Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.1.1 (hexokinase)
 5,274 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study determined how selected functional, metabolic, and contractile properties were impacted by sodium pivalate, a compound which creates a secondary carnitine deficiency. Young male rats received either sodium pivalate (20 mM, PIV) or sodium bicarbonate (20 mM, CONTR) in their drinking water. After 11-12 weeks cardiac function and glucose oxidation rates were measured in isolated, perfused working heart preparations. Hearts were also analyzed for carnitine content, activities of hexokinase (HK), citrate synthase (CS), and B-hydroxyacyl CoA dehydrogenase (HOAD), and myosin isoenzyme distribution. Sodium pivalate treatment significantly reduced cardiac carnitine content and increased glucose oxidation but did not alter cardiac functional capacity. HK activity was increased in the PIV group (p < 0.05), and HOAD activity decreased (p < 0.05). CS activity and myosin isoform distribution (VI > 85%) remained unchanged. These results demonstrate that pivalate treatment of this duration and the accompanying carnitine deficiency shift cardiac substrate utilization without compromising cardiac functional capacity.
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PMID:Sodium pivalate reduces cardiac carnitine content and increases glucose oxidation without affecting cardiac functional capacity. 747 77

Spontaneously hypertensive rats (SHR) demonstrate elevated blood pressure, cardiac hypertrophy, glucose intolerance, and insulin resistance compared with age-matched Wistar-Kyoto rats (WKY). We investigated concurrent effects of captopril on blood pressure, cardiac mass, myocardial enzyme activities, glucose tolerance, and insulin action in young male SHR. At 10 weeks of age, SHR were randomized into two groups, one receiving distilled water, the other a captopril solution (50 mg/kg body weight/day). We also examined age-matched WKY receiving distilled water. Blood pressure was measured by tail-cuff during the 4-week treatment period and oral glucose tolerance was tested at the end of treatment. Hearts were weighed and ventricular tissue was assayed for activities of 3-hydroxyacyl-CoA dehydrogenase, citrate synthase, and hexokinase. Growth rates were similar between captopril-treated and control SHR, but less than those of WKY. Captopril reduced blood pressure (134 +/- 8 v 177 +/- 8 mm Hg, P < .05) and left ventricular mass (-18%, P < .05) in SHR. Cardiac enzyme activities also changed with captopril treatment, reflecting an increased capacity for beta-oxidation of fatty acids and reduced potential for glucose phosphorylation in the left ventricle of SHR. Serum concentrations of glucose, insulin, and free fatty acids after a brief fast and in response to oral glucose were not different after captopril treatment, suggesting no improvement in insulin action or glucose tolerance. In summary, treatment of young male SHR with captopril reduces blood pressure and cardiac mass, and promotes a small but significant increase in cardiac capacity for oxidation of fatty acids and reduction of glucose phosphorylation. In contrast, metabolic effects of captopril on oral glucose tolerance and insulin action were not evident.
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PMID:Metabolic, hemodynamic, and cardiac effects of captopril in young, spontaneously hypertensive rats. 1037 67

Fluorine-18 fluoro-2-deoxyglucose ((18)FDG) and carbon-14 2-deoxyglucose ((14)C-2-DG) are both widely used tracers of myocardial glucose uptake and phosphorylation. We have recently shown, using positron emission tomography (PET) and nuclear magnetic resonance, that ischaemia-reperfusion (I-R) causes differential changes in their uptake. We describe here the novel application of an autoradiographic technique allowing the investigation of this phenomenon at high resolution, using tracer concentrations of both analogues in the dual-perfused isolated rat heart. We also investigate the importance of glucose transporter (GLUT 1 and GLUT 4) distribution in governing the observed phosphorylated analogue accumulation. Hearts ( n=5) were perfused with Krebs buffer for 40 min, made regionally zero-flow ischaemic for 40 min and reperfused for 60 min with Krebs containing tracer (18)FDG (200 MBq) and tracer (14)C-2-DG (0.37 MBq). Hearts were then frozen and five sections (10 micro m) were cut per heart, fixed and exposed on phosphor storage plates for 18 h (for (18)FDG) and then for a further 9 days (for (14)C-2-DG). Quantitative digital images of tracer accumulation were obtained using a phosphor plate reader. The protocol was repeated in a second group of hearts and GLUT 1 and GLUT 4 distribution analysed. Post-ischaemic accumulation of (18)FDG-6-P was inhibited by 38.2%+/-1.7% and (14)C-DG-6-P by 19.0%+/-2.2%, compared with control ( P<0.05). After placing seven "lines of interrogation" across each heart section and analysing the phosphorylated tracer accumulation along them, a transmural gradient of both tracers was observed; this was highest at the endocardium and lowest at the epicardium. GLUT 4 translocated to the sarcolemma in the ischaemic/reperfused region (from 24%+/-3% to 59%+/-5%), while there was no cellular redistribution of GLUT 1. We conclude that since decreased phosphorylated tracer accumulation occurs after ischaemia-reperfusion, despite greater externalisation of GLUT 4, hexokinase or the affinities of the GLUT transporters are changed under these conditions.
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PMID:Dissociation of glucose tracer uptake and glucose transporter distribution in the regionally ischaemic isolated rat heart: application of a new autoradiographic technique. 1227 16

Insulin resistance is a risk factor for coronary heart disease. The protection of young women from coronary events is sharply reduced with menopause. To assess the impact of menopause on glucose tolerance, insulin resistance, body weight gain, heart size, and cardiac energy metabolism, we studied 28-week-old female SHR and Wistar-Kyoto (WKY) rats, who were either ovariectomized (SHR(OVX) and WKY(OVX)) or sham-operated (SHR(SHAM) and WKY(SHAM)). Animals underwent blood-pressure measurement and an oral glucose tolerance test (OGTT). Hearts were weighed and assayed for metabolic enzyme activities. Female SHR were 33 % lighter and hypertensive (+ 36 mmHg), with 33 % larger hearts (when corrected for body weight differences) compared to WKY. Although ovariectomized animals of both strains were heavier overall than their sham-operated counterparts, when heart weights were corrected for body weight, both OVX strains had lighter hearts than both SHAM strains. Glucose and insulin responses during OGTT were similar between the four groups; however, free fatty acid (FFA) responses were approximately 50 % greater in SHR than WKY, although less in SHR(OVX) than SHR(SHAM). WKY(OVX) demonstrated 8 % lower ventricular hexokinase activity than WKY(SHAM), which may reflect reduced cardiac glucose utilization. We also noted 16 % higher citrate synthase activity in WKY hearts. In conclusion, the insulin resistance characteristic of younger SHR is blunted in middle-aged female rats, although FFA responses remain elevated. Ovariectomy did not alter in vivo glucose tolerance in this group; however, sex hormones may be important in maintaining normal heart size and the potential for cardiac glucose metabolism.
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PMID:Effects of ovariectomy on indices of insulin resistance, hypertension, and cardiac energy metabolism in middle-aged spontaneously hypertensive rats (SHR). 1238 29

Association of hexokinase (HK) with mitochondria preserves mitochondrial integrity and is an important mechanism by which cancer cells are protected against hypoxic conditions. Maintenance of mitochondrial integrity also figures prominently as a major characteristic of many cardioprotective manipulations. In this study, we provide evidence that cardioprotective interventions may promote HK redistribution from the cytosol to the mitochondria in the heart. Isolated Langendorff-perfused rat hearts (n = 6/group) were subjected to normoxic perfusion (control, Con), three 5-min ischemia-reperfusion periods (ischemic preconditioning, IPC), 1 U/l insulin (Ins), or 1 microM morphine (Mor). Hearts were immediately homogenized and centrifuged to obtain whole cell, cytosolic, and mitochondrial fractions. HK, lactate dehydrogenase (LDH), and citrate synthase (CS) enzyme activities were determined. No change in LDH or CS present in the cytosol fraction relative to whole cell activity was observed with any of the cardioprotective interventions. By contrast, HK present in the cytosol fraction relative to whole cell activity decreased significantly (P < 0.05) with all cardioprotective interventions, from 0.58 +/- 0.03 (Con) to 0.46 +/- 0.04 (IPC), 0.41 +/- 0.01 (Ins), and 0.45 +/- 0.02 (Mor). In addition, HK relative to CS activity in the mitochondrial fraction increased significantly with cardioprotection, from 0.15 +/- 0.001 (Con) to 0.21 +/- 0.002 (IPC), 0.18 +/- 0.003 (Ins), and 0.21 +/- 0.005 (Mor). Our novel data suggest that well-known cardioprotective interventions share a common end-effector mechanism of cytosolic HK translocation. Association of HK with mitochondria may promote inhibition of the mitochondrial permeability transition pore and thereby reduce cell death and apoptosis.
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PMID:Ischemic preconditioning, insulin, and morphine all cause hexokinase redistribution. 1576 78

Carnitine is a naturally occurring compound that is essential in energy metabolism of the mammalian heart. In addition to its essential role in facilitating beta-oxidation, carnitine eliminates excess toxic acyl residues and regulates the mitochondrial acetyl coenzyme A (CoA)/CoA ratio. Thus, it is not surprising that patients with carnitine deficiency syndromes exhibit defects in energy metabolism and in some cases demonstrate left ventricular dysfunction. Pivalic acid is commonly used to create prodrugs, such as pivampicillin and pivmecillinam, to facilitate enteral absorption and increase oral bioavailability. Pivalic acid released from the drug following absorption readily forms an ester with carnitine, which is then excreted as pivaloylcarnitine. Sustained loss of carnitine in the form of this ester induces a state of carnitine deficiency, exemplified by low plasma and tissue carnitine content. This review examines the effects in the rat of short- and long-term sodium pivalate treatment on: (1) cardiac carnitine content; (2) in vitro mechanical function; (3) markers of glycolytic and fatty acid metabolism; and (4) energy substrate metabolism. Treatment with sodium pivalate induces a gradual loss of cardiac carnitine content for up to 12 weeks. Doubling the duration of treatment is not associated with any further decrease in cardiac carnitine content. While heart function following short-term treatment (2 weeks) is normal under aerobic conditions, impaired recovery of function following ischaemia is seen. In contrast, long-term treatment (11-28 weeks) is associated with impaired heart function, which is dependent on workload and substrate availability. Impaired heart function is also associated with reductions in activity of 3-hydroxyacyl CoA dehydrogenase and rates of fatty acid oxidation. However, to maintain adenosine triphosphate production, glucose metabolism, expressed as hexokinase activity and glucose oxidation, is increased in carnitine-deficient hearts. Hearts from sodium pivalate-treated animals demonstrate a cardiomyopathy that is dependent on duration of treatment, workload and substrate supply. This model of hypocarnitinaemia may thus be useful to study the metabolic and cardiac consequences of carnitine-deficiency syndromes.
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PMID:Hypocarnitinaemia induced by sodium pivalate in the rat is associated with left ventricular dysfunction and impaired energy metabolism. 1675 41

The absence of GLUT4 severely impairs basal glucose uptake in vivo, but does not alter glucose homeostasis or circulating insulin. Glucose uptake in isolated contracting skeletal muscle (MGU) is also impaired by the absence of GLUT4, and onset of muscle fatigue is hastened. Whether the body can compensate and preserve glucose homeostasis during exercise, as it does in the basal state, is unknown. One aim was to test the effectiveness of glucoregulatory compensation for the absence of GLUT4 in vivo. The absence of GLUT4 was also used to further define the role of hexokinase (HK) II, which catalyses glucose phosphorylation after it is transported in the cell. HK II increases MGU during exercise, as well as exercise endurance. In the absence of GLUT4, HK II expression will not affect MGU. A second aim was to test whether, in the absence of GLUT4, HK II retains its ability to increase exercise endurance. Wild-type (WT), GLUT4 null (GLUT4(-/-)), and GLUT4 null overexpressing HK II (GLUT4(-/-)HK(Tg)) mice were studied using a catheterized mouse model that allows blood sampling and isotope infusions during treadmill exercise. The impaired capacity of working muscle to take up glucose in GLUT4(-/-) is partially offset by an exaggerated increase in the glucagon: insulin ratio, increased liver glucose production, hyperglycaemia, and a greater capillary density in order to increase the delivery of glucose to the exercising muscle of GLUT4(-/-). Hearts of GLUT4(-/-) also exhibited a compensatory increase in HK II expression and a paradoxical increase in glucose uptake. Exercise tolerance was reduced in GLUT4(-/-) compared to WT. As expected, MGU in GLUT4(-/-)HK(Tg) was the same as in GLUT4(-/-). However, HK II overexpression retained its ability to increase exercise endurance. In conclusion, unlike the basal state where glucose homeostasis is preserved, hyperglycaemia results during exercise in GLUT4(-/-) due to a robust stimulation of liver glucose release in the face of severe impairments in MGU. Finally, studies in GLUT4(-/-)HK(Tg) show that HK II improves exercise tolerance, independent of its effects on MGU.
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PMID:Glucose kinetics and exercise tolerance in mice lacking the GLUT4 glucose transporter. 1749 42