamus, superior and inferior colliculi, 94–99 mol/h/g; olfactory bulbs, cerebral cortex, striatum, and hippocampus, 44–51 mol/h/g; cerebellum, 71 mol/h/g; pons-medula and spinal cord, 94 and 60 mol/h/g, respectively. The distribution of CSD activity expressed as mol of cysteine sulfinate decarboxylated per h per g was the following: hypothalamus and colliculi, 14–21 mol/h/g; olfactory bulbs, cerebral cortex, striatum, hippocampus, and cerebellum, 8–13 mol/h/g; pons-medulla, 7.3; and spinal cord, 3.6 mol/h/g. No CSD activity was detected in sciatic nerve. The subcellular distribution of CO and CSD activities was studied in hypothalamus, colliculi, and cerebral cortex. CO activity was localized in synaptosomes, mitochondria, and microsomes. CSD was primarily confined to the crude mitochondrial fraction and after subfraction, recovered mainly in the synaptosomal fraction.     

Evidence for the involvement of the fatty acid and peroxisomal β-oxidation pathways in the inhibition by dehydroepiandrosterone (DHEA) and induction by 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) and benz(a)anthracene (BA) of cytochrome P4501B1 (CYP1Bl) in mouse embryo fibroblasts (C3H10T1/2 cells)

Treatment of intact C3H10T1/2 cells or microsomes therefrom with 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) and benzanthracene (BA) enhanced CYP1B1 activity and CYP1B1 expression as revealed by elevations of CYP1B1-catalyzed DMBA metabolism, CYP1B1 apoprotein level and CYP1B1 gene expression. One hundred µM DHEA caused an 80-90% inhibition of cellular DMBA metabolism without inflicting cell death. Cytosolic glucose-6-phosphate dehydrogenase (G6PDH) was also inhibited in DHEA-treated cells, presumably due to the inhibition of NADP reduction. In contrast, neither DMBA metabolism nor CYP1B1 apoprotein was inhibited by DHEA in the microsomes isolated from these cells. DHEA (100 M), TCDD (10 nM) and BA (10 M) stimulated the activities and increased the apoprotein levels of two peroxisomal enzymes, namely, acyl CoA oxidase (ACOX) and acyl CoA hydrolase (ACH₂) and also induced the expression of CYP1B1 and ACOX genes. Cytosolic fatty acyl-CoA -oxidation was also stimulated by DHEA, TCDD and BA. In corroboratory experiments, it was found that concomittant with the stimulation of the activity of a key enzyme regulator of fatty acid homeostasis, namely, glycerol-3-phosphate dehydrogenase (G3PDH), these agents enhanced arachidonic acid (AA) metabolism as judged by the release of [³H] from AA into the culture medium. Collectively, these data suggest that DHEA mediates the regulation of CYP1B1 and inhibits BA and TCDD-induced CYP1B1-catalyzed carcinogen (DMBA) activation in 10T1/2 cells through metabolic interactions that involve the activation of the peroxisomal and fatty acid -oxidation signaling pathways. These results also present evidence for the first time, for the possible peroxisomal effects of TCDD and BA which are similar to those of DHEA in this mouse embryo fibroblast cell line.