Action of cytoplasmic factors from the regenerating liver on cholesterol esterification in the blood serum of rats with tetrachloromethane liver damage

The effect of proliferation stimulating factors (PSF) obtained from regenerating liver on the cholesterol esterification in blood serum under deep tetrachloromethane intoxication has been studied in experiments with white rats. Three phases in dynamics of cholesterol content in blood serum have been picked out after a single tetrachloromethane injection. The content of total cholesterol and cholesterol esters reduces during the first phase (24 h), during the second phase (3-7th day) it increases and during the third phase (15th day) these values become normal. PSF injection does not produce any influence on the nature of blood cholesterol under deep tetrachloromethane intoxication, but stimulates the processes of cholesterol ester formation in blood serum.     

Evidence for ethylation of rat liver deoxyribonucleic acid after administration of ethionine

1. Administration of a large dose (500mg/kg body wt.) of (3)H-labelled l-ethionine to rats resulted in the incorporation of a small amount of radioactivity into the liver DNA. Considerable evidence that this radioactivity was not due to contamination of the isolated DNA with labelled protein, RNA, S-adenosyl-l-ethionine or l-ethionine was obtained. 2. After acidic hydrolysis of the DNA isolated from the livers of rats treated with labelled l-ethionine, virtually all of the radioactivity present in the DNA was found in a fraction with similar chromatographic properties to 7-ethylguanine. 3. Treatment of rats with comparable doses of l-methionine did not lead to the formation of 7-methylguanine in the liver DNA. 4. These results are discussed in relation to the induction of liver tumours by ethionine.     

Alterations in DNA-dependent RNA polymerase I from rat liver accompanying ethionine administration

Multiple injections of ethionine plus adenine resulted in 3- to 4-fold increases in the activity of RNA polymerase I from rat liver nuclei, whereas the activity of RNA polymerase II was relatively unaffected. Methyl-deficient preribosomal RNA was present in the livers of rats after treatment for 2 days. Both incorporation of labelled orotate into rat liver ribosomal RNA and protein synthesis in polysomes gradually increased.     

The effect of ethionine on ribonucleic acid synthesis in rat liver.

1. By 1h after administration of ethionine to the female rat the appearance of newly synthesized 18SrRNA in the cytoplasm is completely inhibited. This is not caused by inhibition of RNA synthesis, for the synthesis of the large ribosomal precursor RNA (45S) and of tRNA continues. Cleavage of 45S RNA to 32S RNA also occurs, but there was no evidence for the accumulation of mature or immature rRNA in the nucleus. 2. The effect of ethionine on the maturation of rRNA was not mimicked by an inhibitor of protein synthesis (cycloheximide) or an inhibitor of polyamine synthesis [methylglyoxal bis(guanylhydrazone)]. 3. Unlike the ethionine-induced inhibition of protein synthesis, this effect was not prevented by concurrent administration of inosine. A similar effect could be induced in HeLa cells by incubation for 1h in a medium lacking methionine. The ATP concentration in these cells was normal. From these two observations it was concluded that the effect of etionine on rRNA maturation is not caused by an ethionine-induced lack of ATP. It is suggested that ethionine, by lowering the hepatic concentration of S-adenosylmethionine, prevents methylation of the ribosomal precursor. The methylation is essential for the correct maturation of the molecule; without methylation complete degradation occurs.     

Effect of ethionine on synthesis and methylation of ribosomal ribonucleic acid in regenerating rat liver

Ethionine, a hepatocarcinogen, was administered into rats 24 h before partial hepatectomy and immediately thereafter. Hepatic precursor ribosomal RNA (pre-rRNA) obtained 20 h after the operation of rats injected with ethionine and adenine resulted in methyl deficiency as judged by the incorporation of [3H]methyl group of S-adenosylmethionine into nuclear rRNA by partially purified rRNA methylase. The ethionine and adenine treatment causes methyl deficiency of nuclear rRNA at 2'-hydroxyribose sites of cytidine and uridine, but not at base sites. Although the ethionine and adenine treatment produced no significant change in total hepatic RNA synthesis in vivo assayed by the incorporation of labeled orotate, a one-third increase in nuclear rRNA synthesis as well as a one-third decrease in microsomal rRNA synthesis was found under the treatment. These results suggest that the undermethylation at 2'-hydroxyribose of pre-rRNA in liver nucleus, which is caused by ethionine and adenine administration into rats, causes an inhibition of the processing of nuclear pre-rRNA to cytoplasmic rRNA.     

The effect of ceruloplasmin on hepatocyte proliferation in the regenerating rat liver

The influence of ceruloplasmin on cell proliferation in regeneration liver of the rat has been studied. Ceruloplasmin stimulates cell proliferation in regeneration liver increasing functional activity of the mononuclear phagocytes.     

Two molecular forms of thymidine kinase in the cytosol of regenerating rat liver.

Two forms (Peak A and Peak B) of thymidine kinase [EC 2.7.1.75] from regenerating rat liver cytosol were resolved and partially purified by Deae-cellulose chromatography. Both fractions were identical with respect to their substrate requirement, pH optima, metal requirements, and molecular weight, as judged by their sedimentation in sucrose density gradient centrifugation. Peak B differed from Peak A in heat sensitivity, inhibition by dCTP and Km for thymidine and ATP. Peak B enzyme was the only enzyme found in normal adult liver and Peak A enzyme was the form increasing predominantly in regenerating liver.     

The effect of dexamethasone on P450 activities in regenerating rat liver

The aim of our study was to detect four P450s (CYP1A, CYP2B, CYP2E1, CYP3A) on the basis of selective enzyme activities and protein amount, and to investigate the effect of dexamethasone treatment during liver regeneration. Partial hepatectomy of rats resulted in the loss of CYP1A, CYP2B, CYP2E1, and CYP3A activities. The reduction of enzyme activities and the loss of enzyme protein of CYP2B1/2, CYP2E1, and CYP3A1/2 were the most pronounced. In the case of CYP1A1, only slight decrease was observed. Dexamethasone treatment seems to counteract this loss mainly in the first 12 h.     

Increase of transferrin receptors in regenerating rat liver cells after partial hepatectomy

The change of transferrin receptors in regenerating rat liver cells after partial hepatectomy was demonstrated. The binding of 125I-labeled transferrin to the cells began to increase after 24 h of partial hepatectomy and reached about double that of the non-operated normal rat liver cells. A Scatchard analysis of binding parameters showed 1.62 X 10(5) (Ka: 1.04 X 10(7) M-1) in normal cells and 3.36 X 10(5) (Ka: 1.23 X 10(7) M-1) in regenerating cells. This reflected on increase of transferrin receptor number and little change occurred in the binding affinity between transferrin and its surface receptor.     

Large increase in disulphide bonds containing cytosol proteins after chronic cadmium administration, estimated in isolated rat liver cells

Summary Using histochemical staining, followed by cytophotometric quantitation of disulphide bonds and total protein in isolated liver cells of rats treated for a long time with low doses of CdCl₂, a large increase in disulphide bonds containing proteins could be demonstrated in cells of one ploidy class. This increase seems to be due to an increase in high molecular weight (HMW) cytosol proteins as estimated biochemically. They probably represent polymers of metallothionein.     

Large increase in disulphide bonds containing cytosol proteins after chronic cadmium administration, estimated in isolated rat liver cells

Using histochemical staining, followed by cytophotometric quantitation of disulphide bonds and total protein in isolated liver cells of rats treated for a long time with low doses of CdCl2, a large increase in disulphide bonds containing proteins could be demonstrated in cells of one ploidy class. This increase seems to be due to an increase in high molecular weight (HMW) cytosol proteins as estimated biochemically. They probably represent polymers of metallothionein.     

Enhanced uridine kinase and RNA synthesis in regenerating rat liver after 5-azacytidine administration

The administration of 5-azacytidine to partially hepatectomized rats results in the increase of uridine kinase activity in cell-free liver extracts 24–72 hr after drug administration. At the same time the activity of uridine phosphorylase and of uridine 5′-nucleotidase is decreased, while uridinemonophosphate kinase and uridine 5′-triphosphatase are not affected. The repeated administration of 5-azacytidine leads to a further enhancement of uridine kinase which is 6- to 8-fold higher in 96-hr regenerating livers than in untreated controls. Simultaneously the enhanced incorporation of uridine into liver ribonucleic acids was observed. The metabolic alterations occurring in the liver at later phases after 5-azacytidine in vivo administration are discussed.