Growth-associated changes in fatty acid compositions of nuclear phospholipids of liver cells

To know the possible relationships between nuclear phospholipids and cell proliferation, we have extensively analyzed phospholipids extracted from the nuclei of rat hepatic cells at various growth states. The content of phospholipid in nuclei as well as its composition was similar among liver cells tested, i.e., the regenerating rat livers (28 h, post-hepatectomy), sham-operated or non-treated control livers, and rat ascites hepatoma, AH7974 cells. In contrast, the fatty acid compositions of phospholipids differed from each other among these cells. At the 2-position of phospholipids in the regenerating liver nuclei at 28 h after partial hepatectomy, 18:1 (oleic acid) increased transiently at the expense of 20:4 (arachidonic acid) and 22:6 (docosahexaenoic acid), compared with those in the sham-operated control nuclei. This change in fatty acid composition was commonly observed throughout all phospholipids analyzed, i.e., phosphatidylcholine (PC), phosphatidylethanolamine (PE), phosphatidylinositol (PI) and phosphatidylserine (PS). On the other hand, the change at 1-position was rather limited: in the regenerating liver nuclei (28 h), 18:1 increased only in PC at the expense of 18:0 (stearic acid). The similar and more marked deviation at the 2-position was observed with AH7974 nuclei it contained approximately 2-times more of 18:1 in PC, PE and PI than regenerating liver nuclei (28 h), and the decreased levels of 20:4 and/or 22:6. It should be noted that there were significant differences in the fatty acid compositions of PE and PS between sham-operated and non-treated controls. So, the sham-operated rat is the appropriate control for proliferation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Concurrent changes in sinusoidal expression of laminin and affinity of hepatocytes to laminin during rat liver regeneration.

Distribution of fibronectin, laminin, and collagens type I, III, IV, and V in the lobular regions of regenerating rat liver was studied by indirect immunofluorescence. Little or no laminin was detected in sham-operated controls throughout the experimental period, while it was detected in sinusoids of regenerating liver as early as 6 h after partial hepatectomy (PH). After reaching a maximum at 24 h, it decreased and was barely detectable 6 days after PH. Changes in the other extracellular matrix (ECM) proteins were evident 3 days after PH, but not earlier than 24 h. Hepatocytes isolated from regenerating rat livers were tested in a short term assay for attachment to the substrates coated with the ECM proteins. The attachment of hepatocytes to laminin substrates increased 12 h after PH, reached a maximum at 24 h, and decreased to the control level 6 days after PH, while that of the control remained constant. The attachment to fibronectin substrates was not different between regenerating livers and controls at any time point. The attachment to collagen did not change earlier than 24 h after PH, but increased slightly 3 days after PH. Primary rat hepatocytes cultured on the substrates coated with the ECM proteins were determined for replicative DNA synthesis in response to epidermal growth factor. Both in normal liver and in regenerating liver 24 h after PH, laminin was one of the most effective substrates in supporting the responsiveness of hepatocytes to the growth stimulus. Taken together, these results suggest the importance of hepatocyte-laminin interaction during the early stage of liver regeneration possibly in growth stimulation of hepatocytes and/or maintenance of hepatocyte-specific functions.     

Inhibition of glucose production during hepatic nerve stimulation in regenerating rat liver perfused in situ. Possible involvement of gap junctions in the action of sympathetic nerves.

To explore the possible role of gap junctions in neural regulation of hepatic glucose metabolism, the effects of hepatic nerve stimulation on metabolic and hemodynamic changes were examined in normal and regenerating rat liver which was perfused in situ at constant pressure via the portal vein with a medium containing 5 mM glucose, 2 mM lactate and 0.2 mM pyruvate. 1. The content of connexin 32, a major component of gap junctions in rat liver, decreased transiently to about 25% of the control level in regenerating liver 48-72 h after partial hepatectomy and recovered to normal by the 11th day after the operation. 2. In normal liver, electrical stimulation of the hepatic nerves (10 Hz, 20 V, 2 ms) and infusion of noradrenaline (1 microM) both increased glucose and lactate output and reduced perfusion flow. 3. In early stage of regenerating liver 48 h and 72 h after partial hepatectomy, the increase in glucose output in response to nerve stimulation was almost completely inhibited, whereas the change in lactate balance was partially suppressed and the reduction of flow rate was retained. The response of glucose output to nerve stimulation recovered by the 11th day after partial hepatectomy. In contrast, exogenous application of noradrenaline increased glucose output even in the early stage of regenerating liver. 4. The increase in noradrenaline overflow during hepatic nerve stimulation in the early stage of regenerating liver was approximately the same as in normal liver. Liver glycogen was sufficiently preserved in the early stage of regenerating liver. However, noradrenaline infusion could no more increase glucose output both in normal and in regenerating livers after 24 h of fasting that depleted liver glycogen. These results suggest that the impaired effects of sympathetic nerve stimulation on glucose metabolism observed in regenerating liver are derived neither from reduced release of noradrenaline nor from depletion of liver glycogen, but rather from transient reduction of gap junctions which assist signal propagation of the nerve action through intercellular communication in rat liver.     

Lipoperoxides, vitamin E, and activities of superoxide dismutase, glutathione peroxidase, and catalase in regenerating rat liver

Lipoperoxides in homogenates of regenerating rat liver increased from 6 hours after the operation and reached a peak (about 7 times the control level) 18-24 hours after the operation. The concentration of blood lipoperoxides rapidly decreased after the operation. The enzymatic activities of superoxide dismutase, catalase, and glutathione peroxidase, and vitamin E content in regenerating livers were also determined. Among these antioxidant factors, the catalase level changed markedly.     

Receptor-mediated gonadotropin action in ovary. Differential effects of various gangliosides and cholera enterotoxin on 125I-choriogonadotropin binding, production of adenosine 3':5'-monophosphate and steroidogenesis in rat ovarian cells.

Poly(A)-containing RNA isolated from liver nuclei of untreated rats and 3 h or 12 h after partial hepatectomy or sham operation was hybridized to the complementary DNAs (cDNAs). In the homologous reactions two major components could be seen. When compared to normal liver, the complexity of the least abundant class was lower in nuclei from livers 3 h after partial hepatectomy and was higher in those isolated 12 h after operation. The heterologous reactions revealed an increase of some abundant poly(A)-containing sequences and a loss or dilution of rare sequences 3 h after operation. The latter effect was not specific to the regeneration process but occurred after laparotomy as well. 12 h after partial hepatectomy, however, about 10% new poly(A)-containing sequences were detected, corresponding to about 5000 molecules of 4500 nucleotides length, which are unique to regenerating nuclei.     

Specific gangliosides increase rapidly in rat liver following partial hepatectomy

Rat liver gangliosides (sialic acid containing glycosphingolipids) were analyzed by HPTLC and HPLC following either partial hepatectomy or sham operation. Analysis of whole liver gangliosides by HPTLC demonstrated that within 6 h after partial (68%) hepatectomy, there was a significant increase in GM1 compared to both sham and control animals. By 48 h, GM1 was further increased and the polysialylgangliosides GD1a, GD1b and GT1b had also risen significantly, whereas changes in GM3 were negligible. Gangliosides associated with the plasma membrane were increased up to 3.5-fold in regenerating liver compared to sham-hepatectomized controls as assessed by HPLC. Although elevations in membrane gangliosides were associated with hepatocyte proliferation, they did not closely follow the growth curve. The time course of changes in ganglioside biosynthesis suggests differential upregulation of GM3 synthase and GD3 synthase in regenerating livers.     

Phospholipid synthesis in rat liver endoplasmic reticulum after the administration of phenobarbitone and 20-methylcholanthrene

1. Phenobarbitone injection did not affect the concentration of phospholipids in the liver endoplasmic reticulum, but it increased the rate of incorporation of [(32)P]orthophosphate into the phospholipids. 20-Methylcholanthrene caused a transient increase in total phospholipid but a decrease in the turnover rate of the phospholipids. 2. Incorporation of [(32)P]orthophosphate into phosphatidylcholine, compared with that into phosphatidylethanolamine, was increased by phenobarbitone injection but decreased by 20-methylcholanthrene injection. 3. The activity of S-adenosylmethionine-phosphatidylethanolamine methyltransferase increased 12h after phenobarbitone injection, when incorporation of [(32)P]orthophosphate into phosphatidylcholine was a maximum, but at other times, and after 20-methylcholanthrene injection, the activity of the enzyme did not correlate with the rate of phosphatidylcholine synthesis. 4. [(14)C]Glycerol was incorporated more rapidly into phosphatidylcholine than into phosphatidylethanolamine, whereas [(32)P]orthophosphate and [(14)C]ethanolamine were incorporated more rapidly into phosphatidylethanolamine than into phosphatidylcholine. 5. Incorporation of [(32)P]orthophosphate into phosphatidylethanolamine of liver slices incubated in vitro was much more rapid than into phosphatidylcholine, and incorporation into phosphatidylcholine was markedly stimulated by addition of methionine to the medium. Changes in the incorporation of [(32)P]orthophosphate into phospholipids observed in vivo after injection of phenobarbitone or methylcholanthrene could not be reproduced in slices incubated in vitro. 6. It is concluded that phenobarbitone injection causes an increased rate of turnover of total phospholipids in the endoplasmic reticulum and an increased conversion of phosphatidylethanolamine into phosphatidylcholine, whereas 20-methylcholanthrene injection depresses both the turnover rate of total phospholipids and the formation of phosphatidylcholine.     

Accumulation and release of triglycerides by rat liver following partial hepatectomy

Regenerating liver accumulates lipid for about 20 hr following partial hepatectomy. During this time incorporation of intravenously administered palmitate-9, 10-(3)H into beta-lipoprotein increased. 13 hr after partial hepatectomy, there was no change in the level of serum beta-lipoproteins, but the specific activities of the triglycerides in the liver and beta-lipoproteins were significantly diminished. Extension of these studies to the isolated perfused liver system demonstrated that 13 hr after partial hepatectomy the regenerating liver is capable of secreting greater quantities of the lipid, but not the protein, moiety of the beta-lipoproteins in comparison with liver taken immediately from a partially hepatectomized animal, although there was no difference between the weights of the livers. However following addition of palmitate-(3)H and (14)C-labeled amino acids to the perfusate, the specific activity of the hepatic and beta-lipoprotein triglycerides of the liver excised 13 hr after partial hepatectomy was diminished, but that of the protein was not affected. Prelabeling of the accumulated triglyceride with palmitate-1-(14)C in vivo revealed that the proportions of the accumulated triglyceride secreted as beta-lipoproteins by perfused livers excised immediately and 13 hr after partial hepatectomy were identical. It is concluded that regenerating liver rapidly acquires the ability to mobilize triglycerides at a rate equal to that of the much larger normal liver, so that it can handle all free fatty acids presented to it.     

Effects of liver regeneration on tRNA contents and aminoacyl-tRNA synthetase activities and sedimentation patterns.

The tRNA content and aminoacyl-tRNA synthetases of regenerating liver in the phase of rapid growth were compared with those of livers from both intact and sham-operated rats. At 48 h after hepatectomy, the amount of active tRNA (called 'total acceptor capacity') is significantly higher in regenerating liver than in control livers, owing to a general, possibly not uniform, increase in the various tRNA families, which suggests that it may contribute to the increased protein synthesis and to decreased protein degradation as well. The activities of most, but not of all, aminoacyl-tRNA synthetases in cell sap of regenerating liver tend to be greater than normal. Increased activity of histidyl-tRNA synthetase fits in with the possibility that the mechanisms that control the rate of protein degradation through aminoacylation of tRNAHis in cultured cells [Scornik (1983) J. Biol. Chem. 258, 882-886] also operate in the liver and play a role in regeneration. Sedimentation analysis of cell sap in sucrose density gradients shows a shift of prolyl-tRNA synthetase activity toward the high-Mr form in regenerating liver. This change might be related to the positive protein balance and to growth in vivo, since it is also observed in the anaplastic Yoshida ascites hepatoma AH 130.     

The endoplasmic reticulum in regenerating liver cells

Summary Light-microscopic analysis of mouse liver homogenates six days after partial hepatectomy, showed a higher percentage of nuclei with adherent cytoplasm than homogenates from normal liver. This observation was true for animals with either a slow or rapid recovery of body weight after the operation. The phenomenon was not a function of the changes in the proportions of parenchymal and non-parenchymal tissue in the regenerating liver.Electron-microscopic analysis of random samples from normal and regenerating livers indicated an increase in the perinuclear rough endoplasmic reticulum, and a displacefment of the glycogen depots within the regenerating cells six days after partial hepatectomy.The marked resistance towards homogenization, shown by the cytoplasm of the regenerating cells, may have been due to the observed increase of perinuclear membranes. However, qualitative changes of the cell membranes and a general decrease of proteolytic activity connected with liver regeneration may also have contributed.     

Major loss of the 28-kD protein of gap junction in proliferating hepatocytes

There is a reduction in the 28-kD gap junction protein detectable by immunofluorescence in livers of partially hepatectomized rats and in cultured hepatocytes stimulated to proliferate. By the coordinate use of antibodies directed to the hepatic junction protein (HJP28) and the use of a monoclonal antibody that recognizes bromodeoxyuridine (BrdU) incorporated into DNA, we have been able to study the relationship between detectable gap junction protein and cell division. Hepatocytes that label with BrdU in the regenerating liver and in cell culture show a significant reduction of HJP28. Cells that do not synthesize DNA, on the other hand, show normal levels and distribution of immunoreactive gap junction protein. We postulate that the quantitative changes in gap junction expression might play an important role in the control of proliferation in the liver.     

Cytophotometric study of nuclear proteins during gametogenesis in Ascaris lumbricoides.

Reduction in the number of nucleoli/nucleus and increase in their size were usually observed in rat liver after partial hepatectomy. These changes of nucleoli were greatest 16–18 h after the operation, when RNA biosynthesis in the nucleoli is reported to be highest. Approx. 50% of the nuclei had one enlarged nucleolus at this time but after the increase in nuclear DNA synthesis less than 15% of the nuclei had one nucleolus, as in normal liver. Before the next peak of nuclear DNA synthesis, nucleolar changes appeared again, though less conspicuously.The enlarged nucleoli of regenerating liver were separated from smaller ones by discontinuous sucrose gradient centrifugation and the contents of nucleic acid and ribosomal cistrons in different-sized nucleoli were measured. The large nucleoli in regenerating liver were found to have increased DNA content, whereas smaller ones had the normal content. The total number of ribosomal cistrons in the enlarged nucleoli from regenerating liver was also increased roughly in proportion to the DNA content. No significant difference was found between the percentages of ribosomal cistrons in whole nuclear DNAs from regenerating and normal liver. Small but reproducible [³H]TdR incorporation into nucleolar DNA was observed and this was similar in normal liver and regenerating liver 12 h after partial hepatectomy. Therefore, the nucleolar changes in regenerating liver were not accompanied by any particular DNA synthesis in the nucleolus itself. These results suggest that in the nuclei of regenerating liver nucleolar chromatins may be redistributed and assembled into large nucleoli, rather than that any amplification of ribosomal cistrons occurs.     

Proteomic analysis of regenerating mouse liver following 50% partial hepatectomy

Background

Although 70% (or 2/3) partial hepatectomy (PH) is the most studied model for liver regeneration, the hepatic protein expression profile associated with lower volume liver resection (such as 50% PH) has not yet been reported. Therefore, the aim of this study was to determine the global protein expression profile of the regenerating mouse liver following 50% PH by differential proteomics, and thereby gaining some insights into the hepatic regeneration mechanism(s) under this milder but clinically more relevant condition.

Results

Proteins from sham-operated mouse livers and livers regenerating for 24 h after 50% PH were separated by SDS-PAGE and analyzed by nanoUPLC-Q-Tof mass spectrometry. Compared to sham-operated group, there were totally 87 differentially expressed proteins (with 50 up-regulated and 37 down-regulated ones) identified in the regenerating mouse livers, most of which have not been previously related to liver regeneration. Remarkably, over 25 differentially expressed proteins were located at mitochondria. Several of the mitochondria-resident proteins which play important roles in citric acid cycle, oxidative phosphorylation and ATP production were found to be down-regulated, consistent with the recently-proposed model in which the reduction of ATP content in the remnant liver gives rise to early stress signals that contribute to the onset of liver regeneration. Pathway analysis revealed a central role of c-Myc in the regulation of liver regeneration.

Conclusions

Our study provides novel evidence for mitochondria as a pivotal organelle that is connected to liver regeneration, and lays the foundation for further studies on key factors and pathways involved in liver regeneration following 50% PH, a condition frequently used for partial liver transplantation and conservative liver resection.     

Synthesis in vitro of glycoprotein in regenerating rat liver

The metabolism of glucosamine in regenerating rat liver was studied in liver slices. [1-¹⁴C]Glucosamine was incorporated into acid-soluble fraction, rapidly converted to UDP-N-acetylhexosamine and transferred to acid-insoluble fraction. Electrophoretic analysis revealed that most of the radioactive macromolecules released from the slices to the incubation medium were plasma glycoproteins.The incorporation of [1-¹⁴c]glucosamine into UDP-N-acetylhexosamine significantly increased from 6 h to 48 h after partial hepatectomy. On the contrary, the incorporation into acid-insoluble fractions of slice and medium decreased to about 50% of the control values. The rate of transfer of N-acetylhexosamine from UDP-N-acetylhexosamine to acid-insoluble fractions also decreased at 12 h and 48 h respectively. This indicates that the transfer of N-acetylhexosamine to glycoproteins decreases during 48 h of liver regeneration.The enhancement of [1-¹⁴C]glucosamine incorporation into UDP-N-acetylhexosamine is due to an accumulation of the label in the larger pool of this compound. Evidently, some control mechanism may operate on the transfer of N-acetylhexosamine from UDP-N-acetylhexosamine to glycoproteins in regenerating rat liver.     

Characterization and hormonal regulation of protein synthesis by the murine epididymis

Protein synthesis and secretion were examined in vitro by incubating minced tissue with [35S]methionine. The incorporation of label into tissue plus medium was linear for the 5 h of incubation. The percentage of available label incorporated into protein increased with the weight of tissue used. Approximately 13% of the label incorporated appeared in the medium after 5 h of incubation. Release of radioactive protein into the medium was characterized by an initial slow release (1-2 h) followed by a more rapid linear release between 3 and 5 h. Polyacrylamide gel electrophoresis revealed that the pattern of radioactive proteins present in the medium was different from and less complex than the tissue proteins. Substantial differences in protein patterns from different epididymal regions could be detected. The caput epididymidis was particularly active in secreting proteins characteristic of this region, whereas the corpus and cauda synthesized and secreted similar proteins. At least one of these proteins characteristic of the caput is stabilized by disulphide bonds. Short-term (9 day) castration resulted in reduced synthesis and secretion of several of these epididymal proteins. Testosterone administered after 9 days of castration reinitiated synthesis of some but not all of these epididymal proteins.     

DNA synthesis and mitotic activity in short-term cultures of hepatocytes isolated from regenerating rat liver

Cell suspensions were prepared from normal and regenerating liver of adult rats by perfusion with a calcium-chelating agent (EGTA), collagenase and hyaluronidase, and the cells were incubated in culture medium. In cultures prepared from regenerating liver at 20 h after partial hepatectomy, 23 ± 4% of parenchymal cells initially incorporated [³H]TdR. This incorporation was shown to reflect semiconservative DNA replication. At least some parenchymal cells were able to complete their DNA synthesis and to progress through G2 and mitosis. Numbers of hepatocytes in mitosis increased up to 12 h of culture. On the other hand, no entry of hepatocytes into the S period was detectable in cultures prepared from normal or regenerating liver.     

The conversion of orotic acid into uridine 5′-monophosphate by isolated perfused normal and regenerating rat livers

The release of (14)CO(2) from [7-(14)C]orotic acid was measured in isolated perfused normal and regenerating rat livers. With some limitations, the release of (14)CO(2) from [7-(14)C]orotic acid can be used to estimate UMP synthesis in perfused livers. Isolated perfused livers rapidly pick up labelled orotic acid added to perfusate and convert most of it into UMP. Perfused regenerating livers produce approx. 2.5 times as much UMP/g of liver as do perfused normal livers. However, the absolute amount of orotic acid converted into UMP is higher in perfused normal livers than in perfused regenerating livers. Perfused regenerating livers do not differ in their orotic acid uptake and UMP synthesis from livers of comparable size in which regeneration is not taking place. The total amount of orotic acid taken up by the liver (rather than the rate of uptake) and the size of the liver appear to be the determining factors in UMP production. The results suggest that the decrease in liver size caused by partial hepatectomy may be in itself sufficient to account for an increase in the flow of metabolites in the pyrimidine pathway at the early stages of liver regeneration.     

Metabolic factors underlying high serum triglycerides in the normal hamster

Comparative lipid metabolism of rats and hamsters was investigated to determine the metabolic basis for the relatively high concentrations of serum triglycerides in the hamster. It was found that serum free fatty acids (FFA) in the hamster are higher than in the rat in the fed condition. In addition, a higher percentage of the fatty acids esterified in the liver of the hamster is utilized for triglyceride synthesis. These factors combine to elevate hepatic triglyceride synthesis in the hamster. However, triglyceride does not accumulate in the liver in these animals in the fed state. In fact, liver triglycerides are lower in the fed hamster than in the fed rat, and the hamster stores much less triglyceride in liver lipid droplets than does the rat in this nutritional state. Most of the liver triglyceride in fed hamsters is present in dense particles corresponding to vesicular lipoprotein triglyceride in the secretory pool. In isolated organ perfusion experiments hamsters livers exhibited greater net triglyceride secretion than did rat livers. Serum triglycerides in the hamster remain elevated in the fasting state. In this condition the high proportion of free fatty acids utilized for liver triglyceride synthesis, relative to that incorporated into hepatic phospholipids, persists in the hamster and marked liver triglyceride accumulation occurs. Lipid droplets are extremely abundant in these livers. The present study implicates increased conversion of free fatty acids to triglyceride in the liver and increased hepatic production of very low density lipoproteins (VLDL) in the hamster in the genesis of the hyperglyceridemia characteristic of this species.     

Tumor necrosis factor-alpha increases hepatic DNA and RNA and hepatocyte mitosis.

Tumor necrosis factor-alpha (TNF) has been reported to increase DNA synthesis in normal rat liver. Therefore, we examined the effects of TNF on rat liver regeneration. TNF, 1.5 micrograms ip every 4 h for 5 d, significantly increased hepatic DNA and RNA contents of regenerating and sham operated livers by up to 45%. Mitotic figures in sham operated liver, usually rare, were increased substantially by TNF. ODC mRNA content and enzyme activity were increased in regenerating liver, and were further increased by TNF. These data indicate that TNF, although not specific for regenerating liver, is a potent stimulus for hepatocyte DNA synthesis and mitosis.