The Hepatoprotective Effect of Hepatic Stimulator Substance (HSS) Against Liver Regeneration Arrest Induced by Acute Ethanol Intoxication

Male Wistar rats were randomized to receive ethanol (2.5 ml/kg by gastric intubation every 8 hr; group I), equal volumes of isocaloric to ethanol sucrose solution (group II), or ethanol and HSS (100 mg/kg intraperitoneally 10 and 16 hr after partial hepatectomy; groups III and IV, respectively) for up to 96 hr after partial hepatectomy, with ethanol administration starting 1 hr prior to partial hepatectomy. Animals were killed at 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 60, and 96 hr after partial hepatectomy. The rate of liver regeneration was evaluated by the mitotic index in H&E-stained sections, immunochemical detection of Ki67 nuclear antigen, rate of [³H]thymidine incorporation into hepatic DNA, and liver thymidine kinase enzymatic activity. The biological activity of HSS in groups I and II rats was evaluated using a bioassay. Ethanol administration arrested liver regeneration during the first 32 hr after partial hepatectomy and suppressed HSS activity throughout the period examined. Liver regeneration progressed after 32 hr despite the low levels of HSS activity. HSS administration at 10 and 16 hr reversed liver regeneration arrest induced by ethanol. Acute ethanol administration induces cell cycle arrest during the first 32 hr after partial hepatectomy and suppression of HSS biological activity seems to contribute to this effect. HSS administration reversed the inhibitory effect of ethanol on liver regeneration and caused synchronized entrance of hepatocytes in the S phase of the cell cycle. HSS seems to participate in the network of growth factors controlling the G1/S cell cycle checkpoint.     

Hepatic stimulator substance administration enhances regenerative capacity of hepatocytes in cadmium-pretreated partially hepatectomized rats

The liver is of central importance in the metabolism of essential and toxic metals such as cadmium (Cd). Cd pretreatment suppressed the regenerative capacity of hepatocytes, which normally occurs 24 hr after partial hepatectomy, due to the inhibition of the activity of the enzyme thymidine kinase. The effect of hepatic stimulator substance (HSS) administration (10, 20, and 40 mg protein/kg body weight) on hepatocyte proliferation was investigated in Cd-pretreated partially hepatectomized rats. HSS administration partly restored the suppressed hepatocyte DNA biosynthesis in Cd-pretreated partially hepatectomized rats. The hepatocyte mitotic activity and the percentage of proliferating cell nuclear antigen-positive nuclei were in accordance with the liver proliferative status. The administration of HSS did not affect in a statistically significant manner the activity of the enzyme thymidine kinase in Cd-pretreated partially hepatectomized rats. It is suggested that the administration of HSS ameliorates the diminished hepatocyte regenerative response to partial hepatectomy in this model of acute liver injury, due to Cd intoxication.     

Effect of serotonin receptor 2 blockage on liver regeneration after partial hepatectomy in the rat liver.

The effect of serotonin receptor 2 blockade (5-HT(2)) on liver regeneration after 30-34% and 60-70% partial hepatectomy in the rat liver was investigated. Materials and methods: Male Wistar rats were subjected to 60-70% (group I) and 30-34% (group II) partial hepatectomy. Serotonin receptor 2 blockade was exerted by intraperitoneal administration of ketanserin at different doses and time points after partial hepatectomy. The rats of all groups were killed at different time points until 96 h after partial hepatectomy. The rate of liver regeneration was evaluated by the mitotic index in hematoxylin and eosin sections, the immunochemical detection of Ki67 and proliferating cell nuclear antigens, the rate of [(3)H]-thymidine incorporation into hepatic DNA and liver thymidine kinase enzymatic activity. Results: Liver regeneration peaked at 24 and 32 h after partial hepatectomy in 60-70% hepatectomized rats. In 30-34% hepatectomized rats liver regeneration peaked at 60 h, whereas low rates of regenerative activity were observed between 24 and 72 h after partial hepatectomy. Ketanserin administration arrested liver regeneration only when administered at 16 h after 60-70% partial hepatectomy. Ketanserin also abrogated the observed peak of regenerative activity at 60 h in 30-34% hepatectomized rats when administered at 52 h after partial hepatectomy. All indices of liver regeneration were affected by ketanserin administration. Conclusions: Serotonin receptor 2 blockade can arrest liver regeneration only when administered close to G1/S transition point, and that while serotonin may be a cofactor for DNA synthesis, it does not play a role in initiation of liver regeneration.     

Reversal of ethanol and indomethacin-induced suppression of hepatic DNA synthesis by 16,16-dimethyl prostaglandin E2

Investigations were undertaken to determine effectiveness of 16,16-dimethyl prostaglandin E2 (dmPGE2) in overcoming the suppressive effects of ethanol and/or indomethacin on hepatic DNA synthesis. Adult litter mate Sprague-Dawley rats were subjected to sham operation or partial hepatectomy. Immediately after partial hepatectomy, and at 8-hr intervals for 24 hr, the rats were given: (a) ethanol with and without dmPGE2 or (b) indomethacin with and without ethanol and/or dmPGE2. DmPGE2 produced a significant increase in DNA synthesis in sham-operated (p less than 0.001) and untreated partially hepatectomized animals (p less than 0.025). Ethanol and indomethacin caused a 6- and 18-fold reduction, respectively, in hepatic DNA synthesis following partial hepatectomy. DmPGE2 overcame the inhibitory effect of ethanol (p less than 0.005) and indomethacin (p less than 0.0005) in partially hepatectomized animals. Mitoses were decreased concomitantly with ethanol and/or indomethacin-induced reduction in DNA synthesis and increased with administration of dmPGE2. It is concluded that dmPGE2 increases hepatic DNA synthesis and regeneration in normal rat liver and overcomes their inhibition when ethanol and/or indomethacin is given after partial hepatectomy. Timing of dmPGE2 administration is crucial. When given 30 min before ethanol, it completely inhibits suppression of regenerative activity; omission of this "priming" dmPGE2 dose results in only 44% of DNA synthesis obtained in control animals.     

Hepatic stimulator substance activity in the liver of thioacetamide-intoxicated rats

AIMS/BACKGROUND: Hepatic stimulator substance (HSS) is a known hepatic growth factor which appears to be organ-specific but species non-specific. We have recently shown that the administration of HSS enhanced hepatocyte proliferation occurring due to thioacetamide (TAA)-induced liver injury in rats (Theocharis SE, et al., Scand J Gastroenterol 1998; 33: 656-63). In the present study, we examined the activity of the endogenously produced HSS in the liver of TAA administered rats during injury and regeneration. METHODS: TAA at a dose of 300 mg/kg of body weight was injected intraperitoneally in male Wistar rats. The animals were sacrificed at 0, 12, 24, 36, 48, 60 and 72 h after TAA administration. The rate of tritiated thymidine incorporation into hepatic DNA, the enzymatic activity of liver thymidine kinase and the assessment of mitotic index in hepatocytes were used to estimate liver regeneration. HSS extract was obtained from the livers of TAA-treated rats, sacrificed at the above mentioned time points. This HSS extract was injected in 34% partially hepatectomized rats, to assess its activity. The ability of the injected HSS extract to increase hepatocellular proliferation over that normally occurring 24 h following 34% partial hepatectomy was used to express the activity of HSS by determining the above mentioned indices of liver regeneration. RESULTS: The administration of TAA caused severe hepatic injury recognized histopathologically as well as by the increased activities of serum hepatic enzymes aspartate and alanine aminotrasferases. The hepatic injury, which peaked at 24 and 36 h post-TAA treatment (p<0.001), was followed by hepatocyte proliferation, presenting peaks at 48 and 60 h (p<0.001). The activity of the endogenously produced HSS from livers of TAA-treated rats increased at 36 h after TAA administration as well as being highly expressed at 48 and 60 h thus coinciding with the peak of hepatocyte proliferation. At other time points, HSS activity was decreased. CONCLUSIONS: The observed variations of HSS activity in rat liver suggest active participation of this growth factor in hepatocyte replication which follows toxin-induced liver injury as a repair mechanism process.     

Levels of Hepatic Stimulator Substance in Liver Regenerating Process of Partially Hepatectomized Rats Pretreated with a Single Dose of Carbon Tetrachloride

Liver regeneration after injury with carbontetrachloride (CCl₄) followed by partialhepatectomy is a complex model involving toxicological,inflammatory, and necrotic processes. In the presentstudy, the time-course of hepatic regenerative process wasinvestigated in relation to hepatic stimulator substance(HSS) activity, administration of a single dose ofCCl₄ and partial (70%) hepatectomy in malerats. To evaluate liver injury events, the levels ofserum aspartic aminotransferase (AST), alanineaminotransferase (ALT), and alkaline phosphatase (ALP)were measured. Hepatic DNA synthesis reached a maximum at 36 hr after hepatectomy in contrast to thereported 24-hr and 32-hr peaks observed in nontreatedhepatectomized rats. On the other hand, HSS activityappeared to peak at 28, 40, and 44 hr after hepatectomy in CCl₄-treated rats, and it wasquite a lot lower at 24, 32, 36, 48, and 60 hr. Thehypothesis that HSS promotes liver regeneration but itdoes not initiate it, as other factors have been foundto do, is discussed.     

Effect of liver regeneration on hepatic cytochrome P450 isozymes and serum sex steroids in the male rat

Partial hepatectomy in male adult rats results in raised serum estrogen levels and demasculinization of certain aspects of hepatic metabolism. Some constitutive forms of hepatic cytochrome P450 are sex-dependent and we have previously demonstrated demasculinization of cytochrome P450 isozyme distribution in a rat model of cirrhosis. As liver regeneration is an integral component of cirrhosis, the present study was performed to ascertain the effects of regeneration on hepatic cytochrome P450 isozyme composition and serum sex steroid concentrations. Adult male rats were subjected to 65% partial hepatectomy or sham-operation. The position-specific hydroxylation of androstenedione was used as a probe for isozyme activity. Serum sex steroids, hepatic enzymes, and hepatic deoxyribonucleic acid synthesis were measured in groups of animals at 0, 6, 24, 48, and 72 h. By 72 h total microsomal cytochrome P450 in partially hepatectomized animals had fallen to 66% of that in nonoperated animals. In both partially hepatectomized and sham-operated animals, androstenedione 7 alpha- and 16 beta-hydroxylase activity returned to preoperative levels by 48 h. However, the male-specific androstenedione 16 alpha- and 6 beta-hydroxylase activities and aromatase activity remained suppressed in partially hepatectomized liver. Serum estradiol increased eightfold in partially hepatectomized rats and peaked at 6 h followed by a gradual fall to control values. No change in serum estradiol was observed in sham-operated animals. We conclude that demasculinization of hepatic oxidative metabolism occurs in regenerating rat liver. The early rise in serum estradiol is consistent with a role for this hormone in the changes in cytochrome P450 observed, and possibly the process of liver regeneration.     

Rat peripheral mononuclear cell thymidine kinase activity increases during liver regenerative processes after partial hepatectomy

Deoxythymidine kinase (TK; EC 2.7.1.21) activity in the liver has been used as a marker of liver regeneration after partial hepatectomy. In this study we examined TK activity of various organs, plasma and peripheral blood mononuclear cells (PMNC) in 70% partially hepatectomized rats. TK activity of lymph nodes, small intestine, heart, lung, kidney and thymus did not increase significantly during the course of the study, except for spleen at 72 h. On the other hand, PMNC-TK and liver cystolic TK activity increased in a parallel fashion at all times after partial hepatectomy; they began to increase 12 h after surgery and peaked 48 h post-surgery. Fractionation of PMNC into T cells and B cells revealed that both populations increased and peaked 48 h post-surgery. Plasma TK peaked 12–24 h after surgery, then declined at 36, 48 and 72 h after partial hepatectomy. This change paralleled plasma levels of aspartate aminotransferase (AST) and alanine aminotransferase (ALT). PMNC-TK activity correlated significantly with liver cystolic TK activity 24 h (r = 0.743; P < 0.05) and 48 h (r = 0.708; P < 0.05) after partial hepatectomy. However, it did not correlate with plasma levels of TK, AST and ALT. The results indicate that in the early stage of liver regeneration PMNC-TK may provide a marker of liver regenerative processes.     

Opposite responses of nuclear spermidine N8-acetyltransferase and histone acetyltransferase activities to regenerative stimuli in rat liver.

Experiments performed in different models of hepatic regeneration at the time of maximal DNA synthesis, determined by thymidine kinase activity assay, demonstrated that spermidine N8-acetyltransferase activity increased 48 hr after CCl4 administration (2-fold), 72 hr after CCl4 plus phenobarbital (3-fold) and 24 hr after partial hepatectomy (4.5-fold). On the contrary, at these times histone acetyltransferase activity diminished (approximately twofold) and was unchanged compared with control values in the liver of hepatotoxin-treated and hepatectomized rats, respectively. Histone acetylation was, however, enhanced 1.5-fold before the onset of DNA replication (14 hr), and 3.4-fold after the peak of DNA synthesis (32 hr) in the liver of hepatectomized rats. alpha-Difluoromethylornithine, a specific and irreversible inhibitor of ornithine decarboxylase that was administered to hepatectomized rats, blocked polyamine synthesis, thymidine kinase activity and consequently liver regeneration 24 hr after the surgery. In those conditions, spermidine N8-acetyltransferase activity was decreased approximately twofold, whereas histone acetyltransferase activity was elevated approximately twofold. All these effects were reversed by putrescine coadministration. Altogether, these findings showed that nuclear spermidine N8-acetyltransferase and histone acetyltransferase activities were regulated in opposite ways during the processes associated with liver regeneration. Moreover, they suggested that the polyamines themselves might have a direct or indirect role in this regulation.     

Hepatic regenerative stimulator substance in the rabbit. Relation to liver regeneration after partial hepatectomy

The occurrence and activity of hepatic regenerative stimulator substance was investigated in the partially hepatectomized rabbit and related to biochemical and morphological parameters of liver regeneration. Male rabbits were 60% hepatectomized by excising the Spigelian, left lateral and left central lobes of the liver leaving the gallbladder in situ. [3H]Thymidine incorporation into DNA, the fraction of labelled hepatocyte nuclei, the fraction of mitoses and thymidine kinase activity rose from basal levels at 30-40 h after hepatectomy and increased up to 12-fold at 40-60 h. After 7 days, proliferation parameters returned to near prae-hepatectomy values and 82% of the initial liver mass was restored. Hepatic regenerative stimulator substance was biologically active when prepared from rabbit livers between 18-30 h after partial hepatectomy. At 12 and 30 h after intraperitoneal injection of the extract into normal rats, hepatic DNA synthesis was stimulated up to 2-fold in a dose-dependent fashion. The biological activity was protease-sensitive and thus depended on a protein component of the extract. The data demonstrate the existence of hepatic regenerative stimulator substance in regenerating rabbit liver and suggest that it is implicated in the regulation of liver growth after partial hepatectomy.     

Liver regeneration and the effect of exogenous putrescine on regenerative activity after partial hepatectomy in cirrhotic rats.

There are conflicting data regarding the ability of the liver to regenerate after partial hepatectomy in animals and humans with cirrhosis. The purpose of this study was to document liver regeneration after partial hepatectomy in a carbon tetrachloride rat model of cirrhosis and to determine whether exogenous putrescine, a polyamine that has been reported to stimulate liver regeneration in animal models of acute liver failure, enhances regenerative activity in cirrhosis. Liver fibrosis and cirrhosis were produced by weekly intragastric gavage with carbon tetrachloride in 130 adult male rats. Vehicle-gavaged rats (n = 12) served as healthy controls. At surgery and at 4 and 8 hr after 70% hepatectomy, rats received normal saline solution or 1 or 10 mg/kg putrescine by intraperitoneal injection. Another group (n = 32) of carbon tetrachloride-treated rats was given putrescine (100 mg/kg) or normal saline solution twice daily for 10 days before partial hepatectomy and at 0, 4 and 8 hr after partial hepatectomy. Liver regeneration was documented 24 and 48 hr after partial hepatectomy on the basis of restitution of liver mass, ornithine decarboxylase activity and [3H]thymidine incorporation into liver DNA. Automated image analysis of the resected liver specimens separated carbon tetrachloride-treated rats into two subgroups: those with bridging fibrosis (fibrotic group) and those with micronodular cirrhosis (cirrhotic group). Restitution of liver mass and ornithine decarboxylase activity at 24 and 48 hr after partial hepatectomy were similar to carbon tetrachloride-treated rats (both fibrotic and cirrhotic) and vehicle-treated healthy controls.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of tamoxifen on hepatic regeneration in male rats

A number of metabolic changes within the liver occur concurrent with hepatic regeneration. These processes suggest that the administration of an antiestrogen might alter the rate of hepatic regeneration. To examine this question, male Wistar rats were treated with tamoxifen (0.1 mg/rat/day or 1.0 mg/rat/day) or vehicle for three days prior to and after partial hepatectomy, and the anatomic and biochemical process of hepatic regeneration was assessed. Tamoxifen administration caused a dose-dependent decrease in the hepatic cytosolic estrogen receptor activity and, conversely, a dose-dependent increase in cytosolic androgen receptor activity. Despite these changes in baseline hepatic sex steroid receptor status, all receptor activities were comparable between the three groups within 24 hr of partial hepatectomy. Moreover, no differences in any of the the parameters assessing hepatic regeneration following partial hepatectomy were evident: liver-body ratio, ornithine decarboxylase activity, and thymidine kinase activity. This lack of effect of tamoxifen treatment on hepatic regeneration suggests either that estrogens do not play a role in the modulation of liver growth after partial hepatectomy or that, once initiated, the regenerative process per sedetermines a series of events that regulate hepatocellular sex hormone receptor status independent of extrahepatic stimuli.This work was supported in part by the Veteran's Administration and grants from NIAAA AA06601, NIAAA AA04425, and NIDDK AM 32556.     

Effects of heparin on hepatic regeneration and function after partial hepatectomy in rats

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Effect of Granulocyte Colony-Stimulating-Factor Administration on Tissue Regeneration Due to Thioacetamide-Induced Liver Injury in Rats

It has been shown recently that granulocytecolony-stimulating factor (G-CSF) accelerates andenhances the hepatocyte proliferative capacity ofpartially hepatectomized rats. In the present study, weinvestigated the effect of G-CSF administration in a ratmodel of liver injury and regeneration, induced bythioacetamide (TAA) injection. TAA (300 mg/kg bodyweight) was injected intraperitoneally in male Wistarrats, and this was followed by administration ofeither saline (group A) or G-CSF at a dose of 150g/kg body weight (group B), 24 hr later. The animalswere killed at different time points after TAA treatment and the rate of tritiated thymidineincorporation into hepatic DNA, the activity of theenzyme thymidine kinase (EC 2.7.1.21) in the liver, andthe assessment of the mitotic index of hepatocytes, wereemployed to estimate liver regeneration. Theadministration of TAA caused severe hepatic injury,recognized histopathologically and by the raisedactivities of the serum hepatic enzymes aspartate andalanine aminotransferases. The hepatic injury, which peaked 36 hr afterTAA injection, was followed by a regenerative process ofhepatocytes presenting peaks at time points of 48 and 60hr (group A). The administration of G-CSF 24 hr after the injection of TAA (group B) causeda statistically significantly increase in the hepatocyteproliferation indices examined (P < 0.001), comparedto those found in group A at the same time points. It was concluded that G-CSFadministration enhanced the hepatocyte proliferativecapacity in this model of liver injury induced by TAAadministration.     

Liver regeneration after partial hepatectomy in rats with defective bilirubin conjugation or biliary excretion

The role of conjugated bilirubin in liver regeneration after partial hepatectomy (PH) was studied in Gunn rats, in transport-mutant (TR^–) rats, and in rats with extrahepatic biliary obstruction. Ornithine decarboxylase (ODC) and thymidine kinase (TK) activities in liver homogenates and immunohistochemistry ofin vivo bromodeoxyuridine (BrdU) incorporation in hepatic DNA were followed as regeneration parameters at 24 and 48 hr after PH. The results relative to TK activity and BrdU incorporation were consistent with significantly delayed hepatic DNA synthesis in Gunn rats in comparison to control Wistar and TR^– rats. This delay in DNA synthesis was not reflected in the hepatic ODC activity. After one week of complete common bile duct obstruction (CBO), an increased TK activity and BrdU incorporation was seen. PH following CBO resulted in a further increase in ODC activity and BrdU incorporation. TK activity did not change, however. These data relative to the regulation of hepatic DNA synthesis after PH in Gunn rats and in rats with extrahepatic biliary obstruction suggest a possible stimulatory role for conjugated bilirubin in hepatic regeneration; however, the normal hepatic DNA synthesis in TR^– rats studied before PH and the subnormal DNA synthesis seen 24hr after PH in TR^– rats and in rats with CBO indicate that conjugated bilirubin does not stimulate hepatic DNA synthesis.Presented at the Proceedings of the International Meeting on Normal and Neoplastic Growth in Hepatology, Bari, Italy, June 1989.     

Inhibition of hepatic regeneration in rats by acute and chronic ethanol intoxication

We studied the effects of acute and chronic ethanol feeding on hepatic regeneration in rats after partial hepatectomy and toxic liver injury produced by D-galactosamine. Ethanol, when administered as a single dose (6 g/kg), inhibited 3H-thymidine incorporation into hepatic DNA; this effect depended in part on the time of ethanol feeding after partial hepatectomy. Multiple ethanol feedings produced an even greater inhibition, which persisted for at least 48 hr after partial hepatectomy. Rats chronically fed ethanol for 30 days also failed to achieve a hepatic proliferative response to either partial hepatectomy or D-galactosamine-induced hepatitis, comparable with isocaloric pair-fed controls. These investigations suggest that there may be a certain metabolic state in the hepatocyte cell cycle that is most susceptible to the action(s) of ethanol; inhibition of liver regeneration by acute or chronic ethanol consumption may result in delayed recovery from prior or coincident liver injury.     

Pharmacokinetics of the Ethanol Bioavailability in the Regenerating Rat Liver Induced by Partial Hepatectomy

It is well known that a single ethanol administration is capable of inhibiting the two-thirds partial hepatectomy (PH)-induced liver regeneration (LR); nonetheless, it has not been elucidated how ethanol metabolism by the remnant liver is exerting the deleterious ethanol actions on LR. Indeed, pharmacokinetics analysis of ethanol elimination is lacking in rats subjected to PH, which might extend our understanding in the mechanisms that account for the ethanol-induced inhibition on LR after PH in the rat. Therefore, the present study is a pharmacokinetics analysis comparing intragastric and in-traperitoneal administrations of ethanol to rats under PH, at several times after surgery (0 to 96 hr postsurgery). Our results show that PH rats had a much lower blood ethanol peak than sham-operated, when intragastrically administered during the first 4 hr after surgery that was transient and normalized at 6 hr post-PH. The area under the curve for blood ethanol was higher in PH animals, starting after 6 hr postsurgery and extended to the all replicative period, and returned within the control values thereafter. The quantity of ethanol absorbed after its intraperitoneal injection was essentially the same as the administered dose for all of the groups tested. Hence, ethanol bioavailability diminished due to an enhanced rate of the first-pass metabolism for ethanol in PH rats at the very early times post-PH. At later times of PH, ethanol bioavailability was practically normalized, and these effects were accompanied by a drastic increase in the liver capacity to metabolize ethanol, mainly at 48 to 96 hr after surgery, as calculated as ethanol elimination per gram of liver, as well as by total body weight. The very early changes in ethanol bioavailability in PH rats were not accounted for gastric ethanol retention in these animals. In conclusion, first-pass metabolism importantly participates in the modified ethanol bioavailability at very early times after PH, an event presumably attained to gastric catabolism of ethanol. However, the very enhanced metabolism of ethanol showed by the regenerating liver, particularly after the first 24 hr postsurgery, seems to be the main factor affecting ethanol pharmacokinetics in rats subjected to PH. The underlying mechanisms in this liver enhancement of ethanol oxidation by PH rats remains to be elucidated.     

Effects of Bicyclol on Liver Regeneration After Partial Hepatectomy in Rats

Bicyclol is a synthetic antihepatitis drug with antioxidative property. The present study was performed to investigate the effect of bicyclol on liver regeneration after partial hepatectomy in rats. Bicyclol (300 mg/kg) was given to rats subjected to 70% hepatectomy three times before operation. At 6, 24, and 48 h after resection, samples were collected for the measurement of serum alanine aminotransferase (ALT), total bilirubin (TBil), hepatic glycogen, malondialdehyde (MDA), superoxide dismutase (SOD), and glutathione (GSH). Moreover, liver regeneration rate, proliferating cell nuclear antigen (PCNA) labeling, proliferation index, and histopathological examination were evaluated at 48 h after hepatectomy. As a result, bicyclol significantly increased regeneration rate, mitotic index (MI), PCNA labeling index, and proliferation index in PH rats. Additionally, bicyclol remarkably inhibited the elevation of serum ALT and TBil levels, alleviated the formation of liver MDA, restored impaired antioxidant SOD and GSH, increased hepatic glycogen content, and also attenuated hepatic vacuolar degeneration. These results suggested that bicyclol had a beneficial effect on liver regenerative capacity of the remnant liver tissue after hepatectomy, probably due to its antioxidative property.     

Putrescine Administration Reverses Cadmium-Associated Inhibition of Liver Regeneration

The liver is of central importance in themetabolism of essential and toxic metals such ascadmium. Cadmium pretreatment suppressed the liverregenerative response to partial hepatectomy, due to theinhibition of the enzymatic activity of thymidine kinase.Exogenous putrescine administration has been reported tostimulate liver regeneration in animal models of acuteliver failure. The purpose of this study was to document whether the administration of thispolyamine enhances the impaired regenerative capacity ofhepatocytes in cadmiumpretreated partiallyhepatectomized rats. The intraperitoneal administration of putrescine (1 or 10 mg/kg body weight), atthe time of surgery and at 4 and 8 hr postoperativelypartly restored the suppressed hepatocytedeoxyribonucleic acid (DNA) biosynthesis and thymidinekinase activity in cadmium-pretreated partiallyhepatectomized rats. Mitotic activity and the percentageof hepatocytes positive for proliferating cell nuclearantigen nuclei were in accordance with the liver proliferative status. Our results showed thatexogenous putrescine administration is able to improvediminished liver regeneration after partial hepatectomyin this animal model of acute hepatic injury.