Thyroid status affects rat liver regeneration after partial hepatectomy by regulating cell cycle and apoptosis.

In rats, various growth factors and hormones, as well as partial hepatectomy (PH) are able to trigger the proliferative response of hepatocytes. Although recent evidence highlights the important role of thyroid hormones and thyroid status in regulating the growth of liver cells in vitro and in vivo models, the mechanism involved in the pro-proliferative effects of thyroid hormones is still unclear. Here we have investigated how in rats made hypo- and hyperthyroid after prolonged treatment respectively with propylthiouracil (PTU) and triiodothyronine (T3), the thyroid status affects liver regeneration after PH by regulating cell cycle and apoptosis proteins. Our results show that both in control and partially hepatectomized animals hyperthyroidism increases the cyclin D1, E and A levels and the activity of cyclin-cdk complexes, and decreases the levels of cdk inhibitors such as p16 and p27. On the contrary hypothyroidism induces a down-regulation of the activity of cyclin cdk complexes decreasing cyclin levels. Thyroid hormones control also p53 and p73, two proteins involved in apoptosis and growth arrest which are induced by PH. In particular, hypothyroidism increases and T3 treatment decreases p73 levels. The analysis of the phosphorylated forms of p42/44 and p38 MAPK revealed that they are induced during hepatic regeneration in euthyroid and hyperthyroid rats whereas they are negatively regulated in hypothyroid rats. In conclusion our data demonstrate that thyroid status can affects liver regeneration, altering the expression and the activity of the proteins involved in the control of cell cycle and growth arrest.     

THE ALTERATION OF THE REGENERATIVE ACTIVITY AND THE CELL CYCLE OF PARTIALLY HEPATECTOMIZED RAT LIVER FOLLOWING ADMINISTRATION OF d-GALACTOSAMINE

A single injection of d-galactosamine given to rats at different times after partial hepatectomy (PH) changes the pattern of regenerative proliferation. When administered during the pre-replicative phase of regeneration, the onset of DNA synthesis and the increase in labelling index after injection of ³H-thymidine are delayed by about 12 hr. The injection of d-galactosamine at 24 hr after PH inhibits the drop in DNA synthesis occurring normally during the following 12 hr period. This was detected by a high labelling index and by an increased specific activity of DNA. The findings indicate a lengthening of the S phase, while G₂ and M remain normal. Two modes of action of d-galactosamine on the cell cycle are discussed.     

Heparin-binding epidermal growth factor-like growth factor links hepatocyte priming with cell cycle progression during liver regeneration

The mechanisms that regulate the transition between the initial priming phase and DNA replication in liver regeneration are poorly understood. To study this transition, we compared events occurring after standard two-thirds partial hepatectomy, which elicits full regeneration, with response to a reduced hepatectomy, one-third partial hepatectomy (1/3PH), which leads to little DNA replication. Although the initial response to partial hepatectomy at the priming phase appeared to be similar between the two procedures, cell cycle progression was significantly blunted in 1/3PH mice. Among the main defects observed in 1/3PH mice were an almost complete deficiency in retinoblastoma phosphorylation and the lack of increase in kinase activity associated with cyclin E. We report that, in two-thirds partial hepatectomy mice, the expression of heparin-binding epidermal growth factor-like growth factor (HB-EGF) preceded the start of DNA replication and was not detectable in 1/3PH animals. Injection of HB-EGF into 1/3PH mice resulted in a >15-fold increase in DNA replication. Moreover, we show that hepatocyte DNA replication was delayed in HB-EGF knock-out mice. In summary, we show that HB-EGF is a key factor for hepatocyte progression through G(1)/S transition during liver regeneration.     

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.     

Accelerated proliferation of hepatocytes in rats with iron overload after partial hepatectomy

Although iron overload is implicated in hepatocarcinogenesis, the precise mechanism was not known yet. In the present study, we investigated the effect of iron overload upon the induction of hepatocyte proliferation after 70?% partial hepatectomy (PH) in rats fed with rat chow with 3?% carbonyl iron for 3?months. In normal-diet rats, the increase in Ki-67 labeling index (LI) commenced at 24?h post-PH and the LIs of proliferating cell nuclear antigen (PCNA) incorporated 5-bromo-2′-deoxyuridine (BrdU) and phospho-histone H3 reached maximum values at 36 and 48?h after PH, respectively. In iron-overload rats, the above parameters occurred 12?h earlier compared to that of normal-diet rats, shortening the G0–G1 transition. Interestingly, nuclear staining for metallothionein (MT), which is essential for hepatocyte proliferation, was noted even at 0?h in iron-overload rats, while MT expression occurred at 6?h in the normal rats. Moreover, nuclear factor kappa B (NF-κB) expression, which is an essential early event leading to liver regeneration, was detected in Kupffer cells at 0?h in iron-overload rats. These results may indicate that overloaded iron, maybe through the induction of MT and NF-κB, may keep liver as a state ready to regenerate in response to PH, by bypassing signal transduction cascades involved in the initiation of liver regeneration.     

Minoxidil, a K(ATP) channel opener, accelerates DNA synthesis following partial hepatectomy in rats

A large number of studies have reported the action of K(ATP) channel openers in accelerating the proliferation of hepatocytes and many other cell types in vitro. Few studies, however, have examined the proliferative effect of K(ATP) channel openers in vivo. The aim of this study was to determine whether the K(ATP) channel opener minoxidil accelerates liver regeneration after partial hepatectomy (PH) in vivo. Male Wistar rats underwent a 70% partial hepatectomy (PH) after receiving a subcutaneous injection of minoxidil (0.01 mg/kg or 0.03 mg/kg). Some of the rats were intravenously treated with 5-hydroxydecanoic acid (5-HD, 10 mg/kg) just before the minoxidil injection. Seventy-two hours after PH, DNA synthesis was immunohistochemically assessed by bromodeoxyuridine (BrdU) incorporation into the nuclei. Minoxidil induced significant and dose-dependent increase in the BrdU labeling index after PH, and 5-HD reversed this minoxidil-induced change. Minoxidil did not significantly affect the changes in liver weight and liver function after PH. The hepatic levels of prealbumin decreased by about 60% after PH and minoxidil inhibited the decrease. In conclusion, the K(ATP) channel opener minoxidil enhanced DNA synthesis after PH without affecting the liver function.     

Follistatin allows efficient retroviral-mediated gene transfer into rat liver

Retroviral vectors are widely used tools for gene therapy. However, in vivo gene transfer is only effective in dividing cells, which, in liver, requires a regenerative stimulus. Follistatin is effective in promoting liver regeneration after 90% and 70% hepatectomy in rats. We studied its efficacy on liver regeneration and retroviral-mediated gene delivery in 50% hepatectomized rats. When human recombinant follistatin was infused into the portal vein immediately after 50% hepatectomy, hepatocyte proliferation was significantly higher than in control 50% hepatectomized rats. A single injection of virus particles administered 23 h after follistatin infusion resulted in more than 20% gene transduction efficiency in hepatocytes compared to 3% in control rats. It is concluded that a single injection of follistatin induces onset of proliferation in 50% hepatectomized rats and allows efficient retroviral-mediated gene transfer to the liver.     

Expression and localization of regenerating gene I in a rat liver regeneration model

Regenerating gene (Reg) I has been identified as a regenerative/proliferative factor for pancreatic islet cells. We examined Reg I expression in the regenerating liver of a rat model that had been administered 2-acetylaminofluorene and treated with 70% partial hepatectomy (2-AAF/PH model), where hepatocyte and cholangiocyte proliferation was suppressed and the hepatic stem cells and/or hepatic progenitor cells were activated. In a detailed time course study of activation of hepatic stem cells in the 2-AAF/PH model, utilizing immunofluorescence staining with antibodies of Reg I and other cell-type-specific markers, we found that Reg I-expressing cells are present in the bile ductules and increased during regeneration. Reg I-expressing cells were colocalized with CK19, OV6, and AFP. These results demonstrate that Reg I is significantly upregulated in the liver of the 2-AAF/PH rat model, accompanied by the formation of bile ductules during liver regeneration.     

Contribution of cyclooxygenase 2 to liver regeneration after partial hepatectomy.

Partial hepatectomy (PH) triggers a rapid regenerative response in the remaining tissue to reinstate the organ function and the cell numbers. Among the molecules that change in the course of regeneration is an accumulation of prostaglandin E2 in the sera of rats with PH. Analysis of the cyclooxygenase (COX) isoenzymes in the remnant liver showed the preferential expression of COX-2 in hepatocytes. Cultured regenerating hepatocytes expressed significant levels of COX-2, a process that was not observed in the sham counterparts. Maximal expression of COX-2 was detected 16 h after PH with increased levels present even at 96 h. Pharmacological inhibition of COX-2 activity with NS398 shunted the up-regulation of cell proliferation after PH, which suggests a positive interaction of prostaglandins with the progression of the cell cycle. Similar results were obtained after PH of mice lacking the COX-2 gene. The expression of COX-2 in regenerating liver was concomitant with a decrease in CCAAT-enhancer binding protein (C/EBP-a) level and an increase in the expression of C/EBP-b and C/EBP-d. These results suggest a contribution of the enhanced synthesis of prostaglandins to liver regeneration observed after PH.     

Dehydroepiandrosterone (DHEA) facilitates liver regeneration after partial hepatectomy in rats

In this study we investigated whether or not liver regeneration is facilitated by dehydroepiandrosterone (DHEA) after partial (70%) hepatectomy in rats. Treatment with DHEA (300 mg/kg body weight) did not cause any significant increase in the expression ratio of proliferating cell nuclear antigen (PCNA) in sham-operated controls; however, in partially hepatectomized rats it caused a significant increase in the ratio in hepatocytes 24 and 36 hr after hepatectomy. In partially hepatectomized rats, DHEA treatment significantly accelerated the restoration of liver 48, 60, and 72 hr after partial hepatectomy. The restoration rate in DHEA-treated hepatectomized rats at 72 hr was 1.3-fold greater than in partially hepatectomized controls. Treatment with androstenedione (300 mg/kg body weight), the first metabolite of DHEA, did not cause any significant increase in the expression of PCNA in either sham-operated controls or partially hepatectomized rats. These results indicate that DHEA itself promotes the liver regenerative process after partial hepatectomy in rats.     

Hepatic regeneration following glucagon treatment

Liver regeneration was studied as a function of time after suppression of the normal glucagon response. Rats were given a daily subcutaneous injection of 20 micrograms zincglucagon for 14 days, whereafter a 70% hepatectomy was performed. In the glucagon treated rats the rise in plasma glucagon concentration was diminished after hepatectomy. At intervals from 12 to 384 hours after hepatectomy, the gain in liver weight, the hepatic DNA content, and the antipyrine clearance were measured. All 3 variables were found to be significantly higher in animals with diminished glucagon response. The results indicate that prevention of the normal increase in glucagon concentration leads to signs of increased liver regeneration after 70% hepatectomy.     

Impaired Ras membrane association and activation in PPARalpha knockout mice after partial hepatectomy

Liver regeneration after partial hepatectomy (PH) involves several signaling mechanisms including activation of the small GTPases Ras and RhoA in response to mitogens leading to DNA synthesis and cell proliferation. Peroxisome proliferator-activated receptor-alpha (PPARalpha) regulates the expression of several key enzymes in isoprenoid synthesis, which are key events for membrane association of Ras and RhoA. Thus the role of PPARalpha in cell proliferation after PH was tested. After PH, an increase in PPARalpha DNA binding was observed in wild-type mice, correlating with an increase in the PPARalpha-regulated enzyme acyl-CoA oxidase. In addition, the PPARalpha-regulated genes farnesyl pyrophosphate synthase and 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) synthase were significantly increased in wild-type mice. However, these increases were not observed in PPARalpha knockout (PPARalpha -/-) mice. The peak in DNA synthesis observed 42 h after PH was reduced by approximately 60% in PPARalpha -/- mice, despite increases in TNF-alpha and IL-1. Also, under these conditions, membrane association of Ras was high in wild-type mice after PH but was impaired in PPARalpha -/- mice. Accordingly, Ras was significantly elevated in the cytosol in PPARalpha -/- mice. This observation correlated with lower levels of active GTP-bound Ras after PH in PPARalpha -/- mice compared with wild-type mice. Similar observations were made for RhoA. Moreover, deletion of PPARalpha blunted the activation of cyclin-dependent kinase (cdk)2/cyclin E and cdk4/cyclin D complexes. Collectively, these results support the hypothesis that PPARalpha is necessary for cell cycle progression in regenerating mouse liver via mechanisms involving prenylation of small GTPases Ras and RhoA.     

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.     

Chimeric D2/D3 Dopamine Receptors Efficiently Inhibit Adenylyl Cyclase in HEK 293 Cells

Abstract: Despite a high degree of sequence homology, the dopamine D₂ and D₃ receptors have substantially different second messenger coupling properties. We have used chimeric D₂/D₃ receptors to investigate the contribution of the intracellular loops to the signaling properties of these receptors. In HEK 293 cells, D₂ receptors inhibit prostaglandin E₁-stimulated cyclic AMP levels by >90%, whereas D₃ receptors inhibit cyclic AMP accumulation by only 20%. In chimeras that have the second or third intracellular loop, or both loops simultaneously, switched between the D₂ and D₃ receptors, the maximal inhibition of adenylyl cyclase is 60–90%. In addition, the potency of quinpirole to inhibit adenylyl cyclase activity at some of the chimeras is altered compared with the wild-type receptors. It appears that the intracellular loops of the D₃ receptor are capable of interacting with G proteins, as when these loops are expressed in the D₂ receptor, the chimeras inhibit adenylyl cyclase similarly to the wild-type D₂ receptor. Our data suggest that the overall conformation of the D₃ receptor may be such that it interacts with G proteins only weakly, but when the intracellular loops are expressed in another context or the D₃ receptor structure is altered by the introduction of D₂ receptor sequence, this constraint may be lifted.     

Effects of the Dopamine D3 Antagonist PD 58491 and Its Interaction with the Dopamine D3 Agonist PD 128907 on Brain Dopamine Synthesis in Rat

Abstract: The dopamine (DA) D₃ receptor antagonist PD 58491 {3-[4-[1-[4-[2-[4-(3-diethylaminopropoxy)phenyl]-benzoimidazol-1-yl-butyl]-1 H -benzoimidazol-2-yl]-phenoxy]propyl]diethylamine} bound with high affinity and selectivity to recombinant human DA D₃ versus D_2L and D_4.2 receptors transfected into Chinese hamster ovary cells: K _i values of 19.5 n M versus 2,362 and >3,000 n M , respectively. In contrast, the putative DA D₃ receptor antagonist (+)-AJ76 displayed low affinity and selectivity for D₃ versus D_2L and D_4.2 receptors (91 n M vs. 253 and 193 n M , respectively). In vitro, PD 58491 (1 n M −1µ M ) exhibited D₃ receptor antagonist activity, reversing the quinpirole (10 n M )-induced stimulation of [³H]thymidine uptake in D₃ CHOpro-5 cells, but did not have any significant intrinsic activity by itself in this assay. PD 58491 did not decrease the γ-butyrolactone-induced increase in DA synthesis ( l -3,4-dihydroxyphenylalanine accumulation) in rat striatum, indicating that the compound possessed no in vivo DA D₂/D₃ receptor agonist action at DA autoreceptors. PD 58491 (3–30 mg/kg, i.p.) generally did not alter DA or serotonin synthesis in either the striatum or mesolimbic region of rat brain. The D₃-preferring agonist PD 128907 decreased DA synthesis in striatum and mesolimbic regions, and this effect was attenuated by pretreatment with PD 58491. These findings support the hypothesis that DA D₃ autoreceptors may in part modulate the synthesis and release of DA in striatum and mesolimbic regions.