Uremia Alters HDL Composition and Function

Holzer, Michael; Birner‐Gruenberger, Ruth; Stojaković, Tatjana; El‐Gamal, Dalia; Binder, Veronika; Wadsack, Christian; Heinemann, Ákos; Marsche, Gunther

doi:10.1681/asn.2010111144

Cited by 247 publications

(290 citation statements)

References 47 publications

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“…HDL cholesterol acts against arthrosclerosis through its antiinflation and control function on the process of cholesterol transfer (40). In accordance with previous research, the indirect correlation between the level of intra-liver triglyceride and irisin and the direct correlation between irisin and HDL can reinforce irisin's protective potential particularly in people with such chronic diseases as NAFLD, which generate cardiovascular risks (41). Irisin can directly or indirectly prevent the accumulation of triglyceride in the liver.…”

Section: Discussionsupporting

confidence: 67%

The Effects of Resistance and Endurance Training on the Liver Tissue FNDC5 mRNA Gene Expression in Male Rats

Rashidlamir

Hoseinzadeh

Dashtkhaki

2017

Ann. Appl. Sport Sci

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Background. The accumulation of excess triglyceride in the liver and a decrease in brown adipose tissue is related to the fatty liver disease. Regular physical activity can take part in regulating fat oxidation and inhibiting fat accumulation by creating and releasing some myokines. Nevertheless, the effectiveness of each training method in this regard is still not certain. Objective(s). This study aims at comparing the effects of resistance and endurance training on FNDC5 (the precursor of irisin myokine) gene expression in male rat liver tissues.. Methods. Fifteen Wistar male rats (aged 10-12 weeks with an average weight of 331.8 ±63.09 gr) were used. After being taken to the animals' laboratory, the subjects were randomly assigned to three equal groups viz: control (N=5), endurance (N=5) and resistance (N=5). For the purpose of tissue sampling, all these subjects were anesthetized 72 hours after the experiment had been completed. The liver tissue was immediately removed and then quickly frozen in liquid nitrogen and kept at a temperature of -80o C until RNA extraction. FNDC5 relative gene expression was identified by Real-time PCR method. Results. Data analysis revealed a significant difference in FNDC5 gene expression among the groups (P=0.008, Chi Square=31.791). No significant difference was observed between the resistance training and endurance training groups in FNDC5 gene expression, though (P=0.959). Conclusion. It can be established that both resistance and endurance training can similarly affect the production and secretion of exerciseinduced myokines, including FNDC5 irisin, which can in turn protect against obesity and its impacts on the liver tissue by stimulating the process of browning of white fat.

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Section: Discussionsupporting

confidence: 67%

The Effects of Resistance and Endurance Training on the Liver Tissue FNDC5 mRNA Gene Expression in Male Rats

Rashidlamir

Hoseinzadeh

Dashtkhaki

2017

Ann. Appl. Sport Sci

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“…This effect is associated with elevated HDL triglyceride and reduced HDL phospholipid contents, a diminished cholesterol ester-rich: cholesterol ester-poor HDL ratio 4,6,53,54 , and impaired HDL antioxidant, anti-inflammatory, and reverse cholesterol transport capacity 55,56 . Although HDL cholesterol is reduced in the majority of patients with ESRD, a proportion of patients show a marked elevation in HDL cholesterol that is paradoxically associated with increased cardiovascular and overall morbidity and mortality [57][58][59] .…”

Section: Ckd and Esrdmentioning

confidence: 99%

“…HDL abnormalities contribute to CKD-induced impairment of VLDL and chylomicron metabolism, which primarily result from reduced LPL and hepatic lipase expression and activity 83,105 . Reductions in the ApoC-2 (the LPL cofactor) and ApoE (the ligand for endothelial binding) contents of VLDL and chylomicrons contribute to diminished LPL activity in CKD 55 . These abnormalities are primarily caused by a CKD-induced defect in the maturation of HDL3 to HDL2, which serves as an ApoC and ApoE donor to nascent VLDL and chylomicrons.…”

Section: Progression Of Ckdmentioning

confidence: 99%

HDL abnormalities in nephrotic syndrome and chronic kidney disease

2015

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| Normal HDL activity confers cardiovascular and overall protection by mediating reverse cholesterol transport and through its potent anti-inflammatory, antioxidant, and antithrombotic functions. Serum lipid profile, as well as various aspects of HDL metabolism, structure, and function can be profoundly altered in patients with nephrotic range proteinuria or chronic kidney disease (CKD). These abnormalities can, in turn, contribute to the progression of cardiovascular complications and various other comorbidities, such as foam cell formation, atherosclerosis, and/or glomerulosclerosis, in affected patients. The presence and severity of proteinuria and renal insufficiency, as well as dietary and drug regimens, pre-existing genetic disorders of lipid metabolism, and renal replacement therapies (including haemodialysis, peritoneal dialysis, and renal transplantation) determine the natural history of lipid disorders in patients with kidney disease. Despite the adverse effects associated with dysregulated reverse cholesterol transport and advances in our understanding of the underlying mechanisms, safe and effective therapeutic interventions are currently lacking. This Review provides an overview of HDL metabolism under normal conditions, and discusses the features, mechanisms, and consequences of HDL abnormalities in patients with nephrotic syndrome or advanced CKD.

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“…Maturation of cholesterol ester (CE)-poor HDL3 to CE-rich HDL2 is impaired, and HDL antioxidant, anti-inflammatory and reverse cholesterol transport properties are defective in the ESRD population. [3][4][5] Abnormalities of HDL structure and function in advanced CKD are mediated by a reduction in the serum levels of apoA-I and apoA-II (owing to reduced biosynthesis and increased catabolism), deficiency of lecithin cholesterol acyltransferase (LCAT, which is essential for esterification of free cholesterol on the surface of HDL and the formation of CE-rich HDL), upregulation of acyl c oenzyme A:cholesterol acyltransferase 1 and 2 (ACAT-1 and 2, which promote esterification and retention of intracellular cholesterol), oxidative modification of HDL 3,4 (which lowers its affinity for binding to ATPbinding cassette sub-family A member 1 [ABCA1] and ATP-binding cassette subfamily G member 1, the gateways of cholesterol efflux), 6 a reduction in the levels of the key HDL-associated antioxidant enzymes, serum paraoxonase/arylesterase 1 and glutathione peroxidase 1, 4,5 and the presence of highly proinflammatory serum amyloid A protein (SAA) in the HDL of patients on haemodialysis. 7 Hypoalbuminaemia (caused by systemic inflammation and malnutrition, which are fairly common in patients with ESRD) also contributes to reduced HDL-cholesterol levels by limiting receptorindependent transfer of albumin-bound chol esterol to HDL in the blood stream.…”

mentioning

confidence: 99%