UMLS:C0019204 - FACTA Search

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Query: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has been proposed that the presence of a tumor leads to uncontrolled oxidation of the branched chain amino acids in the peripheral tissue of the host animal. This was investigated in Buffalo strain rats bearing the tumor, Morris hepatoma 5123tc. The rate of 14CO2 production from [1-14C] leucine was observed to be significantly increased in the tumor-bearing rats in vivo. This increase may be attributed to an observed increase in the activity of the rate-limiting enzyme of leucine oxidation (2-oxoisocaproate dehydrogenase) not only in host skeletal muscle but also in the tumor. In contrast, the oxidative capacities of host tissues (liver and muscle) towards tyrosine were, however, decreased by the presence of a tumor, an observation consistent with tumor induction of fetal-like changes in host tissue metabolism.
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PMID:Amino acid oxidation in the tumor-bearing rat. 339 63

We have isolated genomic clones containing the complete exon 1 and the promoter-regulatory region of the E1 alpha gene (BCKDHA) of human branched-chain alpha-keto acid dehydrogenase complex. The cloning was achieved by amplification of a genomic library in the SRB (P2) host strain that allowed the replication of nonstandard DNA structures. The results of this and previous (Dariush, N., Fisher, C. W., Cox, R. P., and Chuang, D. T. (1991) FEBS Lett. 284, 34-38) studies showed that the human E1 alpha gene contains 9 exons, and spans at least 55 kilobases (kb). Exon 1 is 135 bp in length, and contains multiple transcription initiation sites at bases +1, +18, and +22. The complete human E1 alpha cDNA is, therefore, 1,758 bp in length excluding the poly(A)+ tail, and has 27 nucleotides in the 5'-untranslated region. Sequencing of the 5'-flanking region disclosed the absence of a canonical TATA-box in the vicinity of base -30. Several sets of "CAAT" box-like sequences and Sp1 binding-sites are present. Also present are copies of potential AP-2 binding, fat-specific element 1, fat-specific element 2, glucocorticoid-responsive element, and cAMP-responsive element sequences, as well as multiple sets of direct and inverted repeats. The promoter-regulatory region was characterized using deletion constructs and the luciferase reporter assay. The human hepatoma cells (Hep-G2) and Chinese hamster ovary (CHO) cell lines were used as hosts. The results obtained with Hep-G2 cells indicate that the region for high level transcription is located between bases -320 and -115. Extension of the 5'-end of the insert to beyond base -320 markedly reduces promoter activity. The results strongly suggest the presence of inhibitory elements in the region upstream of base -320. Assays in CHO cells show that the region for high level transcription lies between bases -909 and -115. The variation in the region for high level transcription in Hep-G2 and CHO cells may represent cell-type specific differences in the E1 alpha gene promoter function.
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PMID:Characterization of the promoter-regulatory region and structural organization of E1 alpha gene (BCKDHA) of human branched-chain alpha-keto acid dehydrogenase complex. 846 40

Constitutive expression of nuclear genes encoding mitochondrial proteins raises the question of whether these proteins are present in similar amounts in mitochondria of different tissues. We report that amounts of a single multienzyme complex can vary on a per mitochondrion basis depending on the number of mitochondria per cell. Human branched-chain alpha-keto acid dehydrogenase (BCKD) expression is used as a paradigm in these studies. Expression is compared and contrasted in HepG2 and DG75 cells in which mitochondrial content is twofold higher in the hepatocarcinoma line than in the lymphoblastoid line. Per cell, BCKD activity is equal in the two cells types, but BCKD protein concentration per mitochondrion is twofold higher in DG75 cells. Steady-state mRNA levels do not appear to be directly related to amounts of protein in the two cell lines. To test whether one subunit is limiting in formation of complex, overexpression of each BCKD subunit was elicited by plasmid transfection of the DG75 cells. Only overexpression of the beta-subunit of the decarboxylase component induced more BCKD activity without apparent increase in mRNA for the other endogenously expressed subunits. This implies that free BCKD subunits exist in a cell and can be recruited into an active complex when the limiting subunit becomes available.
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PMID:Influence of subunit transcript and protein levels on formation of a mitochondrial multienzyme complex. 872 61

Alterations in dietary intake, especially of protein, may produce changes in the hepatic levels of the branched-chain alpha-keto acid dehydrogenase (BCKAD) complex. The possible role of insulin in the regulation of these observed changes in hepatic capacity for BCKAD expression was therefore examined. Steady-state RNA levels encoding three of the subunits, E1 alpha, E1 beta and E2, increased by 2-4-fold in the livers of mice starved for 3 days, a known hypoinsulinaemic state. In contrast, the levels of E1 beta and E2, but not E1 alpha, RNA were decreased when mice were fed 0% protein diets compared with the levels observed in mice fed standard (23%) or higher protein isocaloric diets. BCKAD subunit protein levels under these conditions changed co-ordinately even though the changes in RNA were not co-ordinate. The effects of hormonal changes that might be associated with these dietary changes were examined, using the rodent hepatoma cell line H4IIEC3. In these cells, the levels of E1 alpha protein and mRNA were significantly depressed in the presence of insulin. In contrast, the levels of E1 beta and E2 RNAs were not decreased by insulin. The half-lives of the E1 alpha and E2 RNAs were determined to be quite long, from 13 to 18 h, with insulin having no dramatic overall effect on the half-lives determined over 24 h. Therefore, it is likely that insulin directly affects the transcription of the E1 alpha gene rather than RNA stability in exerting its negative regulatory effect. This effect is specific to the E1 alpha subunit. The differences in BCKAD subunit RNA levels observed under various nutritional and developmental conditions may therefore be the result of the differential effects of insulin and other hormones on the multiple regulatory mechanisms modulating BCKAD subunit expression.
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PMID:Effects of insulin on the regulation of branched-chain alpha-keto acid dehydrogenase E1 alpha subunit gene expression. 876 56