UMLS:C0011849 - FACTA Search

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

Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mitochondrial and peroxisomal fatty acid oxidation were compared in whole liver homogenates. Oxidation of 0.2 mM palmitoyl-CoA or oleate by mitochondria increased rapidly with increasing molar substrate:albumin ratios and became saturated at ratios below 3, while peroxisomal oxidation increased more slowly and continued to rise to reach maximal activity in the absence of albumin. Under the latter condition mitochondrial oxidation was severely depressed. In homogenates from normal liver peroxisomal oxidation was lower than mitochondrial oxidation at all ratios tested except when albumin was absent. In contrast with mitochondrial oxidation, peroxisomal oxidation did not produce ketones, was cyanide-insensitive, was not dependent on carnitine, and was not inhibited by (+)-octanoylcarnitine, malonyl-CoA and 4-pentenoate. Mitochondrial oxidation was inhibited by CoASH concentrations that were optimal for peroxisomal oxidation. In the presence of albumin, peroxisomal oxidation was stimulated by Triton X-100 but unaffected by freeze-thawing; both treatments suppressed mitochondrial oxidation. Clofibrate treatment increased mitochondrial and peroxisomal oxidation 2- and 6- to 8-fold, respectively. Peroxisomal oxidation remained unchanged in starvation and diabetes. Fatty acid oxidation was severely depressed by cyanide and (+)-octanoylcarnitine in hepatocytes from normal rats. Hepatocytes from clofibrate-treated rats, which displayed a 3- to 4-fold increase in fatty acid oxidation, were less inhibited by (+)-octanoylcarnitine. Hydrogen peroxide production was severalfold higher in hepatocytes from treated animals oxidizing fatty acids than in control hepatocytes. Assuming that all H2O2 produced during fatty acid oxidation was due to peroxisomal oxidation, it was calculated that the contribution of the peroxisomes to fatty acid oxidation was less than 10% both in cells from control and clofibrate-treated animals.
...
PMID:Mitochondrial and peroxisomal fatty acid oxidation in liver homogenates and isolated hepatocytes from control and clofibrate-treated rats. 43 7

Radioactivity was measured in the blood of normal and alloxan diabetic rats, after the oral administration of [U-14C]gluconate and [U-14C]glucono-delta-lactone, respectively. Radioactivity was also measured in the intestinal contents and feces 5 h after ingestion of the radioactive materials, It was concluded that the lactone is better absorbed from the intestine than the gluconate anion. According to this enhanced membrane permeation and the higher concentration reached in blood, the space of distribution of the lactone is larger than that of gluconate (50 and 41% of body weight, respectively); a higher retention in tissues and a greater loss in urine was also observed after administration of the lactone. Incorporation into liver glycogen is also higher from the lactone than from gluconate after oral administration, particularly in diabetic animals. The initial deficit in the oxidation of gluconate compared to that of the lactone, caused by a lag period of 7 and 4 h, respectively, is completely compensated during the following 8-9 h. The oxidative turnover of gluconolactone and of gluconate is significantly enhanced in diabetic animals. The better utilization in diabetic metabolism is in part explainable by a rise of glycolytic intermediates in the liver, which are decreased in starvation and diabetes. The limiting step of gluconate metabolism is the initial phosphorylation. Possibilities are discufor the dietetic use of gluconic acid in the form of an apolar derivative (lactone, ester).
...
PMID:[Investigations on the utilization of D-gluconate and D-glucono-delta-lactone in the metabolism of the normal and alloxan diabetic rat (author's transl)]. 43 37

Activity of M2-pyruvate kinase from medullar layer of rabbit kidney was studied in diabetes, in starvation within 1 day and 10-16 days and in long-term starvation of rabbits after administration of glucose or hydrocortisone and protamine-Zn-insulin. The enzymatic activity was increased in diabetes and decreased in long-term starvation and after administration of insulin. A correlation was observed between low activity of pyruvate kinase in kidney medulla under conditions of long-term starvation of rabbits and deficiency of the enzyme substrate. The data, obtained after study of the enzymatic activity in kidney medulla as compared with that of rabbit kidney cortex, demonstrate various adaptability of cells from these kidney layers to regulatory effects of hormones on the pyruvate kinase activity.
...
PMID:[Effect of insulin and hydrocortisone on pyruvate kinase from the medullar and cortical layers of rabbit kidney]. 44 88

The responses of plasma gastro-entero-pancreatic (GEP) hormones and free fatty acids (FFA) to a standard mixed meal before and after starvation have been measured. Raised insulin, glucose and FFA levels were found following refeeding after starvation and levels of secretin and C-terminal glucagon-like-immunoreactivity (C-GLI), raised by starvation, were rapidly suppressed on refeeding. The responses of gastrin and N-terminal glucagon-like-immunoreactivity (N-GLI) to a standard mixed meal were not altered by starvation. Although this study does not directly support that secretin and glucagon are responsible for the hyperglycaemia or hyperinsulinaemia of starvation diabetes, a role for both hormones in the raised FFA levels is proposed, as well as a role for glucagon in the initial hyperglycaemic response to a meal after starvation.
...
PMID:The gastro-entero-pancreatic hormone secretion after a mixed meal in normal subjects before and after a 72 hour period of starvation. 44 30

The effect of L-carnitine (0.5-2.0 mM) on the rates of alpha-decarboxylation of 1-14C-labeled branched-chain amino acids by gastrocnemius muscle and liver homogenates of fed rats was investigated. Carnitine increased the rate of alpha-decarboxylation of leucine (125%) and valine (28%) by muscle, but it was without effect on the oxidation of these amino acids by liver. Carnitine increased the rate of alpha-decarboxylation of alpha-ketoisocaproate by both tissues. This effect was more pronounced in muscle (130% increase) than in liver (41% increase). The activity of carnitine acyltransferase, with isovaleryl-CoA as a substrate, was 18 times higher in muscle mitochondria than in liver mitochondria. Both starvation and diabetes increased the rate of alpha-decarboxylation of leucine by muscle without having a remarkable effect on the concentration of carnitine or the activity of carnitine acyltransferase. We conclude that: a) carnitine stimulates decarboxylation of branched-chain amino acids by increasing the conversion of their ketoanalogues into carnitine esters, b) a greater carnitine acyltransferase activity in muscle than in liver may be responsible for the greater carnitine effect in muscle, c) carnitine does not appear responsible for the enhancement of leucine oxidation by muscle of starved and diabetic rats.
...
PMID:Effect of carnitine on branched-chain amino acid oxidation by liver and skeletal muscle. 64 1

Activity of dehydrogenases related to pentosephosphate pathway was not distinctly altered in soluble fraction of kidney cortex and medulla after 48 and 72 hrs of starvation. In diabetes the activity of these enzymes in rat kidney, as distinct from liver tissue, was not decreased but it was elevated and within 72 hrs after administration of alloxan the activity of glucose-6-phosphate dehydrogenase was increased 2-fold and the activity of 6-phosphogluconate dehydrogenase was increased by 30% above the normal level. Content of free fatty acids was also increased in kidney cortex of diabetic rats within 72 hrs after administration of alloxan. Alterations in content of free fatty acids were not observed either in kidney of diabetic animals within other studied periods (6 and 14-16 days) of treatment or in the tissue of starved rats. The data obtained suggest that free fatty acids do not participate immediately in controlling effect on dehydrogenases of pentosephosphate pathway in kidney in vivo.
...
PMID:[Effect of starvation and diabetes on the activity of glucose-6-phosphate and 6-phosphogluconate dehydrogenases and on the free fatty acid content of rat kidney cortex and medulla]. 66 69

The influence of exercise on forearm muscle metabolism was examined in 9 healthy subjects, in 16 diabetics and in 4 obese subjects during complete starvation. During exercise glucose uptake rose 7-8 fold in the controls. However, no increase of glucose uptake was observed in the other groups studied. Moreover, a glucose production from the working muscle took place in about 40 percent of both the diabetic patients and the starved obese subjects. The nonutilization of glucose during physical work in the diabetic like states was accompanied by a significantly diminished lactate output. The arterial concentration of FFA, glycerol beta-HOB and Acac was markedly elevated in the starved obese patients. The FFA-uptake at rest and during exercise, however, was not different from results of controls. Whereas an effux of beta-HOB has been observed during exercise, Acac uptake was increased in these patients. It is suggested that in maturity onset and starvation diabetes glycolysis is inhibited.
...
PMID:Muscle metabolism during exercise in diabetics and in obese during starvation. 68 Jun 26

The diagnosis of diabetes depends on identifying a compatible clinical picture with confirmation by demonstrable abnormalities in blood glucose levels. In florid diabetes, classical symptoms of diabetes and high glucose in blood and urine make the diagnosis easy. For asymptomatic diabetes; if confirmed fasting blood glucose measures over 125 mg per 100 ml, the diagnosis is accepted. When the fasting blood glucose measures under 125 mg per 100 ml, I recommend an oral glucose tolerance test and apply suitable criteria for interpretation. The United States Public Health Service criteria represent a reasonable, moderate approach when one modifies the interpretation by cognizance of environmental factors in the patient and by identifying interfering influences as drugs, physical inactivity, fever or starvation. Indeed, one should postpone a glucose tolerance test until these interfering factors abate. Management of the patient with an abnormal glucose tolerance test includes sharing the prognostic dilemma with the patient regarding the likelihood of deterioration in glucose tolerance to florid diabetes. In this situation the term, abnormal glucose tolerance test, is preferred over chemical diabetes. The physician and the patient must develop some degree of comfort with a clinical state that often remains nebulous. Though the writings of authorities occasionally sound dogmatic, rigid, and conflicting, they reflect a viewpoint which opines that no clear answers are available; that the clinician and his patient must accept this posture; and that together they must develop the best therapeutic program for the individual in question.
...
PMID:The diagnosis of diabetes: how to determine which patients to treat. 68 20

Adenylosuccinase activity of rat liver is depressed by prolonged starvation, cortisol administration, high protein diets, and alloxan diabetes. The loss of activity is not due to the accumulation of a dissociable inhibitor or loss of a cofactor. Starvation produces no loss in activity for 1 day; thereafter the activities of the liver and spleen enzyme decay with a half-life of about 0.9 day. Starvation produces no change in the activity of the kidney, brain, and skeletal muscle enzyme. Refeeding restores the activity of the liver enzyme to the fed level, with only a slight overshoot. The recovery of adenylosuccinase activity is equally rapid after refeeding a balanced diet, or corn oil, or glucose, and is not inhibited by injection of glucagon, in contrast to malic enzyme activity. Recovery is inhibited by cycloheximide, indicating the involvement of protein synthesis. Althouth adenylosuccinase is depressed in liver of starving rat it is elevated in liver of starving chicken. Starvation depresses malic enzyme activity and elevates alanine aminotransferase activity in both species. When rats are starved, the rate of de novo synthesis of adenine mononucleotide decreases in spleen and liver but not in kidney, suggesting a regulatory role for adenylosuccinase in purine biosynthesis. The low activity of adenylosuccinase in liver of severely starved rats is inconsistent with the proposal (Moss, K. M., and McGivan, J.D. (1975) Biochem. J. 150, 275-283) that the purine nucleotide cycle plays a major role in ammonia production for urea synthesis, at least under these conditions.
...
PMID:Effect of diet on adenylosuccinase activity in various organs of rat and chicken. 69 Jan 30

The amino acid pattern following total hip replacement is characterized by increases in muscle of the branched chain amino acids (leucine, isoleucine and valine), the aromatics (phenylalanine and tyrosine) as well as methionine. The nonessential amino acids in muscle tend to decline, glutamine having the most marked change. Plasma levels of the essential amino acids increase while the nonessentials tend to decrease. This pattern differs from that observed in other catabolic states (uremia, starvation, untreated diabetes) and is significantly different from the effects of inactivity and starvation combined. This suggests that injury can be characterized by a unique pattern of muscle and plasma amino acids.
...
PMID:Muscle and plasma amino acids after injury: the role of inactivity. 73 57

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>