Heidi M Medford scite author profile

Aims Protein O-GlcNAcylation is both a nutrient sensing and cellular stress response that mediates signal transduction in the heart. Chronically elevated O-GlcNAc has been associated with the development of cardiac dysfunction at both the cellular and organ levels in obesity, insulin resistance and diabetes. Development of these pathologies is often attributed to diets high in saturated fat and sugar (a “Western” diet; WES) but a role for O-GlcNAc in diet-induced cardiac dysfunction has not been established. The aims of this study were to examine the effect of chronic consumption of WES on cardiac O-GlcNAcylation and investigate associations of O-GlcNAc with cardiac function and markers of cellular stress. Main methods Young male rats received either a control diet (CON; n=9) or WES (n=8) diet for 52 weeks. Key findings There was no evidence of cardiac dysfunction, advanced glycation endproduct (AGE) accumulation, pathological cardiac hypertrophy, calcium handling impairment, fibrosis or endoplasmic reticulum stress in WES hearts. However, cardiac O-GlcNAc protein, particularly in the higher molecular weight range, was significantly higher in WES hearts compared to CON (P<0.05). Protein levels of the enzymes that regulate O-GlcNAc attachment were not different between groups; thus, the increased O-GlcNAcylation in WES hearts appears to be due to increased nutrient availability rather than enzymatic regulation of cellular stress. Significance These data suggest that diets high in saturated fat and sugar may contribute to the adverse effects of metabolic syndrome and diabetes by an O-GlcNAc-mediated process and that this may occur in the absence of overt cellular stress.

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Immediate effects of a single exercise bout on protein O-GlcNAcylation and chromatin regulation of cardiac hypertrophy

Medford

Porter

Marsh

2013

American Journal of Physiology-Heart and Circulatory Physiology

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Cardiac hypertrophy induced by pathological stimuli is regulated by a complex formed by the repressor element 1-silencing transcription factor (REST) and its corepressor mSin3A. We previously reported that hypertrophic signaling is blunted by O-linked attachment of β-N-acetylglucosamine (O-GlcNAc) to proteins. Regular exercise induces a physiological hypertrophic phenotype in the heart that is associated with decreased O-GlcNAc levels, but a link between O-GlcNAc, the REST complex, and initiation of exercise-induced cardiac hypertrophy is not known. Therefore, mice underwent a single 15- or 30-min bout of moderate- to high-intensity treadmill running, and hearts were harvested immediately and compared with sedentary controls. Cytosolic O-GlcNAc was lower (P < 0.05) following 15 min exercise with no differences in nuclear levels (P > 0.05). There were no differences in cytosolic or nuclear O-GlcNAc levels in hearts after 30 min exercise (P > 0.05). Cellular compartment levels of O-GlcNAc transferase (OGT, the enzyme that removes the O-GlcNAc moiety from proteins), REST, mSin3A, and histone deacetylases (HDACs) 1, 2, 3, 4, and 5 were not changed with exercise. Immunoprecipitation revealed O-GlcNAcylation of OGT and HDACs 1, 2, 4, and 5 that was not changed with acute exercise; however, exercised hearts did exhibit lower interactions between OGT and REST (P < 0.05) but not between OGT and mSin3A. These data suggest that hypertrophic signaling in the heart may be initiated by as little as 15 min of exercise via intracellular changes in protein O-GlcNAcylation distribution and reduced interactions between OGT and the REST chromatin repressor.

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Cardioprotection requires flipping the ‘posttranslational modification’ switch

et al. 2012

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Consuming a Western diet for two weeks suppresses fetal genes in mouse hearts

Medford

Cox

Miller

et al. 2014

American Journal of Physiology-Regulatory, Integrative and Comp

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Diets high in sugar and saturated fat (Western diet) contribute to obesity and pathophysiology of metabolic syndrome. A common physiological response to obesity is hypertension, which induces cardiac remodeling and hypertrophy. Hypertrophy is regulated at the level of chromatin by repressor element 1-silencing transcription factor (REST), and pathological hypertrophy is associated with reexpression of a fetal cardiac gene program. Reactivation of fetal genes is commonly observed in hypertension-induced hypertrophy; however, this response is blunted in diabetic hearts, partially due to upregulation of the posttranslational modification O-linked-β-N-acetylglucosamine (O-GlcNAc) to proteins by O-GlcNAc transferase (OGT). OGT and O-GlcNAc are found in chromatin-modifying complexes, but it is unknown whether they play a role in Western diet-induced hypertrophic remodeling. Therefore, we investigated the interactions between O-GlcNAc, OGT, and the fetal gene-regulating transcription factor complex REST/mammalian switch-independent 3A/histone deacetylase (HDAC). Five-week-old male C57BL/6 mice were fed a Western (n = 12) or control diet (n = 12) for 2 wk to examine the early hypertrophic response. Western diet-fed mice exhibited fasting hyperglycemia and increased body weight (P < 0.05). As expected for this short duration of feeding, cardiac hypertrophy was not yet evident. We found that REST is O-GlcNAcylated and physically interacts with OGT in mouse hearts. Western blot analysis showed that HDAC protein levels were not different between groups; however, relative to controls, Western diet hearts showed increased REST and decreased ANP and skeletal α-actin. Transcript levels of HDAC2 and cardiac α-actin were decreased in Western diet hearts. These data suggest that REST coordinates regulation of diet-induced hypertrophy at the level of chromatin.

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Heidi M Medford

Chronic ingestion of a Western diet increases O-linked-β-N-acetylglucosamine (O-GlcNAc) protein modification in the rat heart

Immediate effects of a single exercise bout on protein O-GlcNAcylation and chromatin regulation of cardiac hypertrophy

Cardioprotection requires flipping the ‘posttranslational modification’ switch

Consuming a Western diet for two weeks suppresses fetal genes in mouse hearts

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