Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.1.1.1 (alcohol dehydrogenase)
 9,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The integration of growth and the acute-phase response is investigated by comparing the mRNA levels in rat liver during acute inflammation with those after partial hepatectomy. Northern analysis is carried out for the mRNAs for thiostatin, alpha 2-macroglobulin, alpha 1-antitrypsin, inter-alpha-trypsin inhibitor subunit 1, haptoglobin, ceruloplasmin, transferrin, vitamin D-binding protein, alpha 1-acid glycoprotein, beta-fibrinogen, apolipoproteins A-IV and E, albumin, transthyretin, alpha 2-HS-glycoprotein, retinol-binding protein, beta-tubulin, c-myc protooncogene, glyceraldehyde-3-phosphate dehydrogenase, phosphoenolpyruvate carboxykinase, ornithine transcarbamylase, and alcohol dehydrogenase. The acute-phase response dominates during the first 18 h. Changes in mRNA levels related to growth of the liver become important thereafter, and the capacity for an acute-phase response of plasma protein synthesis becomes greatly reduced. The early increase in the level of ceruloplasmin mRNA observed during inflammation is abolished during regeneration, and that of vitamin D-binding protein mRNA is converted into a decrease. The mRNAs levels of glyceraldehyde-3-phosphate dehydrogenase increase, and those for phosphoenolpyruvate carboxykinase decrease during regeneration. Ornithine transcarbamylase mRNA levels are found to exhibit negative acute-phase regulation. The pattern of transcriptional regulation is similar during inflammation and regeneration.
 ...
PMID:Gene expression in regenerating and acute-phase rat liver. 169 35

The present study was designed to investigate the interaction of age and ethanol on vitamin A status in rats. Rats aged 2 and 19 mo were fed a liquid diet containing 36% of total energy as ethanol or pair-fed a diet containing isoenergetic carbohydrate in place of ethanol. After 3 wk older rats had lower serum retinol (P = 0.04) and higher vitamin A concentrations in liver (P = 0.0001), esophagus (P = 0.0001) and the proximal (P = 0.03) and distal (P = 0.0001) colon than younger animals. Hepatic microsomal cytochrome P-450, retinyl ester hydrolase (REH) and cellular retinol-binding protein (cRBP) were significantly reduced; acyl coenzyme A: retinol acyltransferase (ARAT) was increased; and alcohol (retinol) dehydrogenase (ADH) activity was unchanged with age. Ethanol ingestion increased serum retinol as well as esophageal and colonic vitamin A levels in both age groups. Hepatic cRBP decreased further in the older rats with ethanol feeding, but no change was noted in the percentage of hepatic vitamin A as retinol or retinyl esters. Ethanol ingestion decreased REH (P = 0.0001) and ARAT activities (P = 0.02) and increased cytochrome P-450 (P = 0.04) but had no effect on the activity of ADH in either age group. These data indicate that, regardless of age, chronic ethanol ingestion significantly alters the tissue distribution of vitamin A; however, ethanol reduced cRBP levels only in older rats.
 ...
PMID:Age-related effects of chronic ethanol intake on vitamin A status in Fisher 344 rats. 200 3

The elevation of hepatic vitamin A (VA) in zinc deficiency (ZD) is thought to be due, in part, to a reduced synthesis of plasma retinol-binding protein with a subsequent decrease in the release of retinol into the circulation. We hypothesized that the hepatic VA elevation may also be secondary to a change in the activity of enzymes that either regulate retinol degradation or affect the synthesis or hydrolysis of retinyl esters. To examine this question, 20 rats were divided into two groups and pair-fed for 3 wk. ZD rats received a ZD diet (zinc 2.3 mg/kg diet) and controls were fed a zinc-sufficient diet (zinc 50 mg/kg diet). The enzymes studied were retinyl ester hydrolase (REH) and microsomal acyl coenzyme A:retinol acyl transferase (ARAT), the principal enzymes regulating retinyl ester hydrolysis and synthesis. The activities of retinol (alcohol) dehydrogenase (ADH) and retinal oxidase (RO), enzymes regulating retinol degradation to polar metabolites, were also studied. ZD caused an increase in both total hepatic VA concentration and total hepatic VA content, but did not alter the ratio of retinol to retinyl esters. The specific activities of REH and ARAT were not affected by ZD. However, ZD caused a significant reduction in the activity of ADH, the enzyme that catalyzes the first step in retinol oxidation. In contrast, the activity of RO, the enzyme that regulates the irreversible oxidation of retinal to retinoic acid, was significantly increased in ZD rats. These findings indicate that the elevation in hepatic levels of VA in ZD rats may be, in part, secondary to decreased retinol degradation.
 ...
PMID:Effect of zinc deficiency on hepatic enzymes regulating vitamin A status. 340 91

Cellular retinol-binding protein (type II) (CRBP(II)), a newly described retinol-binding protein, is present in the small intestinal absorptive cell at high levels. Retinol (vitamin A alcohol) presented as a complex with CRBP(II) was found here to be esterified by microsomal preparations from rat small intestinal mucosa. The esterification observed utilized an endogenous acyl donor(s) and produced retinyl esters containing linoleate, oleate, palmitate, and stearate in a proportion quite similar to that previously reported for retinyl esters in lymph and isolated chylomicrons of rat. No dependence on endogenous or exogenous acyl-CoA could be demonstrated. The apparent Km for retinol-CRBP(II) in the reaction with endogenous acyl donor was 2.4 X 10(-7) M. Retinol presented as a complex with CRBP(II) was esterified more than retinol presented as a complex with cellular retinol-binding protein or retinol-binding protein, two other proteins known to bind retinol in vivo, but about the same as retinol presented bound to bovine serum albumin or beta-lactoglobulin. The ability of protein-bound retinol to be esterified was related to accessibility of the hydroxyl group, as judged by the ability of alcohol dehydrogenase to oxidize the bound retinol. However, whereas retinol bound to CRBP(II) was unavailable for esterification in any acyl-CoA-dependent reaction, retinol bound to bovine serum albumin was rapidly esterified in a reaction utilizing exogenous acyl-CoA. The results suggest that one of the functions of CRBP(II) is to accept retinol after it is absorbed or generated from carotenes in the small intestine and present it to the appropriate esterifying enzyme.
 ...
PMID:Acyl-CoA-independent esterification of retinol bound to cellular retinol-binding protein (type II) by microsomes from rat small intestine. 381 19

Incubation of hepatic microsomes with retinol resulted in formation of retinyl esters and glucuronides. The presence of the cytosolic lipid-protein aggregate (LPA) in the system in addition induced release of holo-retinol-binding protein from the microsomes. The extent of these reactions was influenced by the addition of coenzyme A and ATP, or uridine diphosphate glucuronic acid. Incubation of hepatic microsomes containing labelled retinyl esters with the LPA resulted in the appearance of the labelled retinyl esters in the LPA. Small amounts of retinoic acid were formed on incubation of retinol with microsomes (approximately 1% of added retinol); this was found to be associated with a protein of approximately 14 500 molecular weight, and less than 10% was associated with the LPA. This is in contrast to retinol, which was found to be almost completely associated with the LPA. The cytosolic LPA was associated both with carotene-cleavage activity and alcohol dehydrogenase (NAD(P)+) (EC 1.1.1.71) activity. These findings lend some support to the concept of a specific role for hepatic LPA.
 ...
PMID:Vitamin A metabolism in chick liver: some properties of the cytosolic lipid-protein aggregate. 654 Jan 16

A general summary of typical results involving animal studies is shown in TABLE 7. A consistent and established finding is a reduction of plasma vitamin A concentration in zinc-deficient animals despite diets adequate in vitamin A. However, it appears that the depressed plasma vitamin A is not a result of zinc deficiency per se but rather is nonspecific, resulting from food- and growth-restriction factors associated with zinc deficiency. Food restriction apparently is the critical factor, since both immature and mature nongrowing zinc-deficient animals have exhibited the decreased plasma vitamin A concentration. However, this point needs clarification. Liver vitamin A concentration is usually unaltered by the zinc deficiency, suggesting no defect in absorption or transport to the liver. In regard to retinol-binding protein, it appears from the animal studies that zinc deficiency per se has an effect on both the plasma and liver RBP concentrations. We have hypothesized that zinc deficiency impairs RBP synthesis. It is speculated that only severe zinc deficiency results in a deficit of a sufficient magnitude for impairment of vitamin A metabolism at the cellular level. For example, retinene reductase, an apparent zinc-metallo alcohol dehydrogenase of the retina, appears to be sensitive to a severe zinc deficiency in animal studies. In humans, impaired dark adaptation may be a result of inadequate supplies of the metabolizable zinc necessary to maintain the activity of the enzyme system. Thus, the conversion (dehydrogenation) of vitamin A alcohol to vitamin A aldehyde is impaired, with a resulting abnormality in dark adaptation, i.e., night blindness. Indeed, the limited number of human studies suggest that zinc supplementation may be beneficial to vitamin A metabolism only in conditions where zinc deficiency is prevalent as indicated by low (less than 70 micrograms/100 ml) plasma zinc. Conversely, zinc supplementation is of little benefit in conditions where vitamin A metabolism is altered but zinc status is normal. Therefore, definitive clinical studies involving primary zinc deficiency must be conducted before final conclusions can be made regarding the interrelationships of zinc and vitamin A in health and disease.
 ...
PMID:The vitamin A-zinc connection: a review. 678 55

A retinol dehydrogenase, RoDH(1), which recognizes holo-cellular retinol-binding protein (CRBP) as substrate, has been cloned, expressed, and identified as a short-chain dehydrogenase/reductase (Chai, X., Boerman, M. H. E. M., Zhai, Y., and Napoli, J. L. (1995) J. Biol. Chem. 270, 3900-3904). This work reports the cloning and expression of a cDNA encoding a RoDH isozyme, RoDH(II). The predicted amino acid sequence verifies RoDH(II) as a short-chain dehydrogenase/reductase, 82% identical with RoDH(I). RoDH(II) recognized the physiological form of retinol as substrate, CRBP, with a Km of 2 mM. Similar to microsomal RoDH and RoDH(I), RoDH(II) had higher activity with NADP rather than NAD, was stimulated by ethanol and phosphatidyl choline, was not inhibited by the medium-chain alcohol dehydrogenase inhibitor 4-methylpyrazole, but was inhibited by phenylarsine oxide and the short-chain dehydrogenase/reductase inhibitor carbenoxolone. Northern blot analysis detected RoDH(I) and RoDH(II) mRNA only in rat liver, but RNase protection assays revealed RoDH(I) and RoHD(II) mRNA in kidney, lung, testis, and brain. These data indicate that short-chain dehydrogenases/reductase isozymes expressed tissue-distinctively catalyze the first step of retinoic acid biogenesis from the physiologically most abundant substrate, CRBP.
 ...
PMID:Cloning of a cDNA for a second retinol dehydrogenase type II. Expression of its mRNA relative to type I. 749 45

This study shows that microsomal retinol dehydrogenases, versus cytosolic retinol dehydrogenases, provide the quantitatively major share of retinal for retinoic acid (RA) biogenesis in rat tissues from the predominant substrate available physiologically, holo-cellular retinol-binding protein, type I (CRBP). With holo-CRBP as substrate in the absence of apo-CRBP microsomal retinol dehydrogenases have the higher specific activity and capacity to generate retinal used for RA synthesis by cytosolic retinal dehydrogenases. In the presence of apo-CRBP, a potent inhibitor of cytosolic retinol dehydrogenases (IC50 = approximately 1 microM), liver microsomes provide 93% of the total retinal synthesized in a combination of microsomes and cytosol. Cytosolic retinol dehydrogenase(s) and the isozymes of alcohol dehydrogenase expressed in rat liver had distinct enzymatic properties; yet ethanol inhibited cytosolic retinol dehydrogenase(s) (IC50 = 20 microM) while stimulating RA synthesis in a combination of microsomes and cytosol. At least two discrete forms of cytosolic retinol dehydrogenase were observed: NAD- and NADP-dependent forms. Multiple retinal dehydrogenases also were observed and were inhibited partially by apo-CRBP. These results provide new insights into pathways of RA biogenesis and provide further evidence that they consist of multiple enzymes that recognize both liganded and nonliganded states of CRBP.
 ...
PMID:Cellular retinol-binding protein-supported retinoic acid synthesis. Relative roles of microsomes and cytosol. 862 22

Vitamin A homoeostasis requires the gene encoding cellular retinol-binding protein-1 (Crbp1) which stimulates conversion of retinol into retinyl esters that serve as a storage form of vitamin A. The gene encoding alcohol dehydrogenase-1 (Adh1) greatly facilitates degradative metabolism of excess retinol into retinoic acid to protect against toxic effects of high dietary vitamin A. Crbp1-/-/Adh1-/- double mutant mice were generated to explore whether the stimulatory effect of CRBP1 on retinyl ester formation is due to limitation of retinol oxidation by ADH1, and whether ADH1 limits retinyl ester formation by opposing CRBP1. Compared with wild-type mice, liver retinyl ester levels were greatly reduced in Crbp1-/- mice, but Adh1-/- mice exhibited a significant increase in liver retinyl esters. Importantly, relatively normal liver retinyl ester levels were restored in Crbp1-/-/Adh1-/- mice. During vitamin A deficiency, the additional loss of Adh1 completely prevented the excessive loss of liver retinyl esters observed in Crbp1-/- mice for the first 5 weeks of deficiency and greatly minimized this loss for up to 13 weeks. Crbp1-/- mice also exhibited increased metabolism of a dose of retinol into retinoic acid, and this increased metabolism was not observed in Crbp1-/-/Adh1-/- mice. Our findings suggest that opposing actions of CRBP1 and ADH1 enable a large fraction of liver retinol to remain esterified due to CRBP1 action, while continuously allowing some retinol to be oxidized to retinoic acid by ADH1 for degradative retinoid turnover under any dietary vitamin A conditions.
 ...
PMID:Opposing actions of cellular retinol-binding protein and alcohol dehydrogenase control the balance between retinol storage and degradation. 1519 43