UMLS:C0392674 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UMLS:C0392674 (exhaustion)
13,658 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The value of the adenylate energy charge, i.e. ([ATP] + 1/2[ADP])/([ATP] + [ADP] + [AMP]), during batch culture of Beneckea natriegens remained relatively constant during the exponential and early stationary phases of the growth cycle. During exponential growth the intracellular ATP content remained constant, the amount of ATP in the culture increasing proportionally with growth; these conditions were unaltered during growth in the presence of added cyclic AMP. On cessation of growth, significant variation in bacterial ATP content was observed depending on whether growth of the cultures terminated due to exhaustion of carbon or nitrogen from the medium, and on the presence or absence of added cyclic AMP.
...
PMID:Adenylate energy charge during batch culture of Beneckea natriegens. 1 48

Effort rhabdomyolysis is a syndrome which takes the form of a pathology with different etiopathogenetic stages. General anesthesia may trigger off acute muscular cytolysis which is probably influenced by the inflammatory surgical pathology itself. The observation of two cases of post-anesthetic rhabdomyolysis following muscular stress suggest that the exhaustion of muscle energy reserves and the consequent alteration of the ATP/ADP ratio may act as a trigger mechanism for this syndrome. Its close relationship with malignant hyperthermia makes a precise anamnesis vitally important, especially in relation to recent intense physical effort in patients undergoing emergency surgery for acute pathologies.
...
PMID:[Post-anesthesia rhabdomyolysis syndrome following muscular stress. 2 case reports]. 129 23

Purine nucleotides (ATP, ADP, AMP, IMP), creatine, phosphocreatine, lactate, pyruvate and glycogen were measured in rainbow trout (Oncorhynchus mykiss) white muscle following exercise to exhaustion. Estimates of intracellular pH permitted calculation of free concentrations of nucleotides ([nucleotide]f) required for most models of control of energy metabolism. Creatine charge, [PCr]/([PCr]+[Cr]), fell from 0.49 +/- 0.05 (mean +/- S.E.M.) to 0.08 +/- 0.02 with exercise but recovered completely by the first sample (2 h). Although [ATP] declined to 24% of resting levels and recovered very slowly, RATP, [ATP]/([ATP]+[ADP]f+[AMP]f), and energy charge, EC, ([ATP]+0.5[ADP]f)/([ATP]+[ADP]f+[AMP]f), recovered as quickly as creatine charge. Changes in [IMP] mirrored those in [ATP], suggesting that AMP deaminase is responsible for maintaining RATP and EC. Recovery of carbon status was much slower than recovery of energy status. Lactate increased from 4 mumol g-1 at rest to 40 mumol g-1 at exhaustion and did not recover for more than 8 h. Glycogen depletion and resynthesis followed a similar time course. During the early stages of recovery, calculated [ADP]f declined by more than 10-fold relative to the resting values. The resulting high [ATP]/[ADP]f ratios may limit the rate at which white muscle mitochondria can produce ATP to fuel glycogenesis in situ. It is postulated that the high [ATP]/[ADP]f ratios are required to drive pyruvate kinase in the reverse direction for glyconeogenesis in recovery.
...
PMID:Integrating metabolic pathways in post-exercise recovery of white muscle. 160 73

Alimentary deficiency of vitamin K caused a decrease in the rate of respiration in presence of ADP and in the rate of oxidative phosphorylation in the presence of succinate. Administration of the antivitamin K pelentane, excess of vikasol and deficiency of vitamin D did not affect these parameters. As distinct from controls and rats treated with pelentane, transport of calcium was decreased in presence of all the substrates studied in mitochondria isolated from liver tissue of animals deprived of vitamins K and D as well as of animals treated with vikasol excess. At the same time, accumulation of calcium led to time-dependent inhibition of respiratory chain if NAD-dependent substrates were used. Possible reasons of dissimilarity observed are discussed; the phenomenon found may occur due to exhaustion of the mitochondrial pyridine nucleotides pool. The data obtained suggest that antivitamins K altered only some parameters of body status (prothrombin time) similarly to the alterations observed in alimentary deficiency of vitamin K.
...
PMID:[Metabolic function of isolated liver mitochondria during various conditions of vitamin D and K supply and administration of pelentane]. 175 Feb 15

The shift down of glucose in the growth medium lowered the energetic status of cells whereas that of ammonium elevated it, which was indicative of their specific effect on metabolism. The shift up of glucose within the first four seconds promptly increased the intracellular ATP pool, the energy charge and the ATP/ADP ratio up to values characteristic of growth, while the addition of ammonium after its exhaustion resulted in the opposite effect. The described changes are typical of an incomplete coupling between energetic and constructive metabolic types in E. coli.
...
PMID:[Changes in the energy indices of Escherichia coli during exhaustion and renewal of glucose and ammonia supply as a factor responsible for the coupling of energy and constructive types of metabolism]. 223 12

Blood platelet function and possible involvement in death of hypomagnesemic ruminants was investigated with 26 Angus cows, 15 mature Hampshire wethers, eight Finnish-Hampshire ewes, and 36 growing Dorset lambs. Hypomagnesemia was induced by feeding vegetative spring tall fescue to 13 cows and semipurified diets low in Mg to nine wethers, four ewes, and 18 lambs. In comparison with controls, dietary treatments reduced plasma Mg concentrations 55% in cows, 36% in wethers, 66% in ewes, and 78% in lambs. Hypomagnesemia reduced in vitro reactivity of cow and lamb platelets to thrombin, ADP, and platelet active collagen, but in vitro tests may not accurately reflect in vivo platelet reactivity. Microscopic examination of platelet-rich plasma revealed a threefold increase in clumped platelets from four hypomagnesemic ewes compared to four normomagnesemic ewes. This suggests that in vivo activation and exhaustion of platelets may have contributed to reduced in vitro platelet reactivity. Six of 18 hypomagnesemic lambs died spontaneously in tetany after 2-12 months on low-Mg diets. Heart and lung lesions were markedly similar to pathological changes induced in other lambs by intravascular activation of platelets with 500 micrograms of vascular collagen fibrils per kg body weight injected intravenously. These results suggest the possibility of abnormal blood platelet activation as a significant mortality risk factor in severe hypomagnesemia.
...
PMID:Effects of hypomagnesemia on reactivity of bovine and ovine platelets: possible relevance to infantile apnea and sudden infant death syndrome. 230 7

This study examined the dynamics for ammonia (NH3) metabolism in human skeletal muscle during and after intense one-legged exercise. Subjects (n = 8) performed dynamic leg extensor exercise to exhaustion (3.2 min). Muscle NH3 release increased rapidly to a maximum of 314 +/- 42 mumol/min and declined immediately on cessation of exercise. Recovery was complete in approximately 20 min. Arterial [NH3] increased less rapidly and reached its maximum 2-3 min into recovery. These data demonstrate that NH3 clearance is more sensitive to the cessation of exercise than is NH3 release from skeletal muscle. Muscle [NH3] increased three to fourfold during exercise and represented 74 +/- 8% of the total net NH3 formation. Thus the change in muscle [NH3] alone underestimates the NH3 production. There was no evidence that the muscle-to-venous blood NH3 ratio shifts in accordance with the H+ data. Thus other factors must contribute to the NH3 release from active muscle. The total net NH3 formed corresponded with the intramuscular inosine 5'-monophosphate accumulation, suggesting that the NH3 was derived from AMP deamination. Changes in the known modulators of AMP deaminase (ATP, ADP, H+) were moderate, so the mechanisms initiating the deamination remain obscure.
...
PMID:Ammonia metabolism during intense dynamic exercise and recovery in humans. 238 11

The release of Ca2+ from vesicles of heavy sarcoplasmic reticulum after its accumulation due to hydrolysis of ATP, GTP, CTP, UTP or ITP has been studied using Antipyrylazo III, a metal-chromic Ca-indicator. All the studied substrates of the Ca-pump provide Ca2+ accumulation inside the heavy sarcoplasmic reticulum vesicles, the spontaneous Ca2+ outflux rate being different for different nucleoside triphosphates. It is only ATP that provides Ca-(caffeine)-induced Ca2+ release, however AMP, ADP, beta, gamma-methylene-ATP induce Ca2+ ejection in the presence of nonadenylic nucleotides. The ruthenium red (10(-7M) inhibits the induced ejection of Ca2+ from vesicles of the heavy sarcoplasmic reticulum, but does not prevent the spontaneous release of Ca2+ in the same concentrations. A conclusion is drawn that besides Ca-channels sensitive to Ca2+ and caffeine in the presence of ATP (or to AMP, ADP, beta, gamma-methylene-ATP in the presence of nonadenylic nucleotides) and possessing high sensitivity to the ruthenium red there is another pathway for Ca2+ in the heavy reticulum membranes along which its spontaneous release occurs after the substrate exhaustion. It is supposed that this release is provided by the presence of the Ca-ATPase protein.
...
PMID:[Calcium release from vesicles of heavy sarcoplasmic reticulum of rabbit skeletal muscles]. 247 98

Phosphorescence of protein tryptophan was analyzed in sarcoplasmic reticulum vesicles, and in the purified Ca2+ transport ATPase in deoxygenated aqueous solutions at room temperature. Upon excitation with light of 295 nm wavelength, the emission maxima of fluorescence and phosphorescence were at 330 nm and at 445 nm, respectively. The phosphorescence decay was multiexponential; the lifetime of the long-lived component of phosphorescence was approximately equal to 22 ms. ATP and vandate significantly reduced the phosphorescence in the presence of either Ca2+ or EGTA; ADP was less effective, while AMP was without effect. The quenching by ATP showed saturation consistent with the idea that the ATP-enzyme complex had a lower phosphorescence yield. Upon exhaustion of ATP, the phosphorescence returned to starting level. Significant quenching of phosphorescence with a decrease in phosphorescence lifetime was also caused by NaNO2, methylvinyl ketone and trichloroacetate, without effect on ATPase activity; this quenching did not show saturation and was therefore probably collisional in nature.
...
PMID:Tryptophan phosphorescence of the Ca2+-ATPase of sarcoplasmic reticulum. 297 55

The oxidative and phosphorylative function of rat liver mitochondria after exhaustive exercise was investigated. The stimulation of state 4 respiration (without ADP) with NADH and FADH2 dependent substrates was demonstrated. The reduction in RCR ratio (the rate of oxidation in state 3/the rate of oxidation in state 4) and enhanced activity of oligomycin sensitive ATP-ase was also found. The results suggest an inhibition of liver mitochondrial phosphorylative activity in rats exercised till exhaustion.
...
PMID:Effect of exhaustive exercise on liver mitochondrial function in the rat. 297 92

1 2 3 4 5 6 7 8 Next >>