Effect of realimentation after several days' pure carbohydrate intake on DNA synthesis in regenerating rat liver

The authors studied the effect of realimentation after several days' isolated glucose or fructose intake on DNA synthesis in liver regenerating after partial hepatectomy (PH) (65-70%) or after carbon tetrachloride (CCl4) poisoning 1.5 ml/kg. Two days before PH or the administration of CCl4 and two days after, the experimental rats were given glucose (50% solution) of fructose (50% solution) as the only source of energy. Rats with PH were then fed for one day on a standard laboratory diet (25 cal% protein) or a high protein diet (81 cal% protein). Rats with CCl4 liver damage were fed for one day on the standard laboratory diet only. In the rats given glucose, liver DNA synthesis and the total amount of these nucleic acids in the liver 48 hours after CCl4 administration was lower than in the controls or the rats given fructose. In all the experimental groups (PH and CCl4), stimulation of liver DNA synthesis was observed after one day's realimentation. The total DNA content of the liver of rats with PH rose markedly during realimentation. The experiments indicate that the regenerative activity of damaged liver can be influenced by the nutritional regimen.     

Poly(ADP-ribose) polymerase activity in regenerating liver of hypothyroid rats

The role of PARP, a nuclear enzyme involved in DNA synthesis, repair and cell transformation, was studies during liver regeneration in hypothyroid animals. Hypothyroidism was induced by in vivo administration of propylthiouracil. In regenerating euthyroid animals PARP activity is stimulated showing an early and significant increase at 1.5 h with a maximum at 6 h after partial hepatectomy. Such an increase returns to control values within 18 h preceding the onset of DNA synthesis. A markedly different behavior, with respect to euthyroids, has been evidenced in hypothyroid rats. At first, liver PARP level was about 2-fold higher in non regenerating hypothyroid rats with respect to control euthyroids. During regeneration, PTU-treated animals show a net decrease in PARP activity, with a minimum at 6-9 h after partial hepatectomy. The activity returns to control levels within 24 days. The minimum in PARP activity anticipates, also in this case, the onset of DNA synthesis, which exhibits a maximum at 15-18 h. During liver regeneration PARP activity shows modifications related to the beginning of de novo DNA synthesis. Furthermore, these variations in turn undergo the effects of hypothyroidism.     

Effect of retinoic acid on transglutaminase and ornithine decarboxylase activities during liver regeneration

Liver regeneration is regulated by several factors, including growth factors, cytokines, and post-translational modifications of several proteins. It is suggested that transglutaminase 2 (TG2) and ornithine decarboxylase (ODC) are involved in liver regeneration. To investigate the role of TG2 and ODC activities in regenerating liver, we used retinoic acid (RA), an inducer of TG2 and a suppressor of ODC. Regenerating rat liver was prepared by 70% partial hepatectomy (PH). Rats were sacrificed at 1, 2, 3, 4, and 6 days after surgery. RA was intraperitoneally injected immediately after PH. TG2 and ODC activities and products (epsilon-(gamma-glutamyl) lysine isopeptide (Gln-Lys) and polyamines, respectively) were examined at the indicated times. In RA-treated rat, DNA synthesis and ODC activity declined and the peak shifted to 2 days after PH, whereas TG2 activity increased at 1 day after PH. At that time, protein-polyamine, especially the protein-spermidine (SPD) bond, transiently decreased, whereas the formation of the Gln-Lys bond increased after PH. These results suggested that in regenerating liver, enhanced the formation of Gln-Lys bonds catalyzed by TG2 led to reduced DNA synthesis, whereas when ODC produced newly synthesized SPD, the inhibition of Gln-Lys bond production by the preferential formation of protein-SPD bonds led to an increase in DNA synthesis.     

Effect of the parenteral administration of energy substrates in different postoperation phases on the initiation and development of liver regeneration in rats subjected to partial hepatectomy

DNA specific activity in the liver, the total DNA content of the liver and the mitotic index of the hepatocytes were studied after the infusion of glucose or lipid emulsions in female laboratory rats with a mean pre-operation weight of 250 +/- 30 g after partial (65-70%) hepatectomy (PH). The infusions were administered in the early prereplication phase (the 1st to 6th hour after the operation), in the late prereplication phase (the 7th to 12th hour after the operation), or continuously from the 1st to the 12th, or the 1st to the 24th, hour after partial hepatectomy. The effect of these parenterally administered energy substrates on the initiation of liver regeneration was evaluated 18 and 24 hours after partial hepatectomy. The results indicate that the infusion of glucose, in any interval after the operation, inhibited the initial phases of liver DNA synthesis (18 h after PH), but not its further development (24 h after PH). Neither the mitotic index of the hepatocytes, nor the total DNA content of the liver differed from the control groups in the case of rats given a glucose infusion. In the experimental groups given lipid emulsions, inhibition of liver DNA synthesis was recorded 18 h after PH only when the infusions were given from the 1st to the 12th or the 1st to the 18th hour after PH. The total DNA content of the liver 18 h after PH was raised in all the experimental groups.(ABSTRACT TRUNCATED AT 250 WORDS)     

Course of liver regeneration after partial hepatectomy in rats treated with dialysates obtained 17 hours after partial hepatectomy

Various theories have been put forward to explain the regenerative capacity of liver tissue induce by partial hepatectomy (PH). One of them presumes the existence of humoral factors stimulating proliferation of the liver tissue. We evaluated the course of liver regeneration after 65-70% PH as influenced by dialysates (DIA) of the organs of a rat killed 17 h after PH. In addition to kidney DIA, we were particularly interested in the effect of liver and spleen DIA. The experiments were carried out on rats weighting 310-370 g. Kidney, liver or spleen dialysate was administered subcutaneously and the rats were killed 12 or 24 h later by exsanguination from the abdominal aorta. In further rats, PH was performed 24 h after administering DIA and the rat were killed 18, 24, 30, 48 and 72 h after the operation. The initiation of liver regeneration was stimulated by all the given DIA, but especially by liver DIA. The faster onset of liver regeneration 18 h after PH in rats given spleen DIA is interesting. DIA did not greatly affect the hepatocytes of intact liver, but accelerated the initiation of liver regeneration after PH by synchronizing the cell cycle of proliferating hepatocytes. DIA obtained 17 h after PH contained substances which primarily stimulated liver DNA synthesis. From the changes in inhibition of the migration of spleen macrophages in the medium containing liver antigens, and from the circulating immunocomplex values, we conclude that DIA activation of the immune system, a well as the hepatic stimulator substance contained in the DIA, participates in acceleration of the liver regeneration process.     

Course of liver regeneration after partial hepatectomy in rats treated with dialysates of intact organs

A number of growth phenomena observed in vitro have shown that cells, at high densities, produce and release substances which, when they have reached a given concentration, arrest further growth. In vivo, these possibilities can be studied on the model of rapid regeneration of the rat liver after 65-70% partial hepatectomy (PH). We evaluated the course of liver regeneration after PH in animals treated with dialysates (DIA) of intact rat tissues. In addition to kidney and lymph node DIA, we were particularly interested in the effect of liver and spleen DIA. The experiments were carried out on male rats weighing 210-240 g. The relevant DIA was administered 24 h prior to PH; the controls were given physiological saline. The animals were killed just before PH and 24, 48, 30 and 72 h and 14 days after. DIA obtained from intact liver tissue inhibited the regeneration process induced by PH and its effect persisted 48 h after PH. Compared with the controls and with the rats given kidney DIA, DNA synthesis in the liver 24 h after PH was reduced to 77%. After spleen DIA, several (still hypothetical) factors probably acted together synergically (factors belonging to the immune system--RES--and spleen-produced factors capable of promoting proliferation of the hepatocytes--the "portal blood factor"). We arrived at this conclusion from an evaluation of liver DNA synthesis 24 h after 24h after PH, when synthesis was altogether markedly raised, but attained far higher values after the administration of spleen DIA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Retinoic acid repressed the expression of c-fos and c-jun and induced apoptosis in regenerating rat liver after partial hepatectomy.

Retinoic acid (RA), which was injected within 4 h after partial hepatectomy (PH), inhibited DNA synthesis in regenerating liver. The inhibition was accompanied by apoptosis, evidenced by in situ end labeling and gel electrophoresis of DNA fragmentation. Characteristic DNA fragmentation was obvious at 4 h and reached a maximum at 8 h after injection. Northern blot analysis revealed that RA repressed the expression of c-fos and c-jun at 15 and 30 min with the up-regulation of retinoic acid receptor gamma (RARgamma) and RARbeta at 2 h after PH. The transglutaminase II mRNA level and activity were increased by RA injection at 4 h and 8 h after PH, respectively. The mRNA levels of thymidylate synthase and thymidine kinase, which are rate determining enzymes of DNA synthesis, decreased in RA injected rats. No change was seen in the expression of p53 and p21WAF1/CIP1 which have been suggested to participate in the apoptosis process. These results suggest that RA exerts the antiproliferative activity only on the early stage of liver regeneration accompanied by the repression of c-fos and c-jun expression and induction of apoptosis.     

Suppressive role of endogenous regucalcin in the enhancement of deoxyribonucleic acid synthesis activity in the nucleus of regenerating rat liver

The role of endogenous regucalcin in the regulation of deoxyribonucleic acid (DNA) synthesis activity in the nuclei of regenerating rat liver after partial hepatectomy was investigated. The addition of regucalcin (0.25 and 0.5 microM) in the reaction mixture caused a significant decrease in the nuclear DNA synthesis activity of normal rat liver. This decrease was also seen in the presence of Ca2+-chelator EGTA (0.4 mM), indicating that the effect of regucalcin is not related to nuclear Ca2+. Nuclear DNA activity was significantly increased in the presence of anti-regucalcin monoclonal antibody (10-50 ng/ml) in the reaction mixture. The effect was completely abolished by the addition of regucalcin (0.5 microM). Nuclear DNA synthesis activity was significantly increased at 24, 48, and 72 h after partial heptectomy. The effect of anti-regucalcin monoclonal antibody (25 ng/ml) in increasing nuclear DNA synthesis activity was significantly enhanced at 24 and 48 h after partial hepatectomy. The presence of staurospone (10(-6) M), trifluoperazine (2 x 10(-5) M), or PD98059 (10(-5) M) in the reaction mixture caused a significant decrease in DNA synthesis activity in the nuclei obtained at 24 after partial hepateactomy. The effect of these inhibitors in the presence of anti-regucalcin monoclonal antibody (25 ng/ml) was greater than that in the absence of the antibody. The present study suggests that endogenous regucalcin plays a suppressive role in the enhancement of nuclear DNA synthesis activity in regenerating liver with cell proliferation after partial hepatectomy in rats.     

Kinetics of DNA synthesis in feeding-dependent and independent hepatocyte populations of rats after partial hepatectomy

The effects of food consumption on the kinetics of hepatic DNA synthesis after partial hepatectomy (PH) have been studied in rats. Short-term (4-24 hr) fasting before or after PH resulted in depression and/or delay of DNA synthesis on days 1, 2 and 3 of regeneration. This depression was found in hepatocytes and, to a lesser extent, in littoral cells. Re-feeding resulted in an increase of DNA synthesis within 3-8 hr. The results suggest that two different hepatocyte subpopulations exist in regenerating rat liver: one which proceeds to DNA synthesis without apparent exogenous signals, and another one which needs, in addition to the specific mitogenic action of PH, food intake as a secondary permissive signal in order to initiate DNA synthesis. In the latter population food consumption appears to be required at two different stages: (1) in G0 or the early pre-replicative phase (PRP); (2) in the late PRP 3-8 hr before initiation of DNA synthesis. In the latter stage dietary protein is needed, but no so in the former. The dependence on feeding in the late PRP increases relatively with time after PH. No evidence was found to suggest a different distribution of the two cell populations throughout the liver acinus. The findings support the hypothesis that the known effects of the light-dark rhythm on the timing of DNA synthesis after PH are mediated by the natural feeding rhythm of rats fed ad libitum. In addition they offer a means for improving the synchrony of hepatocyte proliferation in regenerating rat liver.     

Effect of human fetal liver cells on the rate of DNA and nRNA synthesis in regenerating rat liver

The model of partial hepatectomy was utilized to investigate the influence of human fetal liver cells (FLCs) and of human embryo tissue (PCF) postnuclear cytoplasm fraction injection on the rate of DNA and nRNA synthesis in regenerating rat liver cells. Single infusion of FLCs and PCF into the spleen pulp of rats has been shown to increase the DNA synthesis 24 hours after the operation in 2.5 +/- 0.4 and 3.2 +/- 0.5 times respectively. A group of rats has been identified with no influence of the infusion on the DNA synthesis 24 hours after partial hepatectomy, this process having been even retarding in 48 hours after the operation. Meanwhile the FLCs and PCF infusion enhanced the intensity of nRNA synthesis in 72 hours after the operation in all the animal groups. The effect demonstrated is probably caused by the biologically active substances contained in the fetal tissues.     

Comparative sensitivity of the nuclear and mitochondrial DNA syntheses to X-irradiation and to the administration of a sulfhydryl radioprotector (AET) in normal and regenerating rat liver

Summary Incorporation of thymidine into nuclear and mitochondrial DNA has been measured in the livers of normal rats and of rats killed 17 h or 24 h after partial hepatectomy. When total-body X-irradiation (500 or 1,500 R) is given at increasing intervals (up to 30 h) before sacrifice, a progressive decrease followed by a plateau of low level of incorporation is observed in the nuclear DNA (N-DNA) whereas the synthesis of mitochondrial DNA (M-DNA) first decreases until a minimal value is reached after 4 h in normal liver and 12 h in regenerating liver, then recovers at an exponential rate, quite independently of the nuclear DNA synthesis.The results suggest that irradiation can interfere with the enzymatic processes of both M-DNA and N-DNA syntheses, but that the persistence of the inhibition of N-DNA synthesis must be ascribed to a temporary block in the cell cycle.The SH-protector AET injected to non-irradiated rats exerts a very small inhibitory effect on normal liver N-DNA and M-DNA synthesis. In regenerating liver, both syntheses are affected rather similarly suggesting a common mechanism of inhibition through impairment of some step in the synthetic process.     

Specific inhibition of the synthesis of putrescine and spermidine by 1,3-diaminopropane in rat liver in vivo.

Chronic administration of 1,3-diaminopropane, a compound inhibiting mammalian ornithine decarboxylase (EC 4.1.1.17) in vivo, effectively prevented the large increases in the concentration of putrescine that normally occur during rat liver regeneration. Furthermore, repeated injections of diaminopropane depressed by more than 85% ornithine decarboxylase activity in rat kidney. Administration of diaminopropane 60 min before partial hepatectomy only marginally inhibited ornithine decarboxylase activity at 4 h after the operation. However, when the compound was given at the time of the operation (4 h before death), or any time thereafter, it virtually abolished the enhancement in ornithine decarboxylase activity in regenerating rat liver remnant. An injection of diaminopropane given 30 to 60 min after operation, but not earlier or later, depressed S-adenosyl-L-methionine decarboxylase activity (EC 4.1.1.50) 4 h after partial hepatectomy. Diaminopropane likewise inhibited ornithine decarboxylase activity during later periods of liver regeneration. In contrast to early regeneration, a total inhibition of the enzyme activity was only achieved when the injection was given not earlier than 2 to 3 h before the death of the animals. Diaminopropane also exerted an acute inhibitory effect on adenosylmethionine decarboxylase activity in 28-h regenerating liver whereas it invariably enhanced the activity of tyrosine aminotransferase (EC 2.6.1.5), used as a standard enzyme of short half-life. Treatment of the rats with diaminopropane entirely abolished the stimulation of spermidien synthesis in vivo from [14C]methionine 4 h after partial hepatectomy or after administration of porcine growth hormone. Both partial hepatectomy and the treatment with growth hormone produced a clear stimulation of hepatic RNA synthesis, the extent of which was not altered by injections of diaminopropane in doses sufficient to prevent any enhancement of ornithine decarboxylase activity and spermidine synthesis.     

Inhibition of ornithine decarboxylase activity and spermidine accumulation in regenerating rat liver.

Injections of 1,3-diaminopropane, a close structural analogue of putrescine (1,4-diaminobutane), into partially hepatectomized rats powerfully inhibited ornithine decarboxylase (EC 4.1.1.17) activity in the regenerating liver in vivo. The compound did not have any effect on the enzyme activity in vitro (under assay conditions employed) but appeared to exert an inhibitory influence on the synthesis of ornithine decarboxylase itself.Repeated injections of diaminopropane into rats after partial hepatectomy, starting at the time of the operation and continued until 33 h postoperatively, markedly diminished the stimulation of ornithine decarboxylase activity in the regenerating liver remnant, and completely prevented the increases in hepatic spermidine concentration normally occurring in response to partial hepatectomy.Treatment of the rats with diaminopropane did not depress the activity of adenosylmethionine decarboxylase (EC 4.1.1.50) in the regenerating liver. Nor did the compound have any effect, whatsoever, on the activity of spermidine synthase (EC 2.5.1.16) in vitro, thus obiviously proving that the increased accumulation of liver spermidine after partial hepatectomy primarily depends upon a stimulation of ornithine decarboxylase activity and a concomitant accumulation of putrescine. The results also showed that 1,3-diamino-propane could not replace putrescine in the synthesis of higher polyamines in rat liver. The inhibition of ornithine decarboxylase by diaminopropane thus appears to represent “gratuitous” repression of polyamine biosynthesis and might conceivably be used for studies devoted to the elucidation of the physiological functions of natural polyamines.     

Effect of realimentation and triiodothyronine on DNA synthesis in intact and partially resected rat liver

Whereas DNA synthesis in the liver of rats with permanent access to food fell markedly between the 72nd and 96th hour after partial hepatectomy, the decrease in the same post-operative interval in rats realimented after 3 days' starvation was less pronounced. The difference between the values in the control and the experimental group 96 hours after partial hepatectomy was statistically significant for p less than 0.01). In rats given glucose after the operation, 24 hours' realimentation caused a nonsignificant increase in DNA synthesis. The difference between the values 96 h after partial hepatectomy in this group and in the group fed the whole time on the standard diet was statistically significant for p less than 0.001. The administration of triiodothyronine (200 microgram/kg i.g.) to the above groups of rats at the outset of realimentation did not affect the development of changes in liver DNA synthesis. It likewise had no effect on the outcome of the realimentation of rats with an intact, unresected liver fed 3 days on plain glucose. In the intact control rats fed the whole time on the standard laboratory diet, triiodothyronine produced a distinct increase in liver DNA synthesis (p less than 0.01).     

Poly(ADP-ribose) polymerase is affected early by thyroid state during liver regeneration in rats

Poly(ADP-ribose) polymerase (PARP), a nuclear enzyme involved in DNA synthesis, DNA repair, and cell replication and transformation, also plays a role in the early steps of liver regeneration induced by partial hepatectomy (PH). PARP and DNA topoisomerase I (Topo I) activities and de novo DNA synthesis were studied during liver regeneration in rats with altered thyroid state. Hepatic PARP activity, evaluated as [(32)P]NAD incorporated into isolated liver nuclei, was inhibited in hyperthyroid rats and increased in hypothyroid animals. In both euthyroid and hyperthyroid rats PARP activity was rapidly stimulated, peaking 6 h after PH. In hypothyroid animals, an early decrease in activity was found, at a minimum of 6 h after PH, followed by an early onset of DNA synthesis. An inverse relationship between PARP and Topo I activities was a shared feature among euthyroid, hypothyroid, and hyperthyroid rats. Together these data show that, in replicating hepatocytes, thyroid hormones exert a regulatory role on PARP activity, which reflects the control of a number of nuclear proteins involved in DNA metabolism.     

The control of nucleic acid and nicotinamide nucleotide synthesis in regenerating rat liver

1. The effect of injecting nicotinamide on the incorporation of [(14)C]orotate into the hepatic nucleic acids of rats after partial hepatectomy was investigated. 2. At 3h after partial hepatectomy the rapid incorporation of [(14)C]orotate into RNA, and at 20h after partial hepatectomy the incorporation of [(14)C]orotate into both RNA and DNA, were inhibited in a dose-dependent fashion by the previous injection of nicotinamide. 3. The injection of nicotinamide at various times before the injection of [(14)C]orotate at 20h after partial hepatectomy revealed an inhibition of the incorporation of orotate into RNA and DNA which was non-linear with respect to the duration of nicotinamide pretreatment. 4. The induction of a hepatic ATP depletion by ethionine demonstrated that the synthesis of hepatic NAD and NADP in partially hepatectomized rats was more susceptible to an ATP deficiency than in control rats. 5. The total hepatic activity of ribose phosphate pyrophosphokinase (EC 2.7.6.1) was assayed at various times after partial hepatectomy and found to be only marginally greater than the maximum rate of hepatic NAD synthesis induced in vivo by nicotinamide injection between 12 and 24h after partial hepatectomy. 6. It is suggested that a competition exists between NAD synthesis and purine and pyrimidine nucleotide synthesis for available ATP and particularly 5-phosphoribosyl 1-pyrophosphate. In regenerating liver the competition is normally in favour of the synthesis of nucleic acid precursors, at the expense of NAD synthesis. This situation may be reversed by the injection of nicotinamide with a subsequent inhibition of nucleic acid synthesis.     

Modulation of rat liver mitochondrial antioxidant defence system by thyroid hormone

In the present study the effect of thyroid hormone (T(3)) on oxidative stress parameters of mitochondria of rat liver is reported. Hypothyroidism is induced in male adult rats by giving 0.05% propylthiouracil (PTU) in drinking water for 30 days and in order to know the effect of thyroid hormone, PTU-treated rats were injected with 20 microg T(3)/100 g body weight/day for 3 days. The results of the present study indicate that administration of T(3) to hypothyroid (PTU-treated) rats resulted in significant augmentation of oxidative stress parameters such as thiobarbituric acid reactive substances and protein carbonyl content of mitochondria in comparison to its control and euthyroid rats. The hydrogen peroxide content of the mitochondria of liver increased in hypothyroid rats and was brought to a normal level by T(3) treatment. Induction of hypothyroidism by PTU treatment to rats also resulted in the augmentation of total and CN-sensitive superoxide dismutase (SOD) activities of the mitochondria, which was reduced when hypothyroid rats were challenged with T(3). Although CN-resistant SOD activity of the mitochondria remained unaltered in response to hypothyroidism induced by PTU treatment, its activity decreased when hypothyroid rats were injected with T(3). The catalase activity of the mitochondria decreased significantly by PTU treatment and was restored to normal when PTU-treated rats were given T(3). Total, Se-independent and Se-dependent glutathione peroxidase activities of the mitochondria were increased following PTU treatment and reduced when T(3) was administered to PTU-treated rats. The reduced and oxidised glutathione contents of the mitochondria of liver increased significantly in hypothyroid rats and their level was restored to normal when hypothyroid rats were injected with T(3). The results of the present study suggest that the mitochondrial antioxidant defence system is considerably influenced by the thyroid states of the body.     

皮质酮对大鼠再生肝细胞鸟氨酸脱羧酶活性及其基因表达的影响

采用高效液相色谱和原位杂交技术研究了皮质酮对大鼠再生肝细胞鸟氨酸脱羧酶 (ODC)活性及ODCmRNA表达的影响。结果显示 ,大鼠完整肝脏中ODC水平较低 ,2 / 3肝切除 (PH)后 3h ,不同处理组ODC活性开始升高 ,6h达到最高值 ,其中 ,去肾上腺 NaCl组和糖皮质激素受体拮抗剂RU4 86处理组的酶活性高于对照组 (去肾上腺假手术组 ) ,而去肾上腺 皮质酮处理组的酶活性低于对照组 ,36h恢复到肝切除前水平 ;完整肝脏的ODCmRNA水平极低 ,PH后表达量迅速增加 ,5h达到最大值 ,不同处理组mRNA水平的高低顺序与酶活性一致 ,12h降至肝切除前水平 ;在PH前 12h给大鼠注射RU4 86 (10mg/kg体重 ) ,取得了与去肾上腺 NaCl处理鼠相似的结果。以上结果表明 ,在PH诱导的再生肝细胞中 ,ODCmRNA表达量的增加和 /或减少是造成ODC活性改变的原因之一 ,皮质酮对ODC活性及其mRNA的表达具有抑制作用 ,主要表现在肝再生的早期 ,该作用可能是通过受体实现的     

Inhibition of polyamine accumulation and deoxyribonucleic acid synthesis in regenerating rat liver.

Repeated injections of 1,3-diaminopropane into rats after partial hepatectomy caused a repression-type inhibiton of liver ornithine decarboxylase (EC 4.1.1.17) and totally prevented the marked increases in liver putrescine and spermidine concentrations that normally occur in response to partial hepatectomy. The inhibition of polyamine synthesis by diaminopropane was accompanied by a profound decrease (about 80%) in the synthesis of DNA in the regenerating rat liver without any changes in the synthesis of RNA and total liver protein.     

Stimulating effect of histones on DNA synthesis in the regenerating rat liver]

Effect of exogenous histones, nuclear globulins and acid proteins on DNA synthesis is studied in regenerating liver of rats in which the synthesis of their own proteins and thus DNA replication are inhibited by cycloheximide. In these conditions histones from regenerating rat liver are found to stimulate 3H-thymidine incorporation into DNA of hepatectomyzed rat liver. Nuclear globulins and acid proteins from regenerating liver, and histones from intact liver produced no stimulating effect on DNA sythesis.