Advances on liver cell-derived exosomes in liver diseases

Exosomes are extracellular vesicles with diameters ranging from 30 to 150 nm, which contain several donor cell-associated proteins as well as mRNA, miRNA, and lipids and coordinate multiple physiological and pathological functions through horizontal communication between cells. Almost all types of liver cells, such as hepatocytes and Kupffer cells, are exosome-releasing and/or exosome-targeted cells. Exosomes secreted by liver cells play an important role in regulating general physiological functions and also participate in the onset and development of liver diseases, including liver cancer, liver injury, liver fibrosis and viral hepatitis. Liver cell-derived exosomes carry liver cell-specific proteins and miRNAs, which can be used as diagnostic biomarkers and treatment targets of liver disease. This review discusses the functions of exosomes derived from different liver cells and provides novel insights based on the latest developments regarding the roles of exosomes in the diagnosis and treatment of liver diseases.     

Expression of liver and placental alkaline phosphatases in Chang liver cells

This paper presents evidence that a protein characteristic of differentiated liver cells, liver alkaline phosphatase, is synthesized by the Chang liver cell line. Liver alkaline phosphatase was demonstrated by immumochemical assay, ³²P-labeling and polyacrylamide gel electrophoresis, immunofluorescence microscopy, and the fluorescence-activated cell sorter. The synthesis of the liver enzyme by the Chang liver cells is interpreted to indicate fidelity of the Chang cells to their origin from human liver tissue. Chang liver cells also synthesize a phosphatase which is similar if not indentical to the placental alkaline phosphatase. Since a placental-type alkaline phosphatase has been observed in a number of non-trophoblastic cell lines and also in some neoplasms, it does not seem reliable as an index of the origins of the cell line. Because of the claims that Chang liver cells are actually HeLa cells, HeLa cells were studied in tandem with the Chang cells. The results showed that the HeLa cells do not make the liver type phosphatase. The data are discussed in relation to the question of HeLa cell contamination of the Chang cell line and the validity of criteria normally used to identify cell lines.     

Cells in the liver microenvironment regulate the process of liver metastasis

The research of liver metastasis is a developing field. The ability of tumor cells to invade the liver depends on the complicated interactions between metastatic cells and local subpopulations in the liver (including Kupffer cells, hepatic stellate cells, liver sinusoidal endothelial cells, and immune-related cells). These interactions are mainly mediated by intercellular adhesion and the release of cytokines. Cell populations in the liver microenvironment can play a dual role in the progression of liver metastasis through different mechanisms. At the same time, we can see the participation of liver parenchymal cells and nonparenchymal cells in the process of liver metastasis of different tumors. Therefore, the purpose of this article is to summarize the relationship between cellular components of liver microenvironment and metastasis and emphasize the importance of different cells in the occurrence or potential regression of liver metastasis.     

Phospholipid-transfer proteins in human liver and primary liver carcinoma

Investigations have been carried out on phospholipid-transfer activity of the cytosol and the phospholipid composition of subcellular membranes from human liver and primary liver carcinoma. In both human liver and primary liver carcinoma cytosolic fractions, the transfer activity for phosphatidylcholine (PC), phosphatidylethanolamine (PE) and sphingomyelin has been observed for the first time. The transfer rate of PC and PE in normal human liver was almost equal, whereas sphingomyelin-transfer activity was much slower. In carcinoma cells, the transfer activity for PE and PC was significantly enhanced, while sphingomyelin transfer remained unchanged. Comparative investigations with HepG2 cultured cells have revealed a high PE-transfer activity in this cell line. Parallel with the phospholipid-transfer activity modifications in neoplasic cells, changes in the phospholipid composition of microsomes and mitochondria have been observed. The content of PC and PE in hepatocarcinoma cells was decreased in microsomes, while in the mitochondria it was increased. The possible role of the phospholipid-transfer proteins in the maintenance of membrane composition and structure is discussed.     

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.     

Metabolomic profiling of biomarkers of liver X receptor-induced toxicity in mouse liver tissue

Methods based on matrix-assisted laser desorption/ionisation mass spectrometry (MALDI-MS), liquid chromatography coupled to an LTQ-Orbitrap mass spectrometer (LC-MS) and gas chromatography-mass spectrometry (GC-MS) were used to investigate changes in the small molecule profiles of mouse liver in response to administration of an LXR agonist. Mice were treated with either 0.3 mg/kg, 1 mg/kg, 10 mg/kg, 30 mg/kg or 60 mg/kg of an LXR test compound or saline (control) once daily, over a 5 day period, to investigate the effects of the drug on metabolism in the liver. It was possible to detect triacylglycerol accumulation in the livers of animals treated with the drug, even at the lowest concentrations using, in the first instance, MALDI MS. There was also an increase in the relative degree of triacylglycerol saturation in the drug-treated samples. Changes in the profiles of phosphatidylcholine lipids were also observed. The changes in lipid profiles were also confirmed by LC-MS and GC-MS, the latter revealing a large increase in the level of the free fatty acid oleic acid (C18:1) in the treated samples. All of the changes were dose-related. Polar metabolites in the samples were analysed by hydrophilic interaction (HILIC) chromatography in combination with an LTQ-Orbitrap mass spectrometer. There were many changes in the metabolite profiles, some of which might simply be related to generalised toxicity. The clearest marker compounds, which showed very marked changes with dose, were methylglutaryl carnitine (MGC) and hydroxymethylglutaryl carnitine (HMGC). Another marker of some interest was uridine diphosphate N-acetylglucosamine (UNGA).     

Potential neural progenitor cells in fetal liver and regenerating liver

From unfractionated embryonic mice liver cells, appreciable amount of spherical bodies containing nestin-positive cells were generated in the presence of neuronal growth factors. Following cultivation on poly-d-lysine/laminin-coated slips, approximately 70% of the cells expressed neuronal markers, and 16% had long processes. Functional analysis of these long-process-bearing cells with the whole-cell patch clamp method showed an inward current in response to glutamate, GABA, and serotonin as the neuronal characteristics. Furthermore, regenerating liver in adult mice also contained nestin-positive cells to the same extent as fetal liver. Regenerating liver could have potential as a source of neural cells for autologous transplantation.     

Guanine deaminase in rat liver and mouse liver and brain

1. The guanine deaminase in rat liver supernatant preparations was resolved into two fractions, A and B, on DEAE-cellulose columns. The two differed in electrophoretic mobility and in various properties. The most noteworthy distinction between A and B components was that the enzyme A activity showed a sigmoid dependence on substrate concentration whereas the enzyme B showed classical Michaelis-Menten kinetics. The K(m) value of enzyme A for guanine was 5.3mum and that of enzyme B 20mum. 2. The entire guanine deaminase activity of mouse liver was contained in the 15000g supernatant of iso-osmotic homogenates. 3. A reinvestigation of the behaviour of rat brain 15000g supernatant guanine deaminase isoenzymes revealed that one enzyme had sigmoidal kinetics and the other enzyme showed a hyperbolic response. 4. Of the guanine deaminase in mouse brain iso-osmotic sucrose homogenate 80% was recovered in the 15000g supernatant and the rest from the particles. The supernatant guanine deaminase was resolvable into two fractions on DEAE-cellulose columns. One enzyme showed sigmoidal kinetics whereas the other showed a hyperbolic response to increasing substrate concentration; the K(m) values for the reaction with guanine were respectively 5 and 66mum. 5. The particulate fractions of mouse liver and brain were devoid of any overt inhibitory activity.     

Hepatotropin mRNA expression in human foetal liver development and in liver regeneration

A 569 bp probe against the β-chain of hepatotropin was used to examine expression of RNA for this growth factor in human adult and foetal liver, foetal kidney and pancreas, and rat liver after partial hepatectomy. Low level expression of a 6kb RNA occurred in human adult and normal rat liver. 70% hepatectomy increased expression, peaking at 10 h and returning to near normal levels 24 h after resection. The 6 kb band was strongly expressed in human foetal liver, as compared with adult, but not in foetal kidney or pancreas, suggesting a major role for hepatotropin in both foetal development and regeneration of the liver.