IDentification of a microsomal retinoic acid synthase as a microsomal cytochrome P-450-linked monooxygenase system

• 1.1. To characterize an enzyme which metabolizes retinal in liver microsomes, several properties of the enzymatic reaction from retinal to retinoic acid were investigated using rabbit liver microsomes.
• 2.2. The maximum pH of the reaction in the liver microsomes was 7.6.
• 3.3. The K_m and V_max values for all-trans, 9-cis and 13-cis-retinals were determined.
• 4.4. The reaction proceeded in the presence of NADPH and molecular oxygen.
• 5.5. The incorporation of one atom of molecular oxygen into retinal was confirmed by using oxygen-18, showing that the reaction comprised monooxygenation, not dehydrogenation.
• 6.6. The monooxygenase activity was inhibited by carbon monoxide, phenylisocyanide and antiNADPH-cytochrome P-450 reductase IgG, but not by anti-cytochrome b₅ IgG.
• 7.7. The enzymatic activity inhibited by carbon monoxide was photoreversibly restored by light of a wavelength of around 450 nm.
• 8.8. The retinal-induced spectra of liver microsomes with three isomeric retinals were type I spectra.
• 9.9. The microsomal monooxygenase activity induced by phenobarbital or ethanol were more effective than that by 3-methylcholanthrene, clotrimazole or β-naphthoflavone.
• 10.10. These results showed that the monooxygenase reaction from retinal to retinoic acid in liver microsomes is catalyzed by a cytochrome P-450-linked monooxygenase system.

     

Studies on lipid peroxidation in rat liver by copper deficiency

• 1.1. Copper deficiency in rats results in a 2-fold increase in the level of lipid hydroperoxides in liver mitochondria and microsomes.
• 2.2. The specific activity of cupro-zinc Superoxide dismutase decreases up to 30% while that of the mangano-enzyme is not changed.
• 3.3. Glutathione peroxidase activity as well as catalase activity are suppressed in both cytosol and mitochondrial fractions from copper-deficient rat liver.

     

Kinetic properties of cat liver microsomal glucose-6-phosphatase

• 1.1. Cat liver microsomes contain the multifunctional enzyme glucose-6-phosphatase.
• 2.2. High specificity was shown for the phosphohydrolase as well as for the transferase activity.
• 3.3. Both activities have high V_max values determined in optimized conditions.
• 4.4. The phosphate transfer with carbamyl-phosphate as a phosphoryl donor and d-glucose as acceptor is consistent with a random mechanism in which the binding of one substrate decreases the enzyme's affinity for the second substrate.

     

Metabolism of benzo[a]pyrene and persistence of DNA adducts in the brown bullhead (Ictalurus nebulosus)

• 1.1. The in vitro metabolism of [³H]benzo[a]pyrene (BP) and [¹⁴C]benzo[a]pyrene-7,8-dihydrodiol (BP-7,8-diol) by liver of brown bullhead (Ictalurus nebulosus) was characterized, as was the formation and persistence of BP-DNA adducts in vivo.
• 2.2. Compared to rat liver microsomes, bullhead liver microsomes produced relatively larger amounts of BP-7,8-diol (predominantly the [−] enantiomer) and smaller amounts of BP-4,5-diol.
• 3.3. BP phase I metabolites were efficiently converted by freshly isolated bullhead hepatocytes to conjugates, predominantly glucuronides.
• 4.4. BP-7,8-diol was metabolized by hepatocytes 4-fold more rapidly than was BP and was converted to approximately equal amounts of glucuronides, glutathione conjugates and sulfates.
• 5.5. BP-DNA adducts formed in bullhead liver with a lag time of several days and maximum adduct formation at 25–30 days. The major adduct was anti-BPDE-deoxyguanosine.

     

Properties of enzymes hydrating epoxides in human epidermis and liver

• 1.1. Cytosolic and microsomal epoxide hydrolyzing enzymes of human skin and liver were compared and found to be different.
• 2.2. Epidermal and hepatic cytosolic epoxide hydrolases were different in terms of substrate selectivity, pI, inhibitor sensitivity and affinity Chromatographic properties.
• 3.3. Microsomal epoxide hydrolases had the same pIs but different substrate selectivities.
• 4.4. Cytosolic epoxide hydrolase from adults had higher specific activity than that from neonates or cultured epidermis, but lower activity than adult hepatic enzymes.
• 5.5. The sizes of cytosolic epoxide hydrolase from epidermis and liver were similar and lower than that from cultured fibroblasts.
• 6.6. Cytosolic epoxide hydrolase from all sources shared similar antigenic determinants.

     

Effects of high dietary methionine on activities of selected enzymes in the liver of kittens (felis domesticus)

• 1.1. Growing male kittens were fed an 18% casein diet supplemented with 2, 3, or 4% l-methionine (MET) for 6 weeks.
• 2.2. Free MET concentration in liver increased 30-fold and cystathionine two- to three-fold; the activity of adenosyl-MET transferase and cystathionase also increased but remained lower than previously found in rats.
• 3.3. Taurine concentration in liver decreased in cats fed excess MET and appeared to depend on taurine intake.
• 4.4. Alanine aminotransferase activity was high in all groups while serine dehydratase activity was very low.
• 5.5. Pyruvate kinase and malic enzyme activities which are normally low in cat liver increased after excess MET. Also, glucose 6-phosphate and 6-phosphogluconate dehydrogenases increased.
• 6.6. Cat liver metabolism showed limited adaptation to an excess dietary intake of methionine compared to that found in rats.

     

Interference of benzo[a]pyrene with cytochrome P-450-mediated steroid metabolism in pyloric caeca microsomes of the sea star Asterias rubens L.

• 1.1. The effects of benzo[a]pyrene (BaP) on the metabolism of progesterone and pregnenolone, and the effects of steroids on BaP metabolism were examined in pyloric caeca microsomes of female Asterias rubens.
• 2.2. The patterns of metabolism of progesterone and pregnenolone in microsomes were similar to those found in previous studies for homogenates and tissue incubations of pyloric caeca.
• 3.3. BaP reduced the rate of hydroxylation of progesterone and pregnenolone, but had no effect on metabolite formation by non-cytochrome P-450-catalysed reactions.
• 4.4. Microsomal BaP hydroxylase activity was reduced by the presence of progesterone, but pregnenolone and testosterone had no such effect.
• 5.5. The reductions in steroid or BaP metabolism were progressive with increasing ratios of the concentration of the interfering compound to that of the assay substrate and were maximally 50% or less at ratios of × 100.
• 6.6. It is concluded that isoenzymic forms of cytochrome P-450 are present, with preferences towards either steroid or BaP metabolism. The implications of the results for the in vivo situation are discussed.

     

Arginase activity in different fish species and tissues

• 1.1. Arginase activity was measured in different tissues from eight species of fish.
• 2.2. Spur dogfish showed a very high arginase activity compared with the other species analysed.
• 3.3. The activity in teleosts was mainly found in tissues of high metabolic activity (liver, kidney and red muscle).

     

Evoked effects of oestradiol on hepatic cholesterol 7α-hydroxylase and drug oxidase in castrated rats

• 1.1. Oestradiol administration in castrated rats resulted in an increased activity of the cholesterolα-hydroxylase and a decreased activity of the drug oxidase enzyme systems.
• 2.2. Aqueous solutions of oestradiol (up to 25·10⁻⁶M) incubated in vitro with microsomes, binds into the microsomal membrane framework reducing the activity of both enzyme systems.
• 3.3. The specific activity of cholesterol 7α-hydroxylase. drops after 3 hr preincubation with oestradiol to at least 70% of its original value.
• 4.4. Actinomycin D and cycloheximide administration reduced the oestradiol-induced and control cholesterol 7α-hydroxylase activity to the same level, 6 hr after the injections.

     

Studies on tryptophan pyrrolase of Schistocerca gregaria försk. (Orthoptera)

• 1.The trytophan pyrrolase activity of central fat bodies of S. gregoria hoppera was studied.
• 2.The enzyme system appears to be similar to that of mammalian liver.
• 3.The enzyme was localized only in central fat bodies.
• 4.Extracts of other body parts can mimic an enzyme activity because of a degradation of ommochromes in the enzyme test.

     

Dipeptidyl aminopeptidase activities of guinea-pig brain

• 1.1. The subcellular distribution ofdipeptidyl aminopeptidase activities in guinea-pig brain was investigated. Our studies show that DAP I (Gly-Arg-NH-Mec hydrolase) type activity was found to have an acidic optimum and was associated with the nuclear pellet.
• 2.2. No DAP II (Lys-Ala-NH-Mec hydrolase) type activity could be detected. Apparant hydrolysis was mainly due to aminopeptidase activity.
• 3.3. DAP III (Arg-Arg-NH-Mec hydrolase) type activity is largely cytoplasmic, but there was evidence of a membrane form associated with the synaptosomes.
• 4.4. DAP IV (Gly-Pro-NH-Mec hydrolase) type activity is present on the synaptosomal membrane, and also enriched in the microsomes. A soluble form of Gly-Pro-NH-Mec hydrolase activity is also present in the cytoplasm. Whether this activity is a DAP II or IV type activity is still yet to be determined.

     

Long-term starvation in Xenopus laevis daudin—III. Effects on enzymes in several tissues

• 1.1. Adult, female Xenopus laevis were subjected to 12 months of starvation.
• 2.2. Starvation resulted in a continuous reduction in the activity of both hepatic and renal glucose-6-phosphate dehydroganse.
• 3.3. Fructose-1,6-diphosphatase was significantly reduced at months 10 and 12 in the liver, and at months 4, 10, and 12 in the kidney.
• 4.4. Pyruvate kinase activity of muscle and liver decreased during the experimental period whereas the renal enzyme remained essentially unchanged.
• 5.5. Both hepatic and renal glutamate-pyruvate transaminase (GPT) and hepatic glutamate-oxaloacetate transaminase (GOT) showed a reduction of activity after 2 and 4 months of starvation followed by an increase in GPT but not in GOT.

     

Effect of hibernation on liver and kidney metabolism in 13-lined ground squirrels

• 1.1. Metabolic rates and adenine nucleotide content of liver and kidney from hibernating ground squirrels were measured and compared to rats to study the biochemical adaptation to hibernation.
• 2.2. High rates of renal and hepatic gluconeogenesis were observed in squirrels, particularly from propionate and glycerol compared to rat.
• 3.3. During hibernation and starvation soluble phosphoenolpyruvate carboxykinase activity was increased in both liver and kidney.
• 4.4. Although metabolic rates are decreased during hibernation the results suggest that the enzymic complement is maintained at high activity even during torpor.

     

Temperature acclimation in respiratory and cytochrome c oxidase activity in common carp (Cyprinus carpio)

• 1.1. Common carp (Cyprinus carpio) exposed to experimental temperatures of 12, 18, 24, 30 or 36°C for a 4-week period were used to investigate the effect of temperature acclimation on the frequency of opercular movement (FOM), growth and cytochrome c oxidase (CCO) activity in heart, liver and muscle.
• 2.2. An exponential relationship between FOM and temperature after the first week (10₁₀ =1.76) disappeared after the second week.
• 3.3. The initially high FOM at temperatures of 30 or 36°C and the low FOM at 18 or 12°C changed over 4 weeks to approach the FOM of fish at 24°C.
• 4.4. This change in the relationship of FOM to temperature from highly dependent to independent appeared to be thermal compensation.
• 5.5. Heart and liver CCO activities were significantly affected by temperature, with the lowest activity at the approximate optimum temperature for growth, 24°C.
• 6.6. Highest CCO activities for heart and liver occurred at both the highest and lowest temperatures.
• 7.7. Among the three tissues, heart CCO activity was generally the highest and most affected by acclimation temperature.
• 8.8. Muscle tissue had the lowest CCO activity and was unaffected by temperature.
• 9.9. The high CCO activity at a cold acclimation of temperature 12°C was probably due to thermal compensation and the high activity at 36°C may have been a result of thermal stress.

     

In vivo effect of Berenil on rat liver polyamine metabolism

• 1.1. Berenil, administered to rats in vivo, promoted a decrease in liver SAMDC activity, but an increase in ODC and SAT activity.
• 2.2. Its effect on ODC was completely prevented by cycloheximide, that on SAT only partially.
• 3.3. Berenil had no effect on ODC activity in adrenalectomized rats. Adrenergic antagonists counteracted the effect of Berenil on ODC activity.
• 4.4. Polyamine content was increased. The maximum modification was observed for putrescine and N¹-acetylspermidine.

     

Biosynthesis of lipid-linked oligosaccharides in embryonic liver. Glucosylation of mannose containing dolichyl diphosphate oligosaccharide

• 1.1. A maximum rate of dolichyl phosphate [¹⁴C]glucose synthesis from 55-day embryos was achieved at 16nM concentration of exogenous dolichyl phosphate and exceeded about 3 times that without addition of dolichyl phosphate.
• 2.2. The highest values of [¹⁴C]glucose incorporation from UDP-[¹⁴C]glucose into dolichyl phosphate [¹⁴C]glucose, dolichyl diphosphate [¹⁴C]Glc-oligosaccharides and proteins were reached at 5 min time point of incubation of liver microsomes both from embryos and sows.
• 3.3. The radioactive incorporation into proteins was about 7-fold higher in liver microsomes from sows compared to that from embryos, probably due to the greater content of acceptor proteins in microsomes from sows.
• 4.4. The enzymatic transfer of Glc₃-oligosaccharide from a lipid carrier to endogenous protein acceptor in microsomes from pig embryonic and adult livers was considerably faster than the removal of glucose residues during the initial stages of processing of protein-bound oligosaccharides.
• 5.5. One labelled compound was discovered in the Chcl₃-Ch₃Oh-H₂O (1:1:0.3, by vol) extract after incubation of liver microsomes from embryos and sows with UDP-[¹⁴C]glucose. On the basis of its mobility on the chromatogram it appears to be GlcNAc₂Man₉Glc₃.

     

Heart mitochondrial and microsomal phospholipid fluctuations induced by chronic exercise in rats

• 1.1. The possible changes of heart mitochondrial and microsomal individual phospholipid concentrations after exercise and training in relation to time were investigated.
• 2.2. The most remarkable alterations observed after 40 days of exercise and training are namely a decrease of PC and PE and an increase of PS and DPG in heart mitochondria.
• 3.3. Regarding heart microsomes we found only a reduced concentration of PE and PS.
• 4.4. All the above mentioned changes are time-dependent and reversible.

     

Supply of polyenoic fatty acids to the mammalian brain: The ease of conversion of the short-chain essential fatty acids to their longer chain polyunsaturated metabolites in liver,brain, placenta and blood

The metabolism of linoleic and linolenic acids to the longer polyunsaturated fatty acids of mammalian brain is discussed. Differences in metabolic activity are considered between tissues, between species, and during different stages of development. Available evidence suggests that:

• 1.1. The sites of metabolism are confined mainly to liver and the brain itself.
• 2.2. The similar metabolic pathways are subject to a complex control which is most effective at the first step in the sequence.
• 3.3. During early development there are reciprocal changes in the metabolic capacity of brain and liver.
• 4.4. Metabolic activity varies between species and may be absent in obligate carnivores.

     

Acylation of lysoglycerophospholipids by adrenal membranes

• 1.1. Substantial differences were found in the acyi donor and lyso-acceptor specificities among subcellular membranes and with respect to different regions of the adrenal gland.
• 2.2. In the presence of Mg²⁺-ATP and CoASH, adrenal microsomes were actively transferring arachidonate to lysophospholipids with acyl acceptor specificity in the order: 1-acyl-GPI > 1-acyl-GPC > 1-acyl-GP. However, when oleoyl-CoA was used, acyi acceptor specificity for the microsomal transferases was in the order: 1-acyl-GPC > 1-acyl-GP > 1-acyl-GPI.
• 3.3. Mitochondrial membranes had very low acyi transfer activity and they preferred 1-acyl-GPC over other lyso-acceptors.
• 4.4. The chromamn granules were apparently lacking this type of activity.

     

Effect of methyl methacrylate on mitochondrial function and structure

• 1.1. Treatment of isolated rat liver mitochondria with methyl methacrylate (MM) produced membrane disruption as evidenced by the release of citrate synthase, and changes in the ultrastructure of mitochondria.
• 2.2. At concentration 0.1%, MM uncoupled oxidative phosphorylation as evidenced by stimulation of state 4 respiration supported either by pyruvate plus malate or succinate (+rotenone) and ATP-ase activity in intact mitochondria.
• 3.3. At concentration 1% MM stimulated ATP-ase activity in intact mitochondria and succinate (+rotenone) oxidation at state 4 and was without effect on this substrate oxidation at state 3.
• 4.4. MM inhibited pyruvate plus malate oxidation either at state 3 or in the presence of uncoupling agents.
• 5.5. MM inhibited the NADH oxidase of electron transport particles at a concentration which failed to inhibit either succinic oxidase or the NADH-ferricyanide reductase activity.
• 6.6. The data presented suggest that in the isolated mitochondria MM inhibits NADH oxidation in the vicinity of the rotenone sensitive site of complex I.
• 7.7. The general conclusion is that MM may block an electron transport and to uncouple oxidative phosphorylation in rat liver mitochondria. The overall in vitro effect would be to prevent ATP synthesis which could result in cell death under in vivo conditions.