Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019204 (hepatocellular carcinoma)
 71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glutamine synthetase and glutaminase activities in human cirrhotic liver tissues and hepatocellular carcinomas were determined for comparison with normal liver tissues. In hepatocellular carcinoma, glutamine synthetase activity was approximately one-third of that in normal liver, whereas no detectable change in the enzyme activity was observed in cirrhotic liver. Phosphate-dependent and phosphate-independent glutaminase activities were increased approximately 20-fold and 6-fold, respectively, both in the carcinoma and cirrhotic liver compared with those from normal liver, Oxypolarographic tests showed that the rate of glutamine oxidation in the tumor and cirrhotic liver mitochondria was about 5-fold higher than that in the liver mitochondria. The rate of glutamate oxidation in the liver mitochondria was comparable to that in the cirrhotic liver and tumor mitochondria. Glutamine oxidation was inhibited by prior incubation of the mitochondria with 6-diazo-5-oxo-L-norleucine, which inhibited mitochondrial glutaminase. These results indicate that the product of glutamine hydrolysis, glutamate, is catabolized in the tumor and cirrhotic liver mitochondria to supply ATP. In the liver and cirrhotic liver mitochondria, glutamate was oxidized via the routes of transamination and deamination. On the other hand, glutamate oxidation was initiated preferentially via a transamination pathway in the tumor mitochondria.
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PMID:Glutaminase and glutamine synthetase activities in human cirrhotic liver and hepatocellular carcinoma. 134 87

Rat HTC hepatoma cells were used to characterize the biosynthesis and processing of the renal isoenzyme of the mitochondrial glutaminase. Immunoblot analysis indicated that mitochondria isolated from HTC cells contained two prominent glutaminase peptides of 68 and 65 kDa and two minor peptides of 61 and 58 kDa. When the cells were labelled with [35S]methionine, the glutaminase-specific antibodies precipitated the same four polypeptides. However, when labelled in the presence of 5 microM-carbonyl cyanide m-chlorophenylhydrazone, an uncoupler of oxidative phosphorylation, only a 72 kDa cytoplasmic precursor of the mitochondrial glutaminase was immunoprecipitated. A comparison of the peptides generated by partial proteolysis of the precursor and the fully processed peptides indicates significant structural similarity. A 71 kDa form of the glutaminase was also observed when HTC cells were pulse-labelled for 2-6 min with [35S]methionine. Pulse-chase experiments indicate that the cytoplasmic precursor is quantitatively converted into the mature forms of the glutaminase. In addition, the observed kinetics established that the 71 kDa peptide is a true intermediate in the import of the mitochondrial glutaminase.
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PMID:Biosynthesis and processing of mitochondrial glutaminase in HTC hepatoma cells. 199 Oct 24

Glutamine synthetase and glutaminase activities in a series of hepatoma cells of human and rat origins were determined for comparison with normal liver tissues. Marked decrease in glutamine synthetase activity was observed in the tumor cells. Phosphate-dependent and phosphate-independent glutaminase activities were increased compared with those from normal liver tissues. Well coupled mitochondria were isolated from HuH 13 line of human hepatoma cells and human liver. Oxypolarographic tests showed that glutamine oxidation was prominent in the tumor mitochondria, while mitochondria from the liver showed a feeble glutamine oxidation. Glutamine oxidation was inhibited by prior incubation of the mitochondria with DON (6-diazo-5-oxo-L-norleucine), which inhibited mitochondrial glutaminase. These results indicate that the product of glutamine hydrolysis, glutamate, is catabolized in the tumor mitochondria to supply ATP.
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PMID:Glutamine synthetase and glutaminase activities in various hepatoma cells. 257 54

Well coupled mitochondria were isolated from transplantable chicken hepatoma induced by MC-29 virus. The mitochondrial phosphate-dependent and phosphate-independent glutaminase activities were increased compared with those from normal chicken liver. Glutamate dehydrogenase was undetectable in the tumor mitochondria. Oxypolarographic tests showed the following: glutamine oxidation was prominent in the tumor mitochondria and was mediated through an NAD-linked reaction, while mitochondria from the liver showed a feeble glutamine oxidation; glutamine oxidation by tumor mitochondria was inhibited either by aminooxyacetate, inhibitor of transaminases, or prior incubation of mitochondria with DON (6-diazo-5-oxonorleucine), which inhibited mitochondrial glutaminases. Bromofuroate, inhibitor of glutamate dehydrogenase, had little or no effect; and glutamate oxidation was also inhibited by aminooxyacetate, while it was not affected by DON. These findings clearly show a high glutamate oxidation activity in the hepatoma and indicate that the product of glutamine hydrolysis, glutamate, is catabolized via transamination in the mitochondria to supply ATP.
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PMID:Prominent glutamine oxidation activity in mitochondria of avian transplantable hepatoma induced by MC-29 virus. 301 1

The effect of anisoosmolarity on the abundance of various mRNA species was examined in perfused rat liver and H4IIE rat hepatoma cells. Hyperosmotic exposure (385 mosmol/l) of isolated rat livers increased mRNA levels for tyrosine aminotransferase (TAT) by 246% and those for phosphoenolpyruvate carboxykinase (PEPCK) by 186%, whereas hypoosmotic exposure (225 mosmol/l) decreased their levels to 43% and 42%, respectively. mRNA levels for fructose-1,6-bisphosphatase (FBP), argininosuccinate lyase (ASL), argininosuccinate synthetase (ASS), glutamine synthetase (GS), glutaminase (GA) and glucokinase (GK) were largely unaffected. In H4IIE cells the modulation of TAT and PEPCK mRNA levels by anisoosmotic exposure was similar to that found in perfused rat liver. ASL and glutaminase mRNA levels were influenced in an opposite manner. The effects of anisoosmolarity on PEPCK mRNA levels in H4IIE cells were largely abolished in the presence of the protein kinase inhibitors H-7, H-89 and HA-1004. Other protein kinase inhibitors such as Go-6850, KN-62, Rp-8-CPT-cAMPS, rapamycin, wortmannin, genistein or herbimycin did not prevent the osmosensitivity of PEPCK mRNA levels. Also pertussis and cholera toxin, vanadate and colchicine did not affect the osmosensitivity of PEPCK mRNA levels. The data suggest that anisoosmotic exposure acts on the levels of some but not all mRNA species and that this action may involve changes in protein phosphorylation. They further indicate that the recently identified osmosensitive signal transduction pathway which involves a G-protein and tyrosine kinase dependent activation of mitogen-activated protein kinases is apparently not involved in the osmoregulation of PEPCK mRNA levels.
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PMID:Anisoosmotic regulation of hepatic gene expression. 892 14

Glutamine catabolism in mammalian liver is catalysed by a unique isoenzyme of phosphate-activated glutaminase. The full coding and 5' untranslated sequence for rat hepatic glutaminase was isolated by screening lambda ZAP cDNA libraries and a Charon 4a rat genomic library. The sequence produces a mRNA 2225 nt in length, encoding a polypeptide of 535 amino acid residues with a calculated molecular mass of 59.2 kDa. The deduced amino acid sequence of rat liver glutaminase shows 86% similarity to that of rat kidney glutaminase and 65% similarity to a putative glutaminase from Caenorhabditis elegans. A genomic clone to rat liver glutaminase was isolated that contains 3.5 kb of the gene and 7.5 kb of the 5' flanking region. The 1 kb immediately upstream of the hepatic glutaminase gene (from -1022 to +48) showed functional promoter activity in HepG2 hepatoma cells. This promoter region did not respond to treatment with cAMP, but was highly responsive (10-fold stimulation) to the synthetic glucocorticoid dexamethasone. Subsequent 5' deletion analysis indicated that the promoter region between -103 and +48 was sufficient for basal promoter activity. This region does not contain an identifiable TATA element, indicating that transcription of the glutaminase gene is driven by a TATA-less promoter. The region responsive to glucocorticoids was mapped to -252 to -103 relative to the transcription start site.
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PMID:Rat hepatic glutaminase: identification of the full coding sequence and characterization of a functional promoter. 916 56

Among other functions, the liver serves to regulate both glucose and nitrogen economy in the body, and in humans, the amino acid glutamine is a major gluconeogenic substrate and the primary extrahepatic ammonia shuttle. Accordingly, the liver acinus possesses a unique heterogeneous metabolic architecture suited to carry out these functions with glutamine-consuming urea cycle and gluconeogenic enzymes in the periportal hepatocytes and a high capacity for glutamine synthesis in the perivenous hepatocytes, resulting in net glutamine balance across the hepatic bed under most conditions. Cytoplasmic levels of glutamine are significantly governed by the activity of the System N transporter in the plasma membrane of parenchymal cells; in this capacity, this glutamine carrier has been shown to represent a rate-limiting step in metabolism via glutaminase. The unique properties of System N allow it to rapidly adapt in support of the dynamic demands of whole body ammonia and glucose homeostasis. In contrast to System N in normal hepatocytes, human hepatoma cells take up glutamine at rates several-fold faster through a broad-specificity higher affinity transporter with characteristics of System ASC or B0. It is currently hypothesized that the expression of this high activity carrier by hepatoma cells combined with accelerated metabolism and tumor-induced derangements in hepatocellular architecture result in net glutamine consumption, and may underlie the diminished plasma glutamine levels observed in patients with hepatocellular carcinoma (HCC). The transport of glutamine through System ASC has been shown to regulate growth in some human hepatoma cells, which suggests this transporter may warrant consideration as a therapeutic target for HCC.
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PMID:Glutamine transport and human hepatocellular transformation. 1048 91

This paper describes some properties of glutamine oxidation and glutaminase isoform expression in cell lines derived from human colorectal adenomas and carcinomas. The slow-growing adenoma-derived cell line AA/C1, and the rapidly proliferating carcinoma cell line HT29, both required glutamine for growth. The rate of (14)CO(2) production from [U-(14)C]glutamine was faster in AA/C1 cells than in HT29 cells. Conversely HT29 cells showed faster rates of glucose oxidation and lactate production. The activity of glutaminase was 3 times higher in AA/C1 cell extracts than in extracts of HT29 cells. Glutaminase activity in the two cell lines had similar K(m) values for glutamine, but the activity in AA/C1 cells had a higher K(0.5) for activation by phosphate. Glutaminase activity in extracts of both cells was inhibited by glutamate. Western blotting showed the presence, in both cell lines, of isoform(s) of glutaminase with an molecular mass of 63 kDa, intermediate between that of kidney glutaminase and liver glutaminase. PCR-based analysis showed that an mRNA species identical to the kidney-type isoform glutaminase C was present in both cell types as was an additional mRNA species identical to the liver-type glutaminase isoform from human breast tumour cells. Northern blotting using isoform-specific cDNA probes demonstrated that mRNA for both glutaminase isoforms was expressed at significant levels in both cell types. Similar results to those in AA/C1 cells and HT29 cells were obtained in two further adenoma and carcinoma cell lines respectively. These results contrast with those reported previously in hepatocyte/hepatoma model systems with respect to fuel selection, glutaminase activity and isoform expression. They also constitute the first demonstration of simultaneous expression of two glutaminase isoforms in a single cell type.
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PMID:Glutaminase isoform expression in cell lines derived from human colorectal adenomas and carcinomas. 1240 49

Glutamine is the most abundant amino acid in the human body and can be synthesized by almost all tissues by the glutamine synthetase (GS)-catalyzed amidation of glutamate. Hepatocytes have access to extracellular glutamine by the concentrative uptake via members of the sodium-dependent neutral amino acid transport systems N and A. Hepatic glutamine metabolism in connection with urea synthesis is importantly involved in systemic ammonia detoxication and pH regulation due to the unique regulatory properties of the liver-type glutaminase, the acinar compartimentation of urea and glutamine synthesis, and a cycling of glutamine between periportal and perivenous hepatocytes. Upregulation of GS expression in hepatocellular carcinoma is related to growth advantage and an enhanced metastatic potential. Glutamine is a potent activator of signal transduction. Recent progress concerns the understanding of glutamine-induced hepatocyte swelling and the downstream activation of integrins, Src, and MAP-kinases in the regulation of autophagic proteolysis, canalicular bile acid excretion, glycogen and fatty acid synthesis, insulin signaling, and protection from apoptosis. Most recently the first primary GS defect leading to inherited glutamine deficiency with fatal outcome was described in human. This review summarizes recent progress in the understanding of glutamine metabolism and signal transduction, which provides further rationale for the use of glutamine as a therapeutic tool.
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PMID:Glutamine metabolism and signaling in the liver. 1712 5

Dynamic nuclear polarization (DNP) is an emerging technique for increasing the sensitivity of (13)C MR spectroscopy (MRS). [5-(13)C(1)]Glutamine was hyperpolarized using this technique by up to 5%, representing a 6000-fold increase in sensitivity. The conversion of hyperpolarized glutamine to glutamate by mitochondrial glutaminase was demonstrated using (13)C-MRS measurements in cultured human hepatoma cells (HepG2). These results represent the first step in developing an imaging technique for detecting glutamine metabolism in vivo. Furthermore, since glutamine utilization has been correlated with cell proliferation, the study suggests a new technique for detecting changes in tumor cell proliferation.
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PMID:13C MR spectroscopy measurements of glutaminase activity in human hepatocellular carcinoma cells using hyperpolarized 13C-labeled glutamine. 1866 4


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