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AIM:To investigate the expression of fatty-acid amide hydrolase(FAAH)in paraventricular nu-cleus(PVN)and its contribution to renal sympathetic nerve activity in rats with chronic heart failure(CHF).METH-ODS:A rat model of CHF was established by ligation of the left coronary artery to induce acute myocardial infarction. Eight weeks after ischemia,the rat model of CHF was identified by echocardiogram and histopathological observation.The plasma level of norepinephrine(NE)was detected by ELISA.The protein expression levels of FAAH in the PVN were de-termined by Western blot.The N-arachidonoylethanolamide(AEA)generation in PVN was analyzed by high-performance liquid chromatography.After microinjection of AEA,PF3845(an FAAH inhibitor)or rAAV2-FAAH shRNA virus in PVN, the sympathetic drive indexes were recorded in different experiment groups.RESULTS: Compared with the rats in sham group,the cardiac function and AEA concentration in PVN were significantly reduced, while the plasma NE level and FAAH expression in PVN were obviously increased in the CHF rats(P<0.05).After microinjecion of PF3845, AEA or rAAV2-FAAH shRNA virus in PVN, the sympathetic drive indexes were decreased significantly and the cardiac function were improved in the CHF rats.CONCLUSION:Upregulated FAAH expression in PVN may result in sympathoexcitation in the rat with CHF.
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<p>Carbohydrate is a crucial energy fuel for exercise, and carbohydrate supplementation as peri-exercise has beneficial effects on exercise performance. However, recent studies have indicated the possibility that periodized carbohydrate restriction improves exercise performance. Carbohydrate restriction before exercise increases fatty-acid oxidation (FAO) and alternatively prevents carbohydrate consumption during exercise. This may contribute to the prevention of muscle glycogen depletion during endurance exercise competition. Additionally, acute and chronic studies have shown that peri-exercise carbohydrate restriction enhances molecular and functional adaptation related to FAO. Similarly, exercise training in a low-muscle glycogen state accompanied by carbohydrate restriction was reported to enhance mitochondrial biogenesis and improve FAO capacity, aerobic capacity, and endurance performance in untrained and highly trained subjects. The potential mechanism of these metabolic adaptations may be related to elevated circulating fatty-acid and adrenaline concentration during exercise with carbohydrate restriction and/or a low-muscle glycogen state. In addition, a decrease in muscle glycogen content may trigger signaling pathways related to FAO and mitochondria biogenesis by activating proteins with a glycogen-binding domain. This article reviews the effects of exercise with carbohydrate restriction and/or low-muscle glycogen state on metabolic adaptation and exercise performance and describes the molecular mechanisms and availability.</p>
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Objective:To investigate the potential association between FADS1 rs1 74537 polymorphism and serum proteins in patients with aggressive periodontitis,which may provide benefits for diagnosis and treatment of aggressive periodontitis.Methods:A total of 353 patients with aggressive periodontitis (group AgP)and 1 25 matched controls (group HP)were recruited in the study.Genotyping of FADS1 rs1 74537 and serum biochemical indexes were tested at the study’s start.The relationships between the levels of TP,GLB,ALB,A/G and genotyping were analyzed.Results:(1 )The detection rate of allele G in group AgP was higher than that in group HP(68.1% vs.61 .2%,P=0.046,OR=1 .35,95% CI 1 .00-1 .83 );the detection rate of genotype GG in group AgP was higher than in group HP(45 .5%vs. 34.4%,P=0.029,OR=1 .60,95%CI 1 .05 -2.44).(2)In group AgP,the patients with GG geno-type exhibited significantly lower TP,GLB than the patients with GT+TT genotype [(77.08 ±7.88)g/L vs.(79.00 ±4.66)g/L,P=0.007;(28.1 7 ±7.63)g/L vs.(29.88 ±3.49)g/L,P=0.007)and the higher A/G(1 .72 ±0.22 vs.1 .67 ±0.22,P=0.040),but there was no significant difference in ALB between the patients with GG genotype and the patients with GT+TT genotype.In group HP,there were no significant differences in TP,GLB,A/G and ALB between individuals with genotype GT+TT and with genotype GG.(3 )Compared with individuals with genotype GT+TT in group HP,the AgP pa-tients with genotype GT +TT exhibited significantly higher TP,GLB [(79.00 ±4.66 ) g/L vs. (75.20 ±4.53)g/L,P<0.01;(29.88 ±3.49)g/L vs.(26.55 ±2.94)g/L,P<0.01 )and the lo-wer A/G(1 .67 ±0.22 vs.1 .88 ±0.30,P<0.01 ),but there was no significant difference in ALB. There were no significant differences in TP,GLB,A/G and ALB the between the AgP patients with ge-notype GG and the healthy subjects with the same genotype either.Conclusion:FADS1 rs1 74537 poly-morphism is associated with aggressive periodontitis.The patients with genotype GG in group AgP had relatively lower TP,GLB and higher A/G.Genotype GG might be a risk indicator for aggressive periodon-titis by reducing host defense capability and contributing to inflammatory response in the occurrence and development of aggressive periodontitis.
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Fatty acid profiles of strains grown under standardized conditions have been used for identification and classification of many bacteria. In this present study, fatty acid analysis of five rhizobial isolates of leguminous tree Pithecellobium dulce at five different localities were carried by gas chromotagraphy, in which totally fifteen fatty acids were identified. But all the fatty acids were not observed in a single isolate though they are isolated from a single species.
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Adipocyte fatty acid-binding protein ( FABP4 ) is abundantly expressed in adipocytes and macrophages, and the physiologic function of this lipid chaperone is involved in the intracellular trafficking and targeting of fatty acids inside cell. Studies have shown that FABP4 plays a significant role in cholesterol metabolism. FABP4 can affect some key gene expression for cholesterol metabolism, thus regulate the metabolism, storage, and trafficking of cholesterol. As the development of FABP4 inhibitors, drugs targeting FABP4 are possible and can lead to a novel therapeutic strategy to prevent and treat obesity, type 2 diabetes, hypercholesterolemia, and atherosclerosis.
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BACKGROUND/AIMS: Loss of liver fatty acid binding protein (LFABP) expression by immunohis-tochemistry is a useful marker for the identification of hepatocyte nuclear factor 1alpha (HNF1alpha)-inactivated hepatocellular adenomas; however, the expression status of LFABP in hepatocel-lular carcinomas (HCCs) is still unclear. We aimed to investigate the expression status of LFABP in HCCs and examine the clinicopathological characteristics of LFABP-negative HCCs. METHODS: Immunohistochemical stains LFABP, K19 (mouse monoclonal, Dako, Glostrup, Den-mark) and EpCAM (mouse monoclonal, Calbiochem, Darmstadt, Germany) were performed on tissue microarray sections from 188 surgically resected HCCs, and the association between LFABP expression status and the clinicopathological features, survival and "stemness"-related marker expression status were analyzed. RESULTS: Loss of LFABP expression was noted in 30 (16%) out of 188 HCCs. LFABP-negative HCCs were associated with a decreased recurrence-free survival (LFABP-negative: 17.0 +/- 4.84 months [95% confidence interval [CI]: 7.5-26.5 months] versus LFABP-positive: 51.0 +/- 8.7 months [95% CI: 34.0-68.0 months]; P=0.004). HCCs with LFABP expression loss were more frequently larger and showed more frequent vascular invasion, although not statistically sig-nificant; and an inverse correlation was seen between LFABP expression and K19 expression status (P=0.001). CONCLUSIONS: Loss of LFABP expression is seen in HCCs, and is associated with a decreased recurrence-free survival.
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Adenoma, Liver Cell , Carcinoma, Hepatocellular , Coloring Agents , Fatty Acid-Binding Proteins , Hepatocyte Nuclear Factor 1-alpha , Liver , PrognosisABSTRACT
BACKGROUND: The gut is capable of inducing multiple organ dysfunction syndrome (MODS). In the diagnosis and treatment of critical ill patients, doctors should pay particular attention to the protection or recovery of intestinal barrier function. However, no reliable diagnostic criteria are available clinically. This study aimed to assess the changes of intestinal mucosal barrier function in surgically critical ill patients as well as their significance. METHODS: Thirty-eight surgically critical ill patients were enrolled as a study group (APACHE II>8 scores), and 15 non-critical ill patients without intestinal dysfunction were selected as a control group (APACHE II<6). General information, symptoms, physical signs, and APACHE II scores of the patients were recorded. The patients in the study group were subdivided into an intestinal dysfunction group (n=26) and a non-intestinal dysfunction group (n=12). Three ml venous blood was collected from the control group on admission and the same volume of plasma was collected from the study group both on admission and in the period of recovery. The plasma concentrations of endotoxin, diamine oxidase (DAO), D-lactate, and intestinal fatty-acid binding protein (iFABP) were detected respectively. The data collected were analyzed by the SPSS 17.0 software for Windows. RESULTS: The levels of variables were significantly higher in the study group than in the control group (P<0.01). They were higher in the intestinal dysfunction group than in the non-intestinal dysfunction group (DAO P<0.05, endotoxin, D-lactate, iFABP P<0.01). In the non-intestinal dysfunction group compared with the control group, the level of endotoxin was not significant (P>0.05), but the levels of DAO, D-lactate and iFABP were statistically significant (P<0.05). The levels of variables in acute stage were higher than those in recovery stage (P<0.01).The death group showed higher levels of variables than the survival group (endotoxin and D-lactate P<0.01, DAO and iFABP P<0.05). CONCLUSION: The plasma concentrations of endotoxin, DAO, D-lactate, and intestinal fatty-acid binding protein (iFABP) could reflect a better function of the intestinal mucosa barrier in surgically critical ill patients.
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Fatty acid synthesis in leucoplasts isolated from developing seeds of Brassica campestris was absolutely dependent on external source of ATP. None of the other nucleoside triphosphates could replace ATP in the reaction mixture. Use of ADP alone also resulted in reduced rates of fatty acid synthesis. However, in combination with inorganic phosphate or inorganic pyrophosphate, it improved the rate of fatty acid synthesis, giving up to 50% of the ATP-control activity. Inorganic phosphate or inorganic pyrophosphate alone again did not serve as an energy source for fatty acid synthesis. AMP, alongwith inorganic pyrophosphate could promote fatty acid synthesis to up to 42% of the activity obtained with ATP. The three components dihydroxy acetone phosphate, oxaloacetic acid, inorganic phosphate of dihydroxy acetone phosphate-shuttle together could restore 50% of the activity obtained with ATP. Omission of any one of the components of this shuttle drastically reduced the rate of fatty acid synthesis to 15–24% of the ATP-control activity. Inclusion of ATP in reaction mixtures containing shuttle components enhanced the rate of synthesis over control. The optimum ratio of shuttle components dihydroxy acetone phosphate, oxaloacetic acid, inorganic phosphate determined was 1:1:2. Maximum rates of fatty acid synthesis were obtained when dihydroxy acetate phosphate was used as the shuttle triose. Glyceraldehyde-3-P, 3-phosphoglycerate, 2-phosphoglycerate and phosphoenolpyruvate as shuttle trioses were around 35–60% as effective as dihydroxy acetone phosphate in promoting fatty acid synthesis. The results presented here indicate that although the isolated leucoplasts readily utilize exogenously supplied ATP for fatty acid synthesis, intraplastidic ATP could also arise from dihydroxy acetone phosphate shuttle components or other appropriate metabolites.