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Multiethnic Meta-Analysis Identifies RAI1 as a Possible Obstructive Sleep Apnea-related Quantitative Trait Locus in Men.
Chen, H, Cade, BE, Gleason, KJ, Bjonnes, AC, Stilp, AM, Sofer, T, Conomos, MP, Ancoli-Israel, S, Arens, R, Azarbarzin, A, et al
American journal of respiratory cell and molecular biology. 2018;(3):391-401
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Abstract
Obstructive sleep apnea (OSA) is a common heritable disorder displaying marked sexual dimorphism in disease prevalence and progression. Previous genetic association studies have identified a few genetic loci associated with OSA and related quantitative traits, but they have only focused on single ethnic groups, and a large proportion of the heritability remains unexplained. The apnea-hypopnea index (AHI) is a commonly used quantitative measure characterizing OSA severity. Because OSA differs by sex, and the pathophysiology of obstructive events differ in rapid eye movement (REM) and non-REM (NREM) sleep, we hypothesized that additional genetic association signals would be identified by analyzing the NREM/REM-specific AHI and by conducting sex-specific analyses in multiethnic samples. We performed genome-wide association tests for up to 19,733 participants of African, Asian, European, and Hispanic/Latino American ancestry in 7 studies. We identified rs12936587 on chromosome 17 as a possible quantitative trait locus for NREM AHI in men (N = 6,737; P = 1.7 × 10-8) but not in women (P = 0.77). The association with NREM AHI was replicated in a physiological research study (N = 67; P = 0.047). This locus overlapping the RAI1 gene and encompassing genes PEMT1, SREBF1, and RASD1 was previously reported to be associated with coronary artery disease, lipid metabolism, and implicated in Potocki-Lupski syndrome and Smith-Magenis syndrome, which are characterized by abnormal sleep phenotypes. We also identified gene-by-sex interactions in suggestive association regions, suggesting that genetic variants for AHI appear to vary by sex, consistent with the clinical observations of strong sexual dimorphism.
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Cyclic adenosine monophosphate-regulated transcriptional co-activator 3 polymorphism in Chinese patients with acute coronary syndrome.
Zhu, L, Wang, Y, Jiang, J, Zhou, R, Ye, J
Medicine. 2018;(27):e11382
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Abstract
To investigate the cAMP-regulated transcriptional co-activator 3 (CRTC3) polymorphism and its significance in the acute coronary syndrome patients.In total, 248 patients with acute coronary syndrome admitted to Taizhou People's Hospital between March 2016 and October 2016 were included in this study. Eighty-eight age- and gender-matched healthy individuals received physical examination in our hospital served as normal control. Single nucleotide polymorphism (SNP) analysis of CRTC3 (rs3862434 and rs11635252) was evaluated using PCR amplification.For the SNP of CRTC3, significant differences were identified in rs3862434 (AA/AG) and rs11635252 (TT/CT/CC) between the 2 groups (P < .05). Statistical increase was noticed in the high density lipoprotein cholesterol (HDL-C) in those with AG phenotype compared with those with AA phenotype in those with rs3862434. Significant decrease was identified in the total cholesterol (TC), triglyceride (TG), and weight in those with CC phenotype compared with those with CT phenotype among the cases with rs11635252 (P < .05).CRTC3 polymorphism was associated with the onset of acute coronary syndrome in Han Chinese patients, which may be related to the imbalance of the lipid metabolism.
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Barth Syndrome: Connecting Cardiolipin to Cardiomyopathy.
Ikon, N, Ryan, RO
Lipids. 2017;(2):99-108
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Abstract
The Barth syndrome (BTHS) is caused by an inborn error of metabolism that manifests characteristic phenotypic features including altered mitochondrial membrane phospholipids, lactic acidosis, organic acid-uria, skeletal muscle weakness and cardiomyopathy. The underlying cause of BTHS has been definitively traced to mutations in the tafazzin (TAZ) gene locus on chromosome X. TAZ encodes a phospholipid transacylase that promotes cardiolipin acyl chain remodeling. Absence of tafazzin activity results in cardiolipin molecular species heterogeneity, increased levels of monolysocardiolipin and lower cardiolipin abundance. In skeletal muscle and cardiac tissue mitochondria these alterations in cardiolipin perturb the inner membrane, compromising electron transport chain function and aerobic respiration. Decreased electron flow from fuel metabolism via NADH ubiquinone oxidoreductase activity leads to a buildup of NADH in the matrix space and product inhibition of key TCA cycle enzymes. As TCA cycle activity slows pyruvate generated by glycolysis is diverted to lactic acid. In turn, Cori cycle activity increases to supply muscle with glucose for continued ATP production. Acetyl CoA that is unable to enter the TCA cycle is diverted to organic acid waste products that are excreted in urine. Overall, reduced ATP production efficiency in BTHS is exacerbated under conditions of increased energy demand. Prolonged deficiency in ATP production capacity underlies cell and tissue pathology that ultimately is manifest as dilated cardiomyopathy.
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Mis-sesnse mutations in Tafazzin (TAZ) that escort to mild clinical symptoms of Barth syndrome is owed to the minimal inhibitory effect of the mutations on the enzyme function: In-silico evidence.
Debnath, S, Addya, S
Interdisciplinary sciences, computational life sciences. 2015;(1):21-35
Abstract
Tafazzin (EC 2.3.1.23) is a Phospholipid Transacylase involved in Cardiolipin remodeling on mitochondrial membrane and coded by TAZ gene (Cytogenetic Location: Xq28) in human. Its mutations cause Barth syndrome (MIM ID #302060)/3-Methyl Glutaconyl Aciduria Type II, an inborn error of metabolism often leading to foetal or infantile fatality. Nevertheless, some mis-sense mutations result in mild clinical symptoms. To evaluate the rationale of mild symptoms and for an insight of Tafazzin active site, sequence based and structure based ramifications of wild and mutant Tafazzins were compared in-silico. Sequence based domain predictions, surface accessibilities on substitution & conserved catalytic sites with statistical drifts, as well as thermal stability changes for the mutations and the interaction analysis of Tafazzin were performed. Crystal structure of Tafazzin is not yet resolved experimentally, therefore 3D coordinates of Tafazzin and its mutants were spawned through homology modeling. Energetically minimized and structurally validated models were used for comparative docking simulations. We analyzed active site geometry of the models in addition to calculating overall substrate binding efficiencies for each of the enzyme-ligand complex deduced from binding energies instead of comparing only the docking scores. Also, individual binding energies of catalytic residues on conserved HX4D motif of Acyltransferase superfamily present in Tafazzins were estimated. This work elucidates the basis of mild symptoms in patients with mis-sense mutations, identifies the most pathogenic mutant among others in the study and also divulges the critical role of HX4D domain towards successful transacylation by Taffazin. The in-silico observations are in complete agreement with clinical findings reported for the patients with mutations.
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Mediators involved in the cancer anorexia-cachexia syndrome: past, present, and future.
Argilés, JM, Busquets, S, García-Martínez, C, López-Soriano, FJ
Nutrition (Burbank, Los Angeles County, Calif.). 2005;(9):977-85
Abstract
The cachectic syndrome, characterized by a marked weight loss, anorexia, asthenia, and anemia is invariably associated with the presence and growth of the tumor and leads to a malnutrition status due to the induction of anorexia or decreased food intake. In addition, the competition for nutrients between the tumor and the host leads to an accelerated starvation state, which promotes severe metabolic disturbances in the host, including hypermetabolism, which leads to an increased energetic inefficiency. Although the search for the cachectic factor(s) started a long time ago, and although many scientific and economic efforts have been devoted to its discovery, we are still a long way from knowing the whole truth. Present investigation is devoted to revealing the different signaling pathways, in particular transcriptional factors involved in muscle wasting. The main aim of the present review is to summarize and evaluate the different molecular mechanisms and catabolic mediators (both humoral and tumoral) involved in cancer cachexia since they may represent targets for future promising clinical investigations.
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PPARs and the complex journey to obesity.
Evans, RM, Barish, GD, Wang, YX
Nature medicine. 2004;(4):355-61
Abstract
Obesity and the related disorders of dyslipidemia and diabetes (components of syndrome X) have become global health epidemics. Over the past decade, the elucidation of key regulators of energy balance and insulin signaling have revolutionized our understanding of fat and sugar metabolism and their intimate link. The three 'lipid-sensing' peroxisome proliferator-activated receptors (PPAR-alpha, PPAR-gamma and PPAR-delta) exemplify this connection, regulating diverse aspects of lipid and glucose homeostasis, and serving as bona fide therapeutic targets. With molecular underpinnings now in place, new pharmacologic approaches to metabolic disease and new questions are emerging.
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Fasting plasma free fatty acid concentrations and Pro12Ala polymorphism of the peroxisome proliferator-activated receptor (PPAR) gamma2 gene in healthy individuals.
Vaccaro, O, Mancini, FP, Ruffa, G, Sabatino, L, Iovine, C, Masulli, M, Colantuoni, V, Riccardi, G
Clinical endocrinology. 2002;(4):481-6
Abstract
BACKGROUND The Pro12Ala polymorphism of the peroxisome proliferator-activated receptor (PPAR) gamma gene has been associated in some, but not all, studies with lower body mass index (BMI) and improved insulin sensitivity; how an altered transcriptional activity of PPARgamma2 could influence insulin sensitivity is currently unclear. The free fatty acids (FFAs) released from adipose tissue triglycerides via lipolysis are key mediators of impaired insulin sensitivity; however, no study has described the relationship of the Pro12Ala mutation with circulating levels of FFAs under physiological conditions. OBJECTIVE To investigate in a population-based sample of Caucasians the relation of the Pro12Ala polymorphism with plasma concentrations of FFAs and other markers of lipid and glucose metabolism described as components of the insulin resistance syndrome. SUBJECTS Four hundred and thirty-eight nondiabetic employees of the Italian Telephone Company, aged 35-65 years, randomly selected from a total population of 3900 participants in a company-sponsored health screening. MEASUREMENTS The Pro12Ala polymorphism of the PPARgamma was studied together with plasma FFAs, insulin, glucose, triglycerides, high density lipoprotein (HDL) cholesterol, blood pressure and anthropometry. The Homeostatic Model Assessment (HOMA) index was calculated as a measure of insulin resistance. RESULTS Carriers and noncarriers of the Pro12Ala polymorphism showed very similar circulating levels of FFA (0.46 +/- 0.2 vs. 0.47 +/- 0.2, NS); plasma glucose, triglycerides, HDL cholesterol and blood pressure were also similar in the two groups with or without the polymorphism. To allow for the possible confounding effect of obesity, a separate analysis was conducted in overweight (BMI > or = 25 kg/m(2)) and normal-weight people (BMI < 25 kg/m(2)). Circulating plasma FFA concentrations, as well as triglycerides, blood pressure and HOMA, were significantly higher in overweight than normal-weight, as expected, but no significant differences were detected between carriers and noncarriers of the Pro12Ala polymorphism within each BMI group (0.49 +/- 0.2 vs. 0.48 +/- 0.2, NS, and 0.44 +/- 0.2 vs. 0.47 +/- 0.2, NS, in overweight and normal-weight, respectively). The Pro12Ala polymorphism was also analysed across increasing quartiles of FFA concentrations and no relationship was observed between the frequency of the polymorphism and FFA values (overall chi2 = 0.48, NS). CONCLUSION This study does not show any relationship between the Pro12Ala polymorphism of the PPARgamma gene and fasting FFAs in the general population. The possibility of a different handling of FFAs under different conditions (i.e. postprandial) cannot be excluded and remains to be explored.
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Pro12Ala mutation in the peroxisome proliferator-activated receptor gamma2 (PPARgamma2) and severe obesity: a case-control study.
Vaccaro, O, Mancini, FP, Ruffa, G, Sabatino, L, Colantuoni, V, Riccardi, G
International journal of obesity and related metabolic disorders : journal of the International Association for the Study of Obesity. 2000;(9):1195-9
Abstract
OBJECTIVE To explore the association of the Pro12Ala mutation in the peroxisome proliferator-activated receptor gamma2 with severe obesity and the features of the metabolic syndrome in a population-based sample of Caucasians. PARTICIPANTS AND METHODS The study is based on a case-control design: 95 non-diabetic severely obese (body mass index, BMI > 35 kg/m2) cases and 280 normal weight (BMI < 25 kg/m2), age- and sex-matched controls selected from the same population were studied. Height, weight, waist circumference, as well as blood pressure were measured according to a standard protocol. BMI at age 25 y was calculated on the basis of current height and reported weight at age 25 y Biochemical measurements included fasting glucose, triglycerides, high-density lipoprotein cholesterol and insulin. DNA analysis was conducted by PCR and gel electrophoresis. RESULTS Age and gender distribution were similar in obese and normal weight participants. The percentage of people with the Pro12Ala mutation was not significantly different in obese or normal weight participants (20% and 15%, respectively; P = 0.32). Conversely, in obese participants with obesity starting in early adulthood (ie with BMI at age 25 above 26.9kg/m2 which represents the median of the whole obese group), the Pro12Ala mutation was observed significantly more frequently than in the normal weight controls (29% vs 15%; chi square = 4.5, P < 0.05; odds ratio 2.4; 95% CI 1.03-5.36). No association of the Pro12Ala variant with any of the component of the metabolic syndrome measured in the study was observed in either obese, juvenile obese or normal weight participants. CONCLUSIONS Results of this study indicate that the Pro12Ala mutation does not play a major role as a determinant of severe obesity and/or features of the metabolic syndrome in the general population. However, this mutation may be of greater importance as a contributor to early onset obesity.