Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.3.99.3 (acyl-CoA dehydrogenase)
 1,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To study the mechanisms involved in regulation of nuclear genes encoding mitochondrial enzymes in oxidative energy pathways, the promoter region of the medium-chain acyl-CoA dehydrogenase (MCAD) gene was analyzed. A series of hexamer sequences known to bind and confer responsiveness to a subset of members of the nuclear receptor superfamily of transcription factors was identified. Cotransfection of an MCAD promoter-chloramphenicol acetyltransferase (CAT) reporter plasmid with retinoic acid receptor (RAR)alpha, beta, or retinoid X receptor alpha (RXR alpha) resulted in 10-15-fold transcriptional activation in response to retinoic acid. The retinoic acid-induced activation was 3-4-fold higher with RXR alpha than with either RAR alpha or RAR beta. Deletional analysis confirmed that a region between -341 and -308 base pairs upstream of the MCAD gene cap site conferred the RA-responsive transcriptional activation to homologous and heterologous promoters. Gel mobility shift assays demonstrated that the MCAD RARE interacted directly with overexpressed receptors. Mutational analysis of the RARE delineated three hexamer binding sequences with unique orientation and spacing compared to other reported retinoid responsive elements. These results indicate that the MCAD gene promoter region contains a novel regulatory element that interacts with members of the retinoid receptor family, with preferential activation by RXR alpha. This element likely plays a role in the transcriptional regulation of this gene and perhaps others involved in oxidative energy metabolism.
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PMID:Identification of a novel retinoid-responsive element in the promoter region of the medium chain acyl-coenzyme A dehydrogenase gene. 132 96

We have recently identified a complex transcriptional regulatory element in the medium chain acyl-CoA dehydrogenase (MCAD) gene promoter region that confers response to retinoids through interaction with receptors for all-trans-retinoic acid (RARs) and 9-cis-retinoic acid (RXRs) (Raisher, B. D., Gulick, T., Zhang, Z., Strauss, A. W., Moore, D. D., and Kelly, D. P. (1992) J. Biol. Chem. 267, 20264-20269). We examined the interaction of this element (RAREMCAD) with hepatocyte nuclear factor-4 (HNF-4), an orphan receptor with a tissue expression pattern similar to that of MCAD. Electrophoretic mobility shift assays and cotransfection experiments showed that HNF-4 binds with high affinity to RAREMCAD to activate transcription by an RXR-independent mechanism. Mutational analysis revealed that the MCAD HNF-4 response element consists of an imperfect direct repeat homologous to the consensus sequence for binding to the thyroid receptor/RAR/RXR subgroup of receptors and that distinct sequence requirements dictate HNF-4 binding and transactivation. Mobility shift assays with anti-HNF-4 antiserum demonstrated that the MCAD HNF-4 response element binds endogenous rat liver HNF-4 supporting its role in the regulation of MCAD gene expression in vivo. Thus, HNF-4 activates MCAD gene transcription via a complex regulatory element, the architecture of which carries important implications for the structure of HNF-4 response elements in general.
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PMID:Hepatocyte nuclear factor-4 activates medium chain acyl-CoA dehydrogenase gene transcription by interacting with a complex regulatory element. 831 50

Estrogen-related receptor alpha (ERR alpha) is an orphan member of the superfamily of nuclear hormone receptors. ERR alpha was initially isolated based on its sequence homology to the estrogen receptor but is not activated by classic estrogens. To identify possible physiologic functions for this orphan receptor, we cloned the mouse ERR alpha cDNA and used it to characterize the expression of ERR alpha transcripts and to identify potential ERR alpha target genes. RNA in situ hybridization studies detect ERR alpha transcripts in an organ-specific manner through mid- to late embryonic development, with persistent high-level expression in brown adipose tissue and intestinal mucosa. In the adult mouse, ERR alpha is most highly expressed in kidney, heart, and brown adipocytes, tissues which preferentially metabolize fatty acids. Binding site selection experiments show that ERR alpha preferentially binds to an ERR alpha response element (ERRE) containing a single consensus half-site, TNAAGGTCA. An ERRE is present in the 5'-flanking region of the gene encoding medium-chain acyl coenzyme A dehydrogenase (MCAD), a key enzyme involved in the mitochondrial beta-oxidation of fat. The MCAD nuclear receptor response element 1 (NRRE-1) interacts in vitro with ERR alpha expressed in COS-7 cells. Supershift experiments show that endogenous ERR alpha present in nuclear extracts obtained from a brown fat tumor cell line (HIB) interacts with NRRE-1. In the absence of its putative ligand, ERR alpha does not activate the MCAD promoter in transient transfection studies; however, a VP16-ERR alpha chimera activates natural and synthetic promoters containing NRRE-1. In addition, ERR alpha efficiently represses retinoic acid induction mediated by NRRE-1. These results demonstrate that ERR alpha can control the expression of MCAD through the NRRE-1 and thus may play an important role in regulating cellular energy balance in vivo.
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PMID:The orphan nuclear receptor estrogen-related receptor alpha is a transcriptional regulator of the human medium-chain acyl coenzyme A dehydrogenase gene. 927 17

The transcriptome pattern of metabolic genes in vitamin A deficient (VAD) liver has been compared to the vitamin A-sufficient (VAS) state using the Mouse 32k oligonucleotide (70mer) array. In VAD liver there was a decrease in expression of genes encoding enzymes of mitochondrial fatty acid (FA) oxidation; these genes included fatty acyl CoA ligase, carnitine o-palmitoyl transferase 1, medium chain acyl-CoA dehydrogenase, 3-ketoacyl CoA thiolase, and citrate synthase. Particularly affected was peroxisome metabolism, as genes encoding enzymes of peroxisomal FA oxidation and transport proteins were differentially expressed. These genes included those encoding acyl-CoA oxidase 1, the peroxisomal bifunctional enzyme, peroxisomal thiolase, and carnitine o-octanoyl transferase, the enzyme involved in shuttling FAs from the peroxisome to the mitochondrion. Most genes that were differentially expressed with chronic vitamin A depletion were responsive to treatment with all-trans retinoic acid (RA). Consistent with the decreased expression of genes involved in FA oxidation, we found an increase in hepatic macrocytic lipid accumulation and triglyceride levels. The relevant nuclear receptor gene that was differentially expressed in the VAD liver was that encoding the peroxisome proliferator-activated receptor (PPAR) alpha, the mRNA levels for which were decreased in VAD liver and increased with all-trans RA treatment. Down regulation of the PPAR alpha gene is the likely cause of the altered expression pattern of the above metabolic genes in VAD liver.
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PMID:Altered lipid catabolism in the vitamin A deficient liver. 1746 65

Retinoic acid (RA) appears to play an important role in the pathophysiology of liver disease. However, this role remains to be clarified in detail. To explore the role of RA in the liver, transgenic mice that express RA receptor (RAR) alpha-dominant negative form in hepatocytes under the control of albumin promoter and enhancer, were developed. At 4 months of age the RAR alpha- dominant negative form transgenic mice developed microvesicular steatosis and spotty focal necrosis. The enzymes that are involved in mitochondrial beta-oxidation of fatty acids, including very-long-acyl-CoA dehydrogenase, long-acyl-CoA dehydrogenase, and 3-hydroxyacyl-CoA dehydrogenase, were downregulated; in contrast, the enzymes that are involved in peroxisomal beta-oxidation, including acyl-CoA oxidase and bifunctional enzyme, were upregulated. Expression of cytochrome p4,504a10, cytochrome p4,504a12, and cytochrome p4,504a14 was increased, suggesting that omega-oxidation of fatty acids in microsomes was accelerated. In addition, formation of H(2)O(2) and 8-hydroxy-2'-deoxyguanosine was increased. After 12 months of age, these mice developed hepatocellular carcinomaand adenoma of the liver. The incidence of tumor formation increased with age. Expression of beta-catenin and cyclin D1 was enhanced and the TCF-4/beta-catenin complex was increased, whereas the RARalpha/beta-catenin complex was decreased. Feeding on a high-RA diet reversed histological and biochemical abnormalities and inhibited the occurrence of liver tumors. These results suggest that hepatic loss of RA function leads to the development of steatohepatitis and liver tumors. In conclusion, RA plays an important role in preventing hepatocarcinogenesis in association with fatty acid metabolism and Wnt signaling.
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PMID:Role of retinoic acid receptor in steatohepatitis-related tumor formation. 1756 56