Differential Regulation of Malate Dehydrogenase Isoenzymes by Hydrocortisone in the Liver and Brain of Aging Rats

The activities and induction patterns of the isoenzymes of malate dehydrogenase (MDH) of the liver and brain of male rats of various ages were studied. The activities of both the isoenzymes of MDH of the liver and brain show a gradual increase with increasing age of the rats. Adrenalectomy decreases and hydrocortisone treatment increases the activity of cytoplasmic MDH of the liver and brain of rats of all the ages except that of the brain isoenzyme of old rats. This hormone-mediated induction of the isoenzyme is actinomycin D-sensitive. Furthermore, adrenalectomy decreases and hydrocortisone treatment increases the activity of mitochondrial MDH of the liver of young and adult rats but not in old rats. However, these treatments do not show any significant effect on the activity of mitochondrial MDH of the brain of rats of all the ages.     

Isocitrate dehydrogenase activity and its regulation by estradiol in tissues of rats of various ages

The activity and hormonal regulation of NAD- and NADP-linked isocitrate dehydrogenase (EC.1.1.1.41 and EC.1.1.1.42, respectively) in the brain, liver and kidney cortex of female rats of various ages was investigated. The activity of NAD-ICDH of brain was greater than extramitochondrial (-c) or intramitochondrial (-m) NADP-ICDH. In contrast, liver c-NADP-ICDH was much higher than NAD- or m-NADP-ICDH, whereas in kidney cortex the activity of m-NADP-ICDH is dominant over both NAD- and c-NADP-ICDH in all the age group of rats studied. The activity of the NAD-ICDH of brain and all the enzymes of liver and kidney cortex increases until adulthood (33-weeks) and decreases thereafter in old rats (85-weeks). In brain c-NADP-ICDH was much higher in immature (6-weeks) rats and decreases with increasing age of the animal, whereas m-NADP-ICDH showed no significant change with the age of the rats. Bilateral ovariectomy decreases the level of all the three forms of enzyme in all the tissues of 6-, 13- and 33-week rats but failed to show any significant effect in 85-week old rats. Exogenous administration of estradiol induces all the three forms of enzyme in all the tissues of ovariectomized rats. The degree of response is tissue- and age-specific.     

Regulation of NAD- and NADP-linked isocitrate dehydrogenase by hydrocortisone in the brain and liver of male rats of various ages

The activity and hormonal regulation of NAD- and NADP-linked isocitrate dehydrogenase (EC 1.1.1.41 and 1.1.1.42, respectively) in the brain and liver of rats of various ages were investigated. The activity of NAD-linked isocitrate dehydrogenase of the brain was greater than cytoplasmic or mitochondrial NADP-linked isocitrate dehydrogenase. In contrast, the cytoplasmic NADP-isocitrate dehydrogenase of the liver predominates over both NAD- and mitochondrial NADP-isocitrate dehydrogenases at the three ages studied. The activity of NAD-isocitrate dehydrogenase increased in the brain (139%) and liver (17%) of rats upt o 33 weeks of age and decreased (57 and 39%, respectively) in old rats (85-week-old). The activity of cytoplasmic NADP-isocitrate dehydrogenase was maximum in immature (6-week-old) rat brain and decreased as the age of the rats increased; whereas, in liver, the activity of this enzyme was found to be maximum in adult rats (33-week-old). Brain mitochondrial NADP-isocitrate dehydrogenase activity increased (64%) in adult rats, but in liver it decreased (45 and 33% in 33- and 85-week-old rats, respectively). In both tissues, adrenalectomy and hydrocortisone treatment showed differential age-dependent response. Hydrocortisone-mediated induction of the level of enzymes was inhibited by actinomycin D.     

Developmental changes of L-lysine-ketoglutarate reductase in rat brain and liver.

1. Developmental aspects of L-lysine-ketoglutarate reductase, the first enzyme in saccharopine pathway of L-lysine degradation in rat liver and brain tissues were studied. 2. Although the adult rat brain shows negligible activity, the enzyme activity was shown to be highly active during the early stages of development. 3. The enzyme activity gradually decreased through development in the brain, whereas it gradually increased in the liver, establishing the fact that the saccharopine pathway is the major pathway in liver. 4. Our results also show that glucagon stimulated the induction of this enzyme by 2-3-fold in both adult liver and brain tissues.     

Tissue-specific differential induction of aspartate transcarbamylase by hydrocortisone in rats of various ages

The activity and induction pattern of aspartate transcarbamylase (ATCase) of the liver (a mitotic tissue) and heart (a post-mitotic tissue) of rats of various ages were studied. The activity of the enzyme of both tissues was highest in the immature rat and decreased significantly thereafter with increasing age of the animal. Adrenalectomy and hydrocortisone treatments altered the activity of liver ATCase in rats of all the ages. However, these treatments altered the heart enzyme of the immature and adult rats, but not of senescent rat. The magnitude of induction of the enzyme by hydrocortisone was highest in the immature rat. Actinomycin D inhibited the hormone-mediated induction of ATCase in both the liver and heart.     

Activity of gluconeogenetic enzymes in the kidney of pigs during pre- and post-natal development

In pig fetuses (19 of 8 dams) developed by Caesarean section the dry matter and protein content of the kidneys and their PEPCK activity remain constant during the last third (from 80th to 112th day) of gestation. After birth the dry matter content of the kidneys rises slowly, but their protein content remarkably. In the kidneys of suckling piglets (17 animals of 3 offsprings) the FDPase activity remains at the same level from birth to the 9th day of life, while in the same time the G6Pase activity rises 1.5-2 times. In the kidneys of newborn piglets the total PEPCK activity increases 3-4 times and the activity of the cytosolic enzyme 2-3 times during the first 12 hours of life. At the end of the first week of life the total PEPCK activity decreases by one-third, while the activity of the cytosolic enzyme remains stable. In the kidneys of slaughter pigs (n = 7) the dry matter content and the FDPase activity are significantly higher, the protein content and the G6Pase activity are the same as in the kidneys of piglets. The total PEPCK activity is one-half, the activity of the cytosolic enzyme one-third lower than in the kidneys of piglets. In the kidneys of adult pigs the PEPCK activity is localized to equal parts in the cytosol and in the mitochondria, but in some development stages the mitochondrial part exceeds that of the cytosol. In adult pigs the PEPCK activity of the renal cortex is 2.5-3 times higher than that of the renal medulla.     

Rat cytosolic aspartate aminotransferase: regulation of its mRNA and contribution to gluconeogenesis

Induction of cytosolic aspartate aminotransferase (cAspAT) was observed in rat liver on administration of a high-protein diet, or glucagon and during fasting. The enzyme activity in the liver of rats given 80% protein diet or glucagon injection during starvation increased to 2- to 2.4-fold that in the liver of rats maintained on 20% protein diet, with about 2-fold increases in the levels of hybridizable cAspAT mRNA, measured by blot analysis using the cloned rat cAspAT cDNA as a probe. No increase in the enzyme was detected in kidney, heart, brain, or skeletal muscle. The activity of mitochondrial aspartate aminotransferase (mAspAT) did not increase. Induction of cAspAT was observed when glucose metabolism tended toward gluconeogenesis. The physiological function of the induction of cAspAT is considered to be to increase the supply of oxaloacetate as a substrate for cytosolic phosphoenolpyruvate carboxykinase (PEPCK) [EC 4.1.1.32] for gluconeogenesis.     

Studies on the stearic acid dehydrogenase in the liver and brain of rats of various ages (author's transl)]

Tissue slices from the liver and brain of 7-day-old rats incubated with [1-14C]stearic acid desaturate the stearate to oleate. The activities of the two tissues are different but of the same order of magnitude. With increasing age, the activity in the liver increases markedly, while the brain activity decreases. The postmitochondrial supernatant from adult (3-month-old) liver contains 2 to 3 orders of magnitude more stearoyl-CoA dehydrogenase activity than the brain postmitochondrial fraction. The washed microsomal fraction from liver had about the same activity as the postmitochondrial supernatant, but no dehydrogenase activity could be detected in the washed microsomal fraction from the brain. The acyl-CoA synthetase and the palmitoyl-CoA hydrolase activities measured in the washed microsomes from adult brain were both lower than in liver microsomes. The concentration of stearoyl-CoA (the substrate for the stearoyl-CoA dehydrogenase) resulting from the ratio of these activities was too high, however, for the lack of desaturase activity to have been simulated by lack of substrate.     

Features of lipid peroxidation in brain and liver tissues from aging rats under stress

The lipid peroxidation (LPO) level between in the adult and old rats brain and liver was determined as to be essentially undiffering. Stress activated the LPO independence the age of animals and tissues investigated. The concentration changes of LPO products testify to it. In the adult rats under the stress capability of tissues to induction in vitro ferment and ascorbat-depending LPO, in comparison with the control, decreases, at old--does not change in the brain and considerably grows in the liver. Stress is accompanied by an oppression of Na, K-ATP-ase PM activity of hepatocytes, more expressed in the old animals.     

Decreased activity and impaired induction of nitric oxide synthase by lipopolysaccharides in streptozotocin-induced diabetic rats

The effect of diabetes was determined on nitric oxide synthase (NOS) activity in rat heart and liver. The diabetes was induced by streptozotocin (STZ) and NOS activity was determined after 1 or 12 weeks post-STZ injection. In both tissues, the majority of NOS activity was associated with endothelial constitutive calcium-sensitive NOS (ecNOS) isoform and found in the particulate (100,000xg pellet) fraction in young rats. The diabetes as well as age reduced this activity significantly in heart, whereas only the age caused a decrease in ecNOS activity in liver tissue. Lipopolysaccharides (LPS) induced calcium-insensitive iNOS activity in both young and old rats. The induction was significantly higher (up to 10-fold) in liver as compared to heart. Although the maximum induction of iNOS in young rats was almost similar in diabetic tissues as compared to control animals, there was a lag period for induction of iNOS in diabetic tissues. In old diabetic rats, the induction by LPS was almost completely abolished. These results suggest that diabetes causes either no change or a decrease in ecNOS activity and impairment in the induction of iNOS by LPS in rat heart and liver.     

Tissue specific,sex and age--related differences in the 6-phosphogluconate dehydrogenase gene expression

Data presented in thid paper indicate that: (1) the age-related changes in 6-phosphogluconate dehydrogenase (6PGDH) activity depend on sex and tissue. No differences in the liver 6PGDH activity between young (1-month-old) males and females were found. In adult males, the activity was the same as in young animals but, in adult females, it reached the value twice as high as in the young. In adipose tissue (both white and brown) and kidney cortex, the enzyme activity decreased with age both in males and females. There were no differences between males and females 6PGDH activity in brain, heart and skeletal muscle. (2) The sex and age-related changes in the liver 6PGDH activity occur predominantly at the level of mRNA cellular concentration. (3) In the liver of ovariectomized rats decrease of 6PGDH activity and mRNA level was observed. Oestradiol administration to ovariectomized rats restored liver 6PGDH activity and liver 6PGDH mRNA levels to that observed in controls. No changes in 6PGDH activity and mRNA levels were found in white adipose tissue (WAT) of ovariectomized adult rats and in ovariectomized rats treated with oestradiol. (4) Oestradiol administration to males caused an increase of liver 6PGDH activity and mRNA levels to values observed in females, but was without an effect on WAT 6PGDH activity and mRNA level. (5) These results suggest that 6PGDH activity in different tissues is not regulated in coordinate fashion and that oestradiol plays an important role in the liver enzyme activity regulation.     

UDP-galactose:glycoprotein galactosyltransferase activity in tissues of developing rat

UDP-galactose:glycoprotein galactosyltransferase activity has been measured in several tissues of the rat, ranging in age from 16 days embryo to 35 days postnatal. The enzyme activity was found to be high in fetal liver, lungs, and brain tissues but the concentration decreased with gestational age with no further changes after birth. The enzyme activity in the serum of newborns was higher than in pregnant and nonpregnant adult rats. There was no qualitative difference (optimum pH, cation requirements, affinity for the substrate UDP-galactose, or requirement for Triton X-100) between the enzyme from embryonic liver and that from adult rats. During the embryonic stage nearly half of the enzyme activity was localized in a plasma membrane-rich fraction and only a minor part in the microsomal fraction, while in the adult most of the activity was present in the microsomal fraction. Under certain conditions of assay the incorporation of galactose into glycoprotein in liver homogenates was greatly stimulated by CDP-choline or ATP. However, CDP-choline showed a considerably greater effect than ATP at 5 days after birth but this effect could be eliminated by solubilizing the homogenates in deoxycholate.     

Different sensitivity of PPARalpha gene expression to nutritional changes in liver of suckling and adult rats

The amount of peroxisome proliferator-activated receptor-alpha (PPARalpha) protein was markedly augmented in the liver of suckling rats compared to adult rats. This different PPARalpha abundance was used to study the sensitivity to nutritional changes in the expression and activity of this receptor. Thus, 10-day-old and adult rats were orally given either glucose, Intralipid or a combination of both diets, and liver mRNA levels of PPARalpha and the PPAR related genes, acyl-CoA oxidase (ACO) and phosphoenolpyruvate carboxykinase (PEPCK), and plasma metabolites were measured. In neonates, the expression of PPARalpha and ACO was seen to increase when the level of FFA in plasma was also high, unless an elevated level of insulin was also present. However, this fatty acid-induced effect was not detected in adult rats. On the contrary, the hepatic expression of PEPCK was modulated by the nutritional changes similarly in both neonates and adult rats. Thus, it may be concluded that the expression of the PPARalpha gene in adult rats seems to be less sensitive to nutritional changes than in neonates.     

Developmental Patterns of Catechol-O-Methyltransferase in Genetically Different Rat Strains: Enzymatic and Immunochemical Studies

Abstract: Catechol- O -methyltransferase (COMT) activity in the liver and kidneys of adult Fischer-344 (F-344) rats is only half of that in the same organs of Wistar-Furth (W-F) rats. The trait of low COMT activity in these animals is inherited in an autosomal recessive fashion. A comprehensive study of patterns of change in COMT activity during growth and development was performed to determine whether "temporal gene" effects might play a role in the inherited differences in enzyme activity present in adult animals. The COMT activity expressed per mg protein in liver and kidneys of newborn F-344 rats is only 50–60% of that in the same organs of W-F animals. The liver and the kidneys of newborn rats of both strains have COMT activity an order of magnitude higher than those in brain, heart, or blood. In addition, in both strains there are much larger increases in liver and kidney COMT activities during growth and development (5–10 fold) than in blood, brain, or heart (one- to twofold). Immunotitration with antibodies against rat COMT demonstrates that differences in immunoreactive COMT parallel differences in COMT activity, both between strains and within strains during growth and development. However, when the temporal patterns of change in enzyme activities in the liver and the kidneys of the two strains of rat are compared at multiple times during growth and development, no differences in the patterns are present. These results make it unlikely that temporal gene effects can explain the inherited differences in COMT activity in liver and kidneys of F-344 and W-F rats.     

Immunohistochemical localization of phosphoenolpyruvate carboxykinase in adult and developing mouse tissues.

We used immunohistochemical techniques to analyze the cell distribution of phosphoenolpyruvate carboxykinase (PEPCK) in adult and developing mouse tissues. PEPCK immunoreactivity was detected in many tissues, including some that had not been previously reported to contain PEPCK enzyme activity (bladder, stomach, ovary, vagina, parotid gland, submaxillary gland, and eye). In some multicellular tissues, PEPCK immunoreactivity was observed in multiple cell types. Several tissues (spleen, thyroid, and submaxillary gland) contained no detectable PEPCK immunoreactivity. During development, PEPCK immunoreactivity was associated with the developing nervous system and somites in 15-day embryos. At prenatal day 18, PEPCK immunoreactivity was detected only in the nervous system. At prenatal day 20, PEPCK immunoreactivity was observed in many of the tissues that contain PEPCK in the adult, with the exception of liver, lung, and stomach. PEPCK immunoreactivity was detected in liver at postnatal day 1, lung at postnatal day 7, and stomach after postnatal day 21. The only tissue in which PEPCK immunoreactivity decreased during development was the pancreas, where PEPCK immunoreactivity was detected at prenatal day 20 and was present until postnatal day 21. These results suggest that PEPCK expression is cell-type specific, more widespread than previously thought, and differentially expressed during development.     

Effect of thyroid state on cyclic AMP-mediated induction of hepatic phosphoenolpyruvate carboxykinase.

Hepatic phosphoenolpyruvate carboxykinase (PEPCK) is significantly increased in the hyperthyroid starved rat, and moderately decreased in the hypothyroid starved rat. As tri-iodothyronine by itself has only a small and sustained effect on the induction of this enzyme, as was previously shown in the isolated perfused organ, the effect of hypo- and hyper-thyroidism on the increase in cytosolic PEPCK provoked by dibutyryl cyclic AMP (Bt2cAMP) was investigated in vivo and in the isolated perfused liver. Compared with euthyroid fed controls, in hypothyroid fed rats Bt2cAMP provoked in 2 h only a small increase in translatable mRNA coding for PEPCK. In contrast, in hyperthyroid animals PEPCK mRNA as measured by translation in vitro was already increased in the fed state, and further enhanced by Bt2cAMP injection to values as in euthyroid controls. Under all thyroid states a close correlation between PEPCK mRNA activity and PEPCK synthesis was observed. In the isolated perfused liver from the hyperthyroid fed rat, the increase in PEPCK provoked by Bt2cAMP or Bt2cAMP + isobutylmethylxanthine was considerably enhanced compared with those obtained in livers of hypothyroid rats. Also, adrenaline provoked a stimulated induction of PEPCK in hyperthyroid rats compared with hypothyroid rats. To summarize, our data indicate that the primary action of thyroid hormones on the synthesis of hepatic cytosolic PEPCK is to accelerate the cyclic AMP- or adrenaline-induction of the enzyme, acting primarily at a pretranslational level.     

Induction and properties of pyruvate kinase of the cerebral hemisphere of rats of various ages

The induction of pyruvate kinase (ATP: pyruvate 2-O phosphotransferase, EC 2.7.1.40; PK) by estradiol or testosterone in the cerebral hemisphere of male and female rats of different ages was studied. There is a marked decrease in the activity of the enzyme of normal male and female rats with increasing age. Orchiectomy decreases its activity in young and old rats, but not in adult rats. Ovariectomy decreases its activity significantly in all the ages. Estradiol (50μg/100g body wt.) induces its activity in castrated male and female rats, but its effect is greater in female rats. A higher dose of estradiol (100μg/100g body wt.) has age- and sex-dependent induction. Testosterone (50 and 100μg/100g body wt.) has very little effect on its activity in castrated male and female rats of the three ages. The K_m values for PEP and ADP, and the K_t values for ATP and l -phenylalanine for the partially purified enzyme of the cerebral hemisphere of normal young and old rats are the same. Preincubation of the enzyme with l -alanine reverses the l -phenylalanine induced inhibition. The concentration of l -alanine required for this effect is the same for both ages. The concentration of Mg²⁺ required to reverse the inhibitory effect of ATP is the same for young and old rats. Estradiol and testosterone added directly to the incubation mixture do not have any effect on the enzyme activity. These data suggest that the nature of the enzyme molecule does not change with age, but that its induction properties change with age.     

Effects of estradiol and testosterone on the activity of pyruvate kinase of the cardiac and skeletal muscles of rats as a function of age and sex

The specific activities of pyruvate kinase of cardiac and skeletal (gastrocnemius) muscles of adult rats of both sexes are lower than those of immature rats. The activity does not change after adulthood in the cardiac muscle, but decreases in the gastrocnemius. The activity of pyruvate kinase of the heart of immature and adult rats of both sexes decreases after castration, but is unaffected in old rats. Castration has no effect on the activity of pyrovate kinase of the gastrocnemius muscle of rats of both sexes at any age. In invo administration of estradiol (50 μg/100 g body weight) increases the activity of pyruvate kinase of the heart of castrated male and female rats of the three ages. For the skeletal muscle, the activity increases in castrated adult female and old male rats only. A higher dose (100 μg) of estradiol has variable effects on pyruvate kinase of the heart of male and female castrated rats of different ages. This dose increase pyruvate kinase significantly in the skeletal muscle of old castrated male and female rats. However, it decreases it in the skeletal muscle of adult castrated male rats. Testosterone (100 μm) increases the activity of pyruvate kinase of the heart of castrated male rats. This increase is lower in old age. It has no effect in the heart of castrated female rats of any age. Testosterone (50 μg) increases pyruvate kinase activity of the skeletal muscle of young ovariectomized rats only. A higher dose (100 μg) causes a significant increase in pyruvate kinase of the skeletal muscle of castrated adult and old male, and young and adult female rats, respectively. These data show that sex steroid hormones induce pyruvate kinase of striated muscles, and that the age- and sex-dependent variations may be due to changes in the levels of receptor proteins.     

Glycogen content and glucose-6-phosphatase activity in the tissues of the adult frog and tadpole

Studies have been made on the content of glycogen and the activity of glucose-6-phosphatase in tissues of adult frog Rana temporaria (liver, brain, pia mater, n. ischiadicus, fast and slow muscles) and tadpoles (liver, tail muscles). It was found that the enzymic activity is somewhat higher in the liver of tadpoles than that in the liver of adult frogs, being low in the tail muscles. Pia mater and n. ischiadicus exhibit higher activity of glucose-6-phosphatase as compared to the liver. In tadpoles, glycogen content of the liver increases from the 40th stage of metamorphosis and decreases in the tail muscles to the 42nd-50th stages. Glycogen content in tissues other than liver of adult frogs is higher than in similar tissues of mammals.     

[3H]HARMALINE AS A SPECIFIC LIGAND OF MAO A–II. MEASUREMENT OF THE TURNOVER RATES OF MAO A DURING ONTOGENESIS IN THE RAT BRAIN

The combined measurement of MAO A activity (using [³H]5-HT as a specific substrate) and [³H]harmaline binding capacity indicated that the concentration of MAO A in brain was higher in 14-28 day old rats than in adult animals. The turnover rates of this enzyme in the forebrain and the brain stem of young (14-28 day old) and adult rats were calculated by following the recovery of MAO A activity and of [³H]harmaline binding capacity after an acute treatment with pargyline (75mg/kg i.p.). Both the fractional rate constant for MAO A degradation and its synthesis rate per g of fresh tissue were significantly higher in young animals. However, the calculation of the absolute synthesis rates of MAO A per brain area gave very similar values in young and adult animals: 1.3-1.5 × 10¹³ molecules of MAO A synthesized per day in the forebrain and 2.3-2.9 × 10¹² molecules per day in the brain stern. The results illustrate the validity of using [³H]harmaline binding to evaluate possible changes in the turnover rate of MAO A in tissues.