Synthesis of the growth hormone-regulated rat liver anti-protease GHR-P63 is inhibited by acute inflammation

Synthesis of the growth hormone-regulated anti-protease GHR-P63 by rat hepatocytes was strongly reduced during acute inflammation. This decrease was detected 8 h after the onset of inflammation and reached a maximum after 24 h. A decrease in the GHR-P63 mRNA level measured by in vitro translation and by hybridization mainly accounted for the alteration of GHR-P63 synthesis. Besides this major pretranslational mechanism, inflammation also interfered with GHR-P63 synthesis at a posttranslational level. This was indicated by the production of abnormal immunoprecipitable species at early stages of the acute-phase response.     

Age-associated changes in DNA methylation and mRNA level of the c-myc gene in spleen and liver of mice

Age-associated changes in DNA structure and mRNA level were studied for the c-myc gene in spleen and liver of mice at 2, 14 and 26 months of age. Neither amplification nor rearrangement of the gene was detected in either tissue at any age. However, a significant alteration was observed in the methylation profile. The profile of the gene and its vicinity was determined using various methylation-sensitive restriction enzymes. In both tissues, the gene had an unmethylated domain ranging from -2 kb upstream of the 5' end of the first exon to the 3' end of the first intron. It was flanked by partially methylated regions, where age-dependent changes as well as tissue specificity were observed. In the spleen, age-related hypomethylation was observed at both the 3' and 5' sides of the domain. In contrast, hypermethylation was found in the liver only at the 3' side. The steady-state level of c-myc mRNA showed a drastic decrease in liver from youth to middle age, while splenic mRNA changed little. The correlation between the changes of mRNA and DNA methylation is discussed.     

Dietary regulation of ornithine transcarbamylase mRNA in liver and small intestine

In the rat, changes in dietary protein intake give rise to changes in the levels of ornithine transcarbamylase (OTC) in liver and small intestine--an increase in liver and decrease in small intestine. The changes in enzyme level are accompanied by similar changes in levels of specific mRNA. Thus in liver, there is an increase in the level of specific mRNA when protein intake is increased, whereas in small intestine there is a small decrease. Comparison of changes in specific mRNA with total poly-A-containing RNA showed that the change in OTC mRNA in liver paralleled the change in total RNA levels. In contrast, in small intestine the small decrease in OTC mRNA levels when protein intake was increased was in the face of an increase in the level of total mRNA. Whereas the level of OTC is 20-fold higher in liver than in small intestine, the mRNA level for the enzyme differs by only 2.5-fold.     

The level of beta-alanine aminotransferase activity in regenerating and differentiating rat liver

beta-Alanine aminotransferase from rat liver was purified to electrophoretic homogeneity. The immunological and kinetic properties of this enzyme were similar to those of the enzyme from rat brain. However, the liver enzyme transaminates from beta-alanine to 2-oxoglutaric acid, while the brain enzyme transaminates from gamma-aminobutyric acid. beta-Alanine aminotransferase activity in regenerating rat liver was lower than that in control rat liver. Activity of this enzyme, as well as of other uracil-catabolizing enzymes (Weber, G., Queener, S.F. and Ferdinandus, A. (1970) in Advances in Enzyme Regulation (Weber, G., ed.), Vol. 9, pp. 63-95, Pergamon Press, Oxford), was low in newborn rat liver and increased about 5-fold, reaching the level observed in adult rat liver. beta-Alanine and prednisolone induced beta-alanine aminotransferase in rat liver.     

Protein-synthesizing function of the liver of rabbits in experimental myocardial infarct

The content of serum albumin in rabbit blood was found to be lowered within the first day after reproduction of experimental myocardial infarction. The rate and the level of translation of endogenous mRNA were studied in cell-free systems from normal rabbit liver and 6-12-24 h after experimental myocardial infarction. The decrease of the total protein synthesis in the crude cell-free system from the liver of experimental animals was shown to depend on the lack of energy supply rather than on the reduced activity of the protein-synthesizing apparatus. The relative drop of protein synthesis in the cell-free system with saturating concentration of ATP, GTP and creatine phosphate is likely to be connected with a decrease in the proportion of membrane-bound polysomes.     

Hepcidin regulation of ferroportin 1 expression in the liver and intestine of the rat

Hepcidin has been implicated as the iron stores regulator: a hepatic signaling molecule that regulates intestinal iron absorption by undefined mechanisms. The possibility that hepcidin regulates the expression of ferroportin 1 (FPT1), the basolateral iron transporter, was examined in rats after administration of LPS, an iron chelator, or His-tagged recombinant hepcidin (His-rHepc). In the liver, LPS stimulated a biphasic increase of hepcidin mRNA with peaks of mRNA at 6 and 36 h. Concurrently, hepatic FPT1 mRNA expression decreased to minimal level at 6 h and then increased with a peak at 24-36 h. LPS also induced biphasic changes in intestinal FPT1 mRNA expression, with decreased levels at 6 h and increased expression at 48 h. Whereas the initial decrease of FPT1 coincides with an LPS-induced decrease in serum iron, both intestinal and hepatic FPT1 expression recovered, whereas serum iron concentration continued to decrease for at least 24 h. Dietary iron ingestion increased intestinal ferritin protein production but did not reduce intestinal FPT1 mRNA expression. The iron chelator pyrrolidinedithiocarbamate (PDTC) stimulated hepatic hepcidin without suppressing intestinal FPT1 expression. In PDTC-treated rats, LPS stimulated no additional hepatic hepcidin expression but did increase intestinal FPT1 expression. Administration of HisrHepc induced significant reduction of intestinal FPT1 expression. Taken together, these data suggest that hepcidin mediates LPS-induced downregulation of intestinal FPT1 expression and that the hepcidin signaling pathway involves a PDTC-sensitive step.     

Developmental and growth-related regulation of expression of serine dehydratase mRNA in rat liver

In rat liver, serine dehydratase mRNA is undetectable in the late prenatal period, but its level increases rapidly after birth to a transient peak, and then after decrease gradually increases again to a maximum 2 weeks after birth that is slightly higher than that of adult liver. To determine whether mature quiescent hepatocytes proliferate without loss of differentiated functions, we measured the serine dehydratase mRNA contents in regenerating liver and primary cultured hepatocytes from adult rats. Partial hepatectomy resulted in a dramatic decrease in the mRNA content within 24 h and then its recovery within a week. In subconfluent cultures of adult rat hepatocytes that did not grow even in the presence of mitogens, serine dehydratase mRNA was maintained at a high level. However, when the hepatocytes were cultured at low cell density without added mitogens, their serine dehydratase mRNA content decreases to a quarter of that of subconfluent cultures. The possibility that the expression of serine dehydratase mRNA is regulated in G0/G1 transition before entry into the S phase and the relationship of the mRNA with growth are discussed.     

Quantitation of apolipoprotein E mRNA in the liver and peripheral tissues of nonhuman primates

A sensitive DNA-excess solution hybridization assay was used to quantitate apo-E mRNA in the liver and peripheral tissues of two nonhuman primates, Macaca fascicularis and Cercopithecus aethiops. When expressed on the basis of total RNA, apo-E mRNA values for M. fascicularis adrenal, brain, testis, and spleen ranged from 17-52% of the liver value. Apo-E mRNA values for mesenteric lymph node, kidney, thymus, and skeletal muscle were 1-5% of the liver value. When expressed on a cellular basis, apo-E mRNA was most abundant in the liver at approximately 1200 molecules/cell. Peripheral tissues showed a continuous range of apo-E mRNA from 1.5 molecules/cell in the thymus up to 350 molecules/cell in the brain. Similar results were obtained with peripheral tissues from C. aethiops in which case apo-E mRNA also was found in skin, lung, skeletal muscle, small intestine, and vascular tissues such as heart, aorta, and brachial artery. Calculation of the total apo-E mRNA/organ showed that most of the apo-E mRNA was present in the liver. However, summation of apo-E mRNA in peripheral tissues indicated that 20-40% of total body apo-E mRNA was extrahepatic. This results indicates that apo-E made in peripheral tissues may play a quantitatively important role in cholesterol metabolism since peripheral tissues have the potential to contribute a significant fraction of plasma apo-E.     

Retinol-binding protein messenger RNA levels in the liver and in extrahepatic tissues of the rat

A retinol-binding protein (RBP) cDNA clone was used to examine the effect of retinol status on the level of RBP mRNA in the liver, and to explore whether extrahepatic tissues contain RBP mRNA. In the first series of experiments, poly(A+) RNA was isolated from the livers of normal, retinol-depleted, and retinol-repleted rats and the levels of RBP mRNA in these samples were determined by both Northern blot and RNA Dot blot analyses. The levels of RBP mRNA in liver were similar in all three groups of rats. These findings confirm and extend previous studies which showed that retinol did not alter the in vivo rate of RBP synthesis or the translatable levels of RBP mRNA. In a second series of experiments, the RBP cDNA clone was used to survey poly (A+) RNA isolated from 12 different rat tissues for RBP mRNA by Northern blot analysis. We found that, along with the liver, many extrahepatic tissues contained RBP mRNA. Kidney contained RBP mRNA at a level of 5-10% of that of the liver, and the lungs, spleen, brain, stomach, heart, and skeletal muscle contained 1-3% of that of the liver. Translation of kidney poly (A+) RNA in rabbit reticulocyte lysates and immunoprecipitation of the translation products with anti-RBP antiserum resulted in a protein band of the same size as liver preRBP. These data suggest that RBP is synthesized in many extrahepatic tissues.It is possible that this extra-hepatically synthesized RBP may function in the recycling of retinol from these tissues back to the liver or to other target organs.     

Increase in liver glucose transporter mRNA levels during rat liver regeneration

Gene expression of liver facilitated glucose transporter was rapidly induced during the liver regenerating process in rats. It reached maximum of 2.7 times at 8 hr of the regenerating course and returned to normal by 48 hr. The protein synthesis inhibitor, cycloheximide, did not interfere with the increased gene expression of liver facilitated glucose transporter. By contrast, erythrocyte/brain-type glucose transporter mRNA could not be detected in the livers of partially hepatectomized rats and sham-operated rats. The plasma glucose levels were transiently increased within 2 hr of the regenerative course and then decreased to a nadir at 4 hr. These results suggest that the increased gene expression of liver facilitated glucose transporter contributes to the decrease in plasma glucose levels.     

Lipidic last breath of life in patients with alcoholic liver disease

Alcoholic liver disease (ALD) begins with the accumulation of lipid droplets in the liver. Lipids which accumulate in the liver can stimulate inflammation, and the fatty acid derivatives, hydroxyeicosatetraenoic acids (HETEs) and hydroxyoctadecadienoic acids (HODEs), may play an important role in this process. We evaluated the concentrations of linoleic and arachidonic acid derivatives in the plasma of patients with ALD, non-alcoholic fatty liver disease (NAFLD) and healthy individuals. The groups consisted of 173 subjects: 63 patients with ALD, 90 with NAFLD and 20 healthy volunteers. Plasma 12-, 15-, and 5-HETE as well as 9- and 13-HODE were assessed using HPLC and isoprostane 8-epi-PGF 2α III was evaluated with an ELISA. In addition the mRNA expression of lipoxygenases (5-LOX, 15-LOX-1, 15-LOX-2) in the liver samples of patients with ALD cirrhosis was measured. A significant difference between the plasma concentrations of the analyzed derivatives was found when divided according to gender. The most significant differences were found between healthy individuals and ALD patients, as well as ALD and NAFLD individuals regardless of gender. The increased plasma HODEs and HETEs concentrations were in line with the increase in 5- and 15-LOX-1 and 15-LOX-2 mRNA in liver samples from ALD cirrhosis patients. LOXs expression and peroxidation of polyunsaturated fatty acids by free radical-propagated chemical oxidation may be contributing factors in liver necroinflammatory injury in ALD.     

Retinol-binding protein mRNA is induced by estrogen in the kidney but not in the liver

Vitamin A is mobilized from the liver and transported in plasma as retinol bound to retinol-binding protein (RBP). In addition to the liver, several extrahepatic tissues including the kidney have been shown to contain RBP mRNA. A study was conducted to explore the role of sex hormones in the regulation of RBP mRNA levels in the kidney compared to those in the liver. Treatment of female rats with a single dose of testosterone or chronic treatment with testosterone had only a slight effect on the steady-state level of RBP mRNA in the kidney and the liver. However, treatment of male rats with estrogen caused an increase in the steady-state level of RBP mRNA in the kidney but not in the liver. A single injection of 17 beta-estradiol, either 1.0 or 0.1 micrograms/g body weight, resulted in a rapid rise in the level of RBP mRNA in the kidney which was maximal at 3-6 h (fivefold induction) after treatment. In addition, treatment of ovariectomized female rats with estrogen also resulted in a rapid rise in the accumulated level of RBP mRNA in the kidney while having no influence in the liver. Finally, studies using the anti-estrogen drug, hydroxytamoxifen, resulted in blockage of the estrogen-related induction of RBP mRNA in the kidney, suggesting that the induction of RBP mRNA in the kidney by estrogen may be mediated by the nuclear estrogen receptor. Taken together these data suggest that the regulation of RBP mRNA, levels in the liver and kidney, at least with respect to estrogen, is different.     

Induction of mRNA coding for phenobarbital-inducible form of microsomal cytochrome P-450 in rat liver by administration of 1,1-Di(p-chlorophenyl)-2,2-dichloroethylene and phenobarbital

In the preceding paper (Yoshioka, H., et al. (1984) J. Biochem. 95, 937-947), we reported that 1,1-di(p-chlorophenyl)-2,2-dichloro-ethylene (DDE) induced the phenobarbital (PB)-inducible form of microsomal cytochrome P-450 (P-450(PB-1) in rat liver. In order to study more precisely the molecular events responsible for the induction of this particular form of cytochrome P-450 by the two chemical compounds, we determined the amounts of the mRNA coding for P-450(PB-1) in the liver of rats given a single dose of PB or DDE. RNA was extracted from the livers of the treated rats and the determination of the specific mRNA was carried out by using the rabbit reticulocyte lysate translation system and by a dot hybridization method using cloned P-450(PB-1) cDNA (Fujii-Kuriyama, Y., et al. (1982) Proc. Natl. Acad. Sci. U.S. 79, 2793-2797) as the probe. The amounts of P-450(PB-1) mRNA determined by these two methods at various time points of the induction process showed good agreement. These observations further confirmed the induction of an identical form of cytochrome P-450 by DDE and PB. The maximum level of P-450(PB-1) mRNA, which was about 8-fold higher than the control level, was attained at 20-30 h and at 48-72 h after the administration of PB and DDE, respectively. The mRNA level showed a rapid decrease after the peak in the liver of PB-treated rats, but the decrease was much slower with DDE-treated rats. We conclude that DDE had a more persistent inducing effect on the mRNA level than PB, although these two compounds induced an identical form of cytochrome P-450 in the liver microsomes of the animals.     

Level of translatable messenger RNA coding for argininosuccinate synthetase in the liver of the patients with quantitative-type citrullinemia

Summary The translation activity of mRNA coding for argininosuccinate synthetase in total RNA extracted from the liver of three patients with quantitative-type citrullinemia was determined using a cell-free translation system. In two patients, the hepatic content of the enzyme was about 20% of the control value, whereas translatable mRNA level for the enzyme was similar to or slightly lower than those of control livers. In the third patient, the enzyme content was about 50% of the control value, and mRNA activity for the enzyme was low normal. These results indicate that at least in the first two patients, the decrease in the enzyme protein is due either to increased degradation of the enzyme or to decreased translation in the patient's liver.     

Expression of apolipoprotein AI mRNA in peripheral white blood cells of patients with alcoholic liver disease

Because (i) changes in plasma and liver mRNA of apolipoprotein (apo) AI have been observed in patients with alcoholic liver disease, (ii) apo AI mRNA can be induced in non-hepatic tissues, and (iii) apolipoproteins expression is influenced by plasma colloid osmotic pressure (P(CO)) and viscosity (eta), we analyzed the Apo AI mRNA expression in the peripheral white blood cells (PWBC), P(CO), and eta in control volunteers (C), patients with liver cirrhosis (LC), and cirrhotic patients with superimposed alcoholic hepatitis (LC+AH). We found that apo AI mRNA is expressed in the PWBC in 20% of C and it is induced 1.5 fold in 66.6% of LC and 1.95 fold in 85% of LC+AH. A significant decrease of P(CO) in LC and LC + AH (14.8 +/- 2.4 and 16.2 +/- 2.4 mm Hg, respectively) compared to C (27.9 +/- 2 mm Hg) was observed. By contrast, eta was mildly increased from 1.7389 +/- 0.07 in C to 1.8022 +/- 0.154 in LC and 1.9030 +/- 0.177 in LC+AH. No significant correlation was found between P(CO) and eta with apo AI mRNA but with lipid profile. In conclusion, apo AI mRNA expression in PWBC is associated to liver disease severity and could be an indirect indicator of alcoholic liver damage.     

Selenium regulation of thioredoxin reductase activity and mRNA levels in rat liver

Mammalian thioredoxin reductase (TRR; NADPH₂:oxidized thioredoxin oxidoreductase, E.C. 1.6.4.5) is a new member of the family of selenocysteine-containing proteins. TRR activity in Se-deficient rat liver is reported to decrease to 4.5 to 15% of the activity in Se-adequate rat liver, similar to the fall in Se-dependent glutathione peroxidase-1 activity. Both glutathione peroxidase-1 enzyme activity and mRNA levels decrease dramatically in Se deficiency, whereas glutathione peroxidase-4 activity only decreases to 40% of Se-adequate levels and mRNA level is little affected by Se deficiency. The purpose of these experiments is to study the effect of Se status on TRR mRNA levels and enzyme activity in our well-characterized rat model, and to compare this regulation directly to the regulation of other Se-dependent proteins in male weanling rats fed Se-deficient diets or supplemented with dietary Se for 28 days. In two experiments, TRR activity in Se-deficient liver decreased to 15% of Se-adequate activity as compared to 2% and 40% of Se-adequate levels for GPX1 and GPX4, respectively. Using ribonuclease protection analysis, we found that TRR mRNA levels in Se-deficient rat liver decreased to 70% of Se-adequate levels. This decrease in TRR mRNA was similar to the GPX4 mRNA decrease in Se-deficient liver in these experiments, whereas GPX1 mRNA levels decreased to 23% of Se-adequate levels. This study clearly shows that TRR represents a third pattern of Se regulation with dramatic down-regulation of enzyme activity in Se deficiency but with only a modest decrease in mRNA level. The conservation of TRR mRNA in Se deficiency suggests that this is a valued enzyme; the loss of TRR activity in Se deficiency may be the cause of some signs of Se deficiency.     

Identification of a large precursor of vitellogenin mRNA in the liver of estradiol-treated chicks.

Studies were performed to determine whether vitellogenin mRNA from avian liver has a precursor molecule or not. Total cellular RNA was prepared from estradiol-treated chicken liver in the presence of 8 M guanidine HCl, 2-mercaptoethanol and aurintricarboxylic acid. After denaturation, RNA was fractionated on sodium dodecylsulfate-sucrose gradients and large size RNA was analyzed under stringent conditions on 85% formamide-sucrose gradients at 25 degrees C. RNA fractions collected from the gradients were hybridized with vitellogenin (3H)-cDNA. Besides mature vitellogenin mRNA (32S, 7,000 nucleotides) vitellogenin sequences were also found in RNA fractions ranging from 38-50S with a peak at 45-50S (12-15,000 nucleotides). Only 5-10% of the putative 38-50S pmRNA is polyadenylated. We calculated that the half-life of vitellogenin pmRNA is about 3-4 minutes. We conclude that vitellogenin mRNA has a precursor which is twice the size of the mature mRNA.