Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
 5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The polyol pathway in diabetes is activated in tissues that are not dependent on insulin for glucose uptake. To examine the role of the polyol pathway in renal extracellular matrix accumulation, we incubated murine proximal tubule cells in either normal or high glucose concentration in the presence or absence of the aldose reductase inhibitor sorbinil. Rising medium glucose from 100 to 450 mg/dl for 72 hours increased cell sorbitol levels sevenfold. Addition of 0.4 mM sorbinil reduced sorbitol content to virtually undetectable levels as measured by gas chromatography. Sorbinil (0.1 to 0.2 mM) also reduced the secretion of collagens types IV and I in the high glucose concentration after 48 to 72 hours but had no appreciable effect in the normal glucose concentration. Concordantly, 0.1 mM sorbinil inhibited the high glucose-induced stimulation of alpha 1(IV) and alpha 2(I) mRNA levels without affecting levels in normal glucose concentration. To study the role of transcriptional activation of collagen genes, we transfected proximal tubule cells with a chloramphenicol acetyltransferase (CAT) reporter gene linked to the promoter and regulatory elements of alpha 1(IV) gene. CAT activity increased several-fold in the cells grown in the high versus normal glucose concentration; this transcriptional activation in culture media containing high glucose concentration was reduced by treatment of the cells with 0.1 mM sorbinil. Thus, high ambient glucose activates the polyol pathway in proximal tubule cells, and may mediate the high glucose-induced stimulation of gene expression for collagens types IV and I.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Polyol pathway mediates high glucose-induced collagen synthesis in proximal tubule. 819 67

The promoter region of the human aldose reductase gene has been identified upstream of the translation start ATG codon. The promoter contains a TATA box, a CCAAT promoter element, and three Sp1 protein binding consensus sequences upstream of the capsite. A 640-base pair insert spanning +31 to -609 directs expression of the reporter gene chloramphenicol acetyltransferase in an orientation-specific manner in transfected Hep G2 cells. The promoter activity remained constant with deletions from base pairs -609 to -186. The TATA and the CCAAT consensus sequences show significant promoter activity, whereas the three Sp1 binding consensus sequences, individually, have no significant promoter activity. A GA-rich region (-186 to -146) contains two CGGAAA/G motifs, which show promoter activity and interaction with Hep G2 nuclear extract and GA-binding proteins (GABP alpha and GABP beta 1) as shown by mobility shift assays and DNase I footprinting. Similar cis-elements in herpes simplex virus type 1 interact with rat liver GABP and the viral VP16 protein to mediate the induction of immediate early viral genes. A GC-rich region (-87 to -31) is identified by mobility shift assay, and a consensus sequence of an androgen response element is present at -396 to -382. The human aldose reductase promoter, thus, has regulatory response elements that may be important during early development and puberty. These regulatory elements may play a significant role in the development of certain diabetic complications.
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PMID:Characterization of the human aldose reductase gene promoter. 834 Apr 27

Aldose reductase (EC 1.1.1.21) catalyzes the NADPH-mediated conversion of glucose to sorbitol. The hyperglycemia of diabetes increases sorbitol production primarily through substrate availability and is thought to contribute to the pathogenesis of many diabetic complications. Increased sorbitol production can also occur at normoglycemic levels via rapid increases in aldose reductase transcription and expression, which have been shown to occur upon exposure of many cell types to hyperosmotic conditions. The induction of aldose reductase transcription and the accumulation of sorbitol, an organic osmolyte, have been shown to be part of the physiological osmoregulatory mechanism whereby renal tubular cells adjust to the intraluminal hyperosmolality during urinary concentration. Previously, to explore the mechanism regulating aldose reductase levels, we partially characterized the human aldose reductase gene promoter present in a 4.2-kb fragment upstream of the transcription initiation start site. A fragment (-192 to +31 bp) was shown to contain several elements that control the basal expression of the enzyme. In this study, we examined the entire 4.2-kb human AR gene promoter fragment by deletion mutagenesis and transfection studies for the presence of osmotic response enhancer elements. An 11-bp nucleotide sequence (TGGAAAATTAC) was located 3.7 kb upstream of the transcription initiation site that mediates hypertonicity-responsive enhancer activity. This osmotic response element (ORE) increased the expression of the chloramphenicol acetyltransferase reporter gene product 2-fold in transfected HepG2 cells exposed to hypertonic NaCl media as compared with isoosmotic media. A more distal homologous sequence is also described; however, this sequence has no osmotic enhancer activity in transfected cells. Specific ORE mutant constructs, gel shift, and DNA fragment competition studies confirm the nature of the element and identify specific nucleotides essential for enhancer activity. A plasmid construct containing three repeat OREs and a heterologous promoter increased expression 8-fold in isoosmotic media and an additional 4-fold when the transfected cells are subjected to hyperosmotic stress (total approximately 30-fold). These findings will permit future studies to identify the transcription factors involved in the normal regulatory response mechanism to hypertonicity and to identify whether and how this response is altered in a variety of pathologic states, including diabetes.
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PMID:Characterization of the osmotic response element of the human aldose reductase gene promoter. 871 Sep 21

Aldose reductase (AR; EC 1.1.1.21) is an oxidoreductase that catalyzes the NADPH-dependent conversion of glucose to sorbitol, the first step of the polyol pathway. AR is of great interest due to its implication in the etiology of diabetic complications. In renal medullary cells, AR also plays an osmoregulatory role by accumulating sorbitol to maintain the intracellular osmotic balance during antidiuresis. We have previously cloned the AR cDNA from mouse kidney, and we report here the isolation of the mouse AR gene promoter. Transient transfection of chloramphenicol acetyltransferase reporter constructs containing various 5'-flanking regions of the mouse AR gene in CV1 cells led to the identification of a sequence spanning base pairs -1053 to -1040, required for an enhancer activity in hypertonic compared with isotonic cell culture conditions. This sequence is similar to the tonicity-responsive element first characterized in the betaine-gamma-aminobutyric acid transporter promoter.
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PMID:Isolation of the mouse aldose reductase promoter and identification of a tonicity-responsive element. 900 94

The MVDP (mouse vas deferens protein) gene, which encodes an aldose reductase-like enzyme, is mainly expressed in vas deferens epithelium and adrenal cortex. Vas deferens MVDP gene transcription was known to be under androgenic control, we now have evidence for androgen and probable ACTH responsiveness of the MVDP gene in the adrenal. To analyze the role of potential regulatory regions in hormonal, developmental, and tissue-specific aspects of MVDP regulation, we generated transgenic mice harboring MVDP-CAT fusion genes. The constructs carried either -1.8 or -0.5 kb 5'-flanking sequence attached to the chloramphenicol acetyltransferase gene in presence or absence of a 3.5-kb intragenic fragment in a downstream position. We show that at least two regions ensure proper gene regulation in vivo. The first, located within the 1.8-kb promoter fragment, directs tissue specificity; positive elements necessary for vas deferens and adrenal expression lay within positions -1804 to -510 and -510 to +41, respectively. The second, located within the 3.5-kb intragenic fragment spanning intron 1 to intron 2, increases percentage of expressing lines and behaves as a vas deferens-specific enhancer. Hormonal and developmental control of transgenes closely parallel endogenous gene regulation. Androgen and ACTH responsiveness in adrenals is conferred by 0.5-kb promoter, whereas in vas deferens, full androgenic response of the 1.8-kb promoter required the 3.5-kb intragenic fragment. Thus, vas deferens and adrenals use distinct cis-acting elements to direct and regulate the expression of the MVDP gene.
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PMID:5'-flanking and intragenic sequences confer androgenic and developmental regulation of mouse aldose reductase-like gene in vas deferens and adrenal in transgenic mice. 1006 61