Chronic renal insufficiency (CRI) is often associated with cardiovascular disease; however, its underlying mechanisms are not completely understood. Therefore, in the present study, myocardial functions and metabolic changes were investigated using an animal model of CRI in subtotally nephrectomized rats. In addition, some other parameters, considered risk factors of cardiovascular diseases, were determined. Subtotal nephrectomy led to an elevation in blood pressure (144±2.8 vs 114±2.5 mm Hg), left ventricular hypertrophy (290±12 vs 200 ±40 mg/100 g b.w.), hypertriglyceridaemia (2.96±0.31 vs 0.77±0.07 mmol/1), and impaired glucose tolerance (AUC 836±12.4 vs 804±10.4 mmol . I-1 . 120 min). Isolated perfused hearts of uraemic rats exhibited diminished basal functions (coronary and aortic flow, stroke volume) by 20 - 30 % compared with the controls. Interestingly, the tolerance of isolated heart to global 20-min no-flow ischaemia was improved in uraemic rats. The most marked differences in heart function recovery during reperfusion concerned aortic flow (90 ± 2.3 vs 66 ± 10 %) and stroke volume (97 ± 2.7 vs 68±5.6% of pre-ischaemic values). Pre-ischaemic myocardial glycogen content was distinctly increased (by 50 %) in uraemic rats compared with the controls.
Insulin resistance (IR) is the result of long-lasting positive energy balance and the imbalance between the uptake of energy rich substrates (glucose, lipids) and energy output. The defects in the metabolism of glucose in IR and type 2 diabetes are closely associated with the disturbances in the metabolism of lipids. In this review, we have summarized the evidence indicating that one of the important mechanisms underlying the development of IR is the impaired ability of skeletal muscle to oxidize fatty acids as a consequence of elevated glucose oxidation in the situation of hyperglycemia and hyperinsulinemia and the impaired ability to switch easily between glucose and fat oxidation in response to homeostatic signals. The decreased fat oxidation results into the accumulation of intermediates of fatty acid metabolism that are supposed to interfere with the insulin signaling cascade and in consequence negatively influence the glucose utilization. Pathologically elevated fatty acid concentration in serum is now accepted as an important risk factor leading to IR. Adipose tissue plays a crucial role in the regulation of fatty acid homeostasis. The adipose tissue may be the primary site where the early metabolic disturbances leading to the development of IR take place and the development of IR in other tissues follows. In this review we present recent evidence of mutual interaction between
skeletal muscle and adipose tissue in the establishment of IR and type 2 diabetes.
The increase of radical forms of mitochondrial respiratory chain compounds (MRCC) is an indicator of an increased risk of the formation of oxygen radicals. Using electron paramagnetic resonance (EPR), we found an increase of signals corresponding to ubisemichinone radical (·QH) and ironsulfur proteins radical forms (·FeS) of these respiratory chain compounds during ischemia in the isolated perfused rat heart (·QH increased from 1.51 to 3.08, ·FeS1 from 1.14 to 2.65 arbitrary units). During the 5-min reperfusion, the signals returned to normoxic levels. In isolated mitochondria exposed to anoxia and reoxygenation the radical forms of ·QH and ·FeS2 changed in a similar manner as in the intact heart. A combination of in vivo captopril treatment and in vitro L-arginine administration significantly decreased the levels of MRCC radicals in the isolated myocardium (·QH from 2.61 to 1.72 and ·FeS1 from 1.82 to 0.46 under normoxia; ·QH from 4.35 to 2.66 and ·FeS1 from 1.93 to 1.35 during ischemia). This decrease in MRCC radical forms was associated with increased NO levels in the perfusate, determined as NO2-/ NO3-, as well as tissue NO levels determined using EPR as the dinitrosyl iron complex (DNIC). These results provide new information about the cardioprotective effects of ACE inhibitors and L-arginine., H. Vavřínková, M. Tutterová, P. Stopka, J. Divišová, L. Kazdová, Z. Drahota., and Obsahuje bibliografii