Fibrinolysis and liver regeneration.

The plasmin and plasminogen activator proteases of the plasma fibrinolytic system were investigated as potential blood-borne mediators of the proliferative activation of hepatocytes by partial hepatectomy. Partial (68%) liver resection, as well as proliferatively activating the remaining hepatocytes, rapidly (by 30 minutes) doubled the level (or activity) of circulating plasminogen activator but later (2 hours) greatly depressed this level. This later depression of the activity of circulating plasminogen activator lasted for eight to ten hours before returning to the normal level two to four hours before the hepatocytes in the liver remnant began to synthesize DNA. This sequence of changes in the fibrinolytic potential was not abolished by prior thyroparathyroidectomy which is known to inhibit the initiation of hepatocyte DNA synthesis and to prevent the secretion of the calcium homeostatic hormones, another early systemic consequence of partial liver resection. Since the early rise in plasminogen activator activity did not cause the appearance of active (free) circulating plasmin, and since the injection of large doses of the fibrinolytic and protease inhibitors, EACA and Trasylol®, during this early, post-operative period of hyperfibrinolytic potential did not prevent hepatocytes from initiating DNA synthesis, it is unlikely that either plasmin or its activator protease are blood-borne initiators of hepatocyte proliferative development.     

Conformational changes in rat liver chromatin after liver regeneration.

N-Pyrenemaleimide, a fluorescent probe that specifically labels histone H3 of rat liver chromatin in situ, was used to monitor the accessibility of histone H3 in chromatin isolated from rat liver at different times during degeneration. At times of maximum DNA synthesis (18--24 h after hepatectomy), the accessibility of the probe was found to be markedly (40--50%) increased. This increase is abolished, however, by treatment of the chromatin fibres with high salt (2 M-NaCl) or detergent. Tryptophan fluorescence was also enhanced at points of maximum DNA synthesis, suggesting that some non-histone tryptophan-containing protein was being synthesized. The polarization of the labelled histone H3 is not markedly altered, suggesting that fibre aggregation or dissociation does not occur. Mononucleosomes extracted from sham-operated and hepatectomized animals did not exhibit any difference in binding to the probe. Also, analysis of the chromatin protein by electrophoresis on detergent- and acid/urea/ Triton-X-100-containing polyacrylamide gels showed no detectable difference in histone H3 : 1, H3 : 2 or H3 : 3 subclasses.     

Histone phosphorylation during liver regeneration.

The pattern of histone phosphorylation at acid-stable, alkali-labile sites has been examined throughout the early stages of liver regeneration, namely at times of “gene activation”. Among the histones, only H1 shows an increase in phosphorylation. This increase initiates near the end of the period of chromatin template activation. Thus, there is no obvious temporal correlation between increased histone phosphorylation and increased RNA synthesis. The relative levels of phosphorylation of the various histones and the change in H1 phosphorylation observed in the liver system closely parallel the patterns exhibited by cultured animal cells during the G1 and S phases of the cycle as described by other investigators.     

Human augmenter of liver regeneration: molecular cloning, biological activity and roles in liver regeneration

The complete amino acid sequence of human augmenter of liver regeneration (hALR) was reported by deduction from nucleotide sequence of its complementary DNA . The cDNA for hALR was isolated by screening a human fetal liver cDNA library and the sequencing of this insert revealed an open reading frame encoding a protein with 125aa and highly homologous (87% ) with rat ALR encoding sequence. The recombinant hALR expressed from its cDNA in transient expression experiments in cos-7 cells could stimulate DNA synthesis of HTC hepatoma cell in the dose-dependent and heat-resistant way. Northern blot analysis with rat ALR cDNA as probe confirmed that ALR mRNA was expressed in the normal rat liver at low level and that dramatically increased in the regenerating liver after partial hepatectomied rat. This size of hALR mRNA is 1.4 kb long and expressed in human fetal liver, kidney and testis. These findings indicated that liver itself may be the resource of ALR and suggested that ALR seems to be an im-portant parac     

Mevalonate-derived proteins in liver regeneration

Sixteen hours after partial hepatectomy in the rat, the synthesis of mevalonate (MVA) is not committed to produce cholesterol and only partially utilized for dolichol formation. In order to investigate the fate of MVA in this replicative system, slices of the remaining liver were incubated with 5-³H-MVA. Labeled proteins from whole liver and purified nuclei were analyzed after extensive delipidation and separation by SDS-PAGE. Many MVA-derived proteins were identified at 16 hours, while only two labelled peptides were detectable at 24 hours. The radioactivity was localized in covalently bound lipid moieties. A highly labeled 26 kD peptide was detectable in the nucleus at 16 hours, suggesting its involvement in the cell cycle progression.     

Alteration of rat liver proteoglycans during regeneration.

Sepharose CL-6B column chromatography of crude extracts from the slices of regenerating rat livers after partial hepatectomy and sham-operated controls labeled with [35S]sulfuric acid revealed an enhancement of [35S]sulfate incorporation into proteoglycan fractions during regeneration. The 35S-labeled proteoglycans contained heparan sulfate (more than 80% of the total) and chondroitin/dermatan sulfate. The 35S-incorporation into both glycosaminoglycans increased to maxima 3-5 days after partial hepatectomy and decreased thereafter toward the respective control levels. When [35S]sulfuric acid was replaced by [3H]glucosamine, similar results were obtained. These results suggest that the maximal stimulation of proteoglycan synthesis in regenerating rat liver follows the maximal mitosis of hepatic cells 1-2 days after partial hepatectomy. The 35S-labeled proteoglycans from regenerating liver 3 days after partial hepatectomy and control were analyzed further. They were similar in chromatographic behavior on a gel filtration or an anion-exchange column and in glycosaminoglycan composition. Their glycosaminoglycans were indistinguishable in electrophoretic mobility. However, these proteoglycans were slightly but significantly different in their affinity to octyl-Sepharose and in the molecular-weight distribution of their glycosaminoglycans.     

Accumulation of polyadenylated mRNA during liver regeneration.

Cytoplasmic and polysomal polyadenylated mRNA [poly(A)+-mRNA] increased by 120% prior to the onset of DNA synthesis during the regeneration of rat liver following partial hepatectomy. Despite this large change in cytoplasmic mRNA and an approximately 50% increase in total nuclear RNA, the amount of polyadenylated nuclear RNA increased by only 15--20% during this time. Neither the average size of nuclear or of cytoplasmic polyadenylated mRNA nor the length of their poly(adenylic acid) [poly(A)] tracts changed during liver regeneration. Polysomal poly-(A)+-mRNA increased proportionately more and at a faster rate than rRNA during the first day following partial hepatectomy. Normal livers contained a substantial proportion of cytoplasmic poly(A)+-mRNA not associated with polysomes but this proportion was not altered in 3-h regenerating liver. Thus, in regenerating liver, most preexisting cytoplasmic mRNA does not appear to be recruited into polysomes prior to the substantial increase in the amount of cytoplasmic poly(A)+-mRNA.     

Alterations in microsomal and plasma membranes during liver regeneration.

Investigations have been carried out on the alterations of membrane lipids and some enzyme activities during liver regeneration. The results indicated that 32 h after partial hepatectomy the membrane phospholipids per mg protein were augmented. The cholesterol esters were also increased in both microsomal and plasma membranes. The specific radioactivity of the separate phospholipid fractions, estimated by incorporation of 14C-palmitate into the phospholipid molecules, was higher in membranes from partially hepatectomized rats, compared to sham-operated ones, indicating an enhanced phospholipid synthesis. The content and specific radioactivity of diacylglycerols and triacylglycerols was enhanced in both types of membranes from regenerating liver. Moreover, we observed a fluidization of these membranes, which is illustrated by the decrease of the structural order parameter (SDPH) of the lipid bilayer as well as by the elevation of the excimer to monomer fluorescent ratio (IE/IM). 1,6-Diphenyl-1,3,5-hexatriene and pyrene were used as fluorescent probes for determination of the membranes physical state. Palmitoyl-CoA and oleoyl-CoA synthetase, acyl-CoA: lysophosphocholine and acyl-CoA:lysophosphoethanolamine acyltransferase as well as phospholipase C activities were augmented in membranes from partially hepatectomized rats. The biological significance of these alterations in the process of liver regeneration is discussed.     

Recent events in alcoholic liver disease V. effects of ethanol on liver regeneration

Liver regeneration is necessary to recover from alcoholic liver injury. Herein, we review evidence that ethanol interferes with liver regeneration. Briefly, alcoholic fatty livers demonstrate increased rates of hepatocyte death. The latter provides a regenerative stimulus. However, unlike mature hepatocytes in healthy adult livers, most surviving mature hepatocytes in alcoholic fatty livers cannot replicate. Therefore, less mature cells (progenitors) must differentiate to replace dead hepatocytes. Little is known about the general mechanisms that modulate the differentiation of liver progenitors in adults. Delineation of these mechanisms and clarification of how ethanol influences them might suggest new therapies for alcoholic liver disease.     

Selective changes in protein kinase C isoenzymes in rat liver nuclei during liver regeneration.

Using isoenzyme-specific antisera, protein kinase C (PKC) alpha and PKC delta were detected in total liver homogenate and in isolated nuclei. PKC beta I, beta II, epsilon, epsilon', and zeta were not detected. During liver regeneration, nuclear PKC alpha levels decreased while PKC delta levels increased. These studies demonstrate, for the first time, the presence of a calcium-independent PKC isoenzyme in liver nuclei and suggest that PKC alpha and PKC delta may have different roles in liver regeneration and cell proliferation.     

补体系统及其在肝损伤再生中的作用

补体系统是机体免疫防御机制的重要组成部分,参与免疫识别和防御。近年来,系统研究发现补体除免疫调节外,还具有参与生殖发育、成骨、组织和器官再生等重要生理机能的作用。多项研究报道了补体活化和各种肝损伤／再生的关系,对此进行综述,以期促进对补体多样性功能的了解。     

Re-utilization of pyrimidine nucleotides during rat liver regeneration.

The changes in the specific radioactivities of the pool of total acid-soluble uridine nucleotides and of uridine and cytidine components of total cellular and nuclear RNA were monitored in regenerating rat liver for 12 days after partial hepatectomy. Evidence is presented for the re-utilization of pyrimidine nucleotides derived from cytoplasmic RNA degradation for the synthesis of new RNA. The extent of recycling was assessed and the true rate of rRNA turnover determined more accurately. The reutilization of the uridine components of RNA was 7.0%/day during the proliferative and 3.2%/day during the post-proliferative phase, whereas that of the cytidine nucleotides was more pronounced (9.6%/day and 18.1%/day respectively). The results reveal the existence of partial compartmentalization of pyrimidine ribonucleoside triphosphate pools in the nucleus and cytoplasm of rat liver cells.