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Target Concepts:
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Query: EC:2.7.11.26 (
GSK
)
6,788
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chronic alcohol intake leads to alcoholic cardiomyopathy characterized by cardiac hypertrophy and contractile dysfunction possibly related to the toxicity of the ethanol metabolite
acetaldehyde
. This study examined the impact of augmented
acetaldehyde
exposure on myocardial function, geometry, and insulin signaling via cardiac-specific overexpression of alcohol dehydrogenase (ADH). ADH transgenic and wild-type FVB mice were placed on a 4% alcohol diet for 12 weeks. Echocardiographic, glucose tolerance, glucose uptake, insulin signaling, and ER stress indices were evaluated. Mice consuming alcohol exhibited glucose intolerance, dampened cardiac glucose uptake, cardiac hypertrophy and contractile dysfunction, all of which with the exception of whole body glucose tolerance were exaggerated by the ADH transgene. Cardiomyocytes from ethanol-fed mice exhibited depressed insulin-stimulated phosphorylation insulin receptor (tyr1146) and IRS-1 (tyrosine) as well as enhanced serine phosphorylation of IRS-1. ADH-augmented alcohol-induced effect of IRS-1 phosphorylation (tyrosine/serine). Neither alcohol nor adh affected expression of insulin receptor and IRS-1. Alcohol reduced phosphorylation of Akt and
GSK
-3beta as well as
GSK
-3beta expression and the effect was exaggerated by ADH. The transcriptional factors GATA4, c-jun and c-jun phosphorylation were upregulated by alcohol, which was amplified by ADH. The ratios of phospho-c-Jun/c-Jun and phospho-GATA4/GATA4 remained unchanged. Chronic alcohol intake upregulated expression of the endoplasmic reticulum stress markers eIF2alpha, IRE-1alpha, GRP78 and gadd153, the effect of which was exaggerated by ADH. These data suggest that elevated cardiac
acetaldehyde
exposure via ADH may exacerbate alcohol-induced myocardial dysfunction, hypertrophy, insulin insensitivity and ER stress, indicating a key role of ADH gene in alcohol-induced cardiac dysfunction and insulin resistance.
...
PMID:Cardiac overexpression of alcohol dehydrogenase exacerbates chronic ethanol ingestion-induced myocardial dysfunction and hypertrophy: role of insulin signaling and ER stress. 1847 4
Chronic alcohol intake leads to insulin resistance and alcoholic cardiomyopathy, which appears to be a result of the complex interaction between genes and environment. This study was designed to examine the impact of aldehyde dehydrogenase-2 (ALDH2) transgenic overexpression on alcohol-induced insulin resistance and myocardial injury. ALDH2 transgenic mice were produced using chicken beta-actin promoter. Wild-type FVB and ALDH2 mice were fed a 4% alcohol or control diet for 12 weeks. Cell shortening was evaluated using an edge-detection system. Western blot analysis was used to assess insulin signaling at the levels of receptor, IRS, Akt,
GSK
-3beta, the transcription factors Foxo3a, c-Jun amino-terminal kinase (JNK) and c-Jun. Chronic alcohol intake led to glucose intolerance, reduced glucose uptake, cardiac hypertrophy and reduced cell shortening, the effects of which were alleviated by ALDH2. ALDH2 significantly attenuated alcohol-induced decrease in the insulin-stimulated tyrosine phosphorylation and increase in serine phosphorylation of IRS. Phosphorylation of Akt,
GSK
-3beta and Foxo3a was reduced following alcohol intake, the effect of which was abrogated by ALDH2. Levels of JNK, c-Jun and their phosphorylation were elevated following chronic alcohol intake, which were obliterated by ALDH2. Transfection of H9C2 myoblast cells with Foxo3a adenovirus mimicked
acetaldehyde
-induced JNK activation and glucose uptake defect whereas the dominant negative Foxo3a ablated
acetaldehyde
-elicited insulin insensitivity. In addition, ALDH2 reversed alcohol-induced myocardial ER stress. These data revealed that ALDH2 overexpression antagonizes chronic alcohol intake-induced cardiac insulin insensitivity and contractile defect, possibly via improvement of insulin signaling at the levels of insulin receptor, IRS, Akt, Foxo3a and JNK.
...
PMID:Aldehyde dehydrogenase-2 (ALDH2) ameliorates chronic alcohol ingestion-induced myocardial insulin resistance and endoplasmic reticulum stress. 1934 27
Chronic intake of alcohol results in multiple organ damage including brain. This study was designed to examine the impact of facilitated
acetaldehyde
breakdown via transgenic overexpression of mitochondrial aldehyde dehydrogenase-2 (ALDH2) on alcohol-induced cerebral cortical injury. ALDH2 transgenic mice were produced using the chicken beta-actin promoter. Wild-type FVB and ALDH2 mice were placed on a 4% alcohol or control diet for 12 weeks. Protein damage and apoptosis were evaluated with carbonyl formation, caspase and TUNEL assays. Western blot was performed to examine expression (or its activation) of ALDH2, the pro- and anti-apoptotic proteins caspase-8, Bax, Bcl-2, Omi/HtrA2, apoptosis repressor with caspase recruitment domain (ARC), FLICE-like inhibitory protein (FLIP), X-linked inhibitor of apoptosis protein (XIAP), Akt,
glycogen synthase kinase-3beta
(GSK-3beta), p38, c-Jun N-terminal kinase (JNK) and extracellular signal-regulated kinase (ERK). Chronic alcohol intake led to elevated apoptosis in the absence of overt protein damage, the effect of which was ablated by the overexpression of ALDH2 transgene. Consistently, ALDH2 transgene significantly attenuated alcohol-induced upregulation of Bax, Omi/HtrA2 and XIAP as well as downregulation of Bcl-2 and ARC without affecting alcohol-induced increase of FLIP in cerebral cortex. Phosphorylation of Akt and
GSK
-3beta was dampened while total/phosphorylated JNK and p38 phosphorylation were elevated following chronic alcohol intake, the effects of which were abrogated by ALDH2 transgene. Expression of total Akt,
GSK
-3beta, p38 and ERK (total or phosphorylated) was not affected by either chronic alcohol intake or ALDH2 transgene. Our results suggested that transgenic overexpression of ALDH2 rescues chronic alcoholism-elicited cerebral injury possibly via a mechanism associated with Akt,
GSK
-3beta, p38 and JNK signaling.
...
PMID:Aldehyde dehydrogenase-2 transgene ameliorates chronic alcohol ingestion-induced apoptosis in cerebral cortex. 1942 58
Alcohol consumption leads to myocardial contractile dysfunction possibly due to the toxicity of ethanol and its major metabolite
acetaldehyde
. This study was designed to examine the influence of mitochondrial aldehyde dehydrogenase-2 (ALDH2) knockout (KO) on acute ethanol exposure-induced cardiomyocyte dysfunction. Wild-type (WT) and ALDH2 KO mice were subjected to acute ethanol (3g/kg, i.p.) challenge and cardiomyocyte contractile function was assessed 24h later using an IonOptix edge detection system. Western blot analysis was performed to evaluate ALDH2, protein phosphatase 2A (PP2A), phosphorylation of Akt, and
glycogen synthase kinase-3beta
(GSK-3beta). ALDH2 KO accentuated ethanol-induced elevation in cardiac
acetaldehyde
levels. Ethanol exposure depressed cardiomyocyte contractile function including decreased cell shortening amplitude and maximal velocity of shortening/relengthening as well as prolonged relengthening duration and a greater decline in peak shortening in response to increasing stimulus frequency, the effect of which was significantly exaggerated by ALDH2 KO. ALDH2 KO also unmasked an ethanol-induced prolongation of shortening duration. In addition, short-term in vitro incubation of ethanol-induced cardiomyocyte mechanical defects was exacerbated by the ALDH inhibitor cyanamide. Ethanol treatment dampened phosphorylation of Akt and
GSK
-3beta associated with upregulated PP2A, which was accentuated by ALDH2 KO. ALDH2 KO aggravated ethanol-induced decrease in mitochondrial membrane potential. These results suggested that ALDH2 deficiency led to worsened ethanol-induced cardiomyocyte function, possibly due to upregulated expression of protein phosphatase, depressed Akt activation, and subsequently impaired mitochondrial function. These findings depict a critical role of ALDH2 in the pathogenesis of alcoholic cardiomyopathy.
...
PMID:Aldehyde dehydrogenase 2 knockout accentuates ethanol-induced cardiac depression: role of protein phosphatases. 2036 83
