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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Based on our new finding that an inflammation in which tumor necrosis factor (TNF) is primed or triggered (ontogenic inflammation) can regulate the homeostasis in ontogenesis, we have identified a new lipopolysaccharide from wheat flour (LPSw) that can induce ontogenic inflammation in adult mice. LPSw can prime adult mice to produce TNF when given orally or percutaneously, suggesting that it may maintain homeostasis in adults. LPSw can cure experimental animals of diabetes, hyperlipidemia, ulcer, and herpes. It can also stimulate bone resorption and egg-laying, and shows a strong analgesic effect that is blocked by naloxone. This effect even allows a release from drug addiction. Suppression of serum cholesterol level by oral uptake of LPSw in Watanabe heritable hyperlipidemic (WHHL) rabbit was also observed. Infection of toxoplasma was prevented by oral uptake of LPSw. The realization that a single oral or percutaneous administration of LPSw may be a cure for multiple intractable diseases may lead to the presentation of a nontoxic type of Coley's toxin, which is known to be an efficient cancer treatment, but has high toxicity.
Mol Biother 1992 Dec
PMID:Oral or percutaneous administration of lipopolysaccharide of small molecular size may cure various intractable diseases: a new version of Coley's toxin. 147 70

Axonal transport is known to be impaired in peripheral nerve of experimentally diabetic rats. As axonal transport is dependent on the integrity of the neuronal cytoskeleton, we have studied the way in which rat brain and nerve cytoskeletal proteins are altered in experimental diabetes. Rats were made diabetic by injection of streptozotocin (STZ). Up to six weeks later, sciatic nerves, spinal cords, and brains were removed and used to prepare neurofilaments, microtubules, and a crude preparation of cytoskeletal proteins. The extent of nonenzymatic glycation of brain microtubule proteins and peripheral nerve tubulin was assessed by incubation with 3H-sodium borohydride followed by separation on two-dimensional polyacrylamide gels and affinity chromatography of the separated proteins. There was no difference in the nonenzymatic glycation of brain microtubule proteins from two-week diabetic and nondiabetic rats. Nor was the assembly of microtubule proteins into microtubules affected by the diabetic state. On the other hand, there was a significant increase in nonenzymatic glycation of sciatic nerve tubulin after 2 weeks of diabetes. We also identified an altered electrophoretic mobility of brain actin from a cytoskeletal protein preparation from brain of 2 week and 6 week diabetic rats. An additional novel polypeptide was demonstrated with a slightly more acidic isoelectric point than actin that could be immunostained with anti-actin antibodies. The same polypeptide could be produced by incubation of purified actin with glucose in vitro, thus identifying it as a product of nonenzymatic glycation. These results are discussed in relation to data from a clinical study of diabetic patients in which we identified increased glycation of platelet actin. STZ-diabetes also led to an increase in the phosphorylation of spinal cord neurofilament proteins in vivo during 6 weeks of diabetes. This hyperphosphorylation along with a reduced activity of a neurofilament-associated protein kinase led to a reduced incorporation of 32P into purified neurofilament proteins when they were incubated with 32P-ATP in vitro. Our combined data show a number of posttranslation modifications of neuronal cytoskeletal proteins that may contribute to the altered axonal transport and subsequent nerve dysfunction in experimental diabetes.
Mol Neurobiol
PMID:Posttranslational modifications of nerve cytoskeletal proteins in experimental diabetes. 147 75

Diabetics suffer from an increased incidence of myocardial infarction and are less likely to survive an ischemic insult. Since L-propionylcarnitine (LPC) has been shown to protect against ischemic/reperfusion injury, we hypothesized that LPC may be of even greater benefit to the diabetic heart. Diabetes was induced by i.v. streptozotocin, 60 mg/kg; duration: 12 wks. The chronic effect of LPC was determined by daily i.p. injections (100 mg/kg) for 8 wks. The acute effects of LPC were determined by adding it to the perfusion medium (5 mM) of control and diabetic hearts. Initial cardiac contractile performance of isolated perfused working hearts was assessed by varying left atrial filling pressure. Hearts were then subjected to 90 min of low flow global ischemia followed by 30 min reperfusion. Chronic LPC treatment had no effect on initial cardiac performance in either control or diabetic hearts. Acute addition of LPC to the perfusion medium enhanced pump performance of control hearts, but had no effect in diabetic hearts. Both acute and chronic LPC significantly improved the ability of control and diabetic hearts to recover cardiac contractile performance after ischemia and reperfusion, however, chronic treatment was more effective in diabetic hearts.
Mol Cell Biochem 1992 Oct 21
PMID:Protection of the ischemic diabetic heart by L-propionylcarnitine therapy. 148 Jan 41

The heart utilizes fatty acids as a substrate in preference to glucose for the production of energy. The rate of fatty acid uptake and oxidation by heart muscle is controlled by the availability of exogenous fatty acids, the rate of acyl translocation across the mitochondrial membrane and the rate of acetyl-CoA oxidation by the citric acid cycle. Carnitine acyl-CoA transferase appears to have an important function in coupling the fatty acid activation and acyl transfer to the oxidative phosphorylation. Activated fatty acids are also utilized for the synthesis of triglycerides and membrane phospholipids in the myocardium. The inhibition of long chain acyl-carnitine transferase I reduces the oxidation of fatty acids and promotes the synthesis of lipids in the myocardium. Accumulation of fatty acids and their metabolites such as long chain acyl-CoA and long chain acyl-carnitine has been associated with cardiac dysfunction and cell damage in both ischemic and diabetic hearts. Alterations in the composition of membrane phospholipids are also considered to change the activities of various membrane bound enzymes and subsequently heart function under different pathophysiological conditions. Chronic diabetes was found to be associated with increased plasma lipids, subcellular defects and cardiac dysfunction. Lowering the plasma lipids or reducing the oxidation of fatty acids by agents such as etomoxir, an inhibitor of palmitoylcarnitine transferase I was found to promote glucose utilization and remodel the subcellular membranous organelles in the heart.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Cell Biochem 1992 Oct 21
PMID:Paradoxical role of lipid metabolism in heart function and dysfunction. 148 Jan 51

A microanalytical procedure for the determination of total and surface sialic acid concentrations was employed to establish their changes in relation to the length of alloxan diabetes in rat islets of Langerhans. 14 and 60 days after alloxan administration (65 mg/kg), the number of Langerhans islets was significantly decreased (p < 0.001) compared to the control. According to their size, the distribution of islets displayed no significant difference in diabetic and control animals 14 days after alloxan administration, while after 60 days no large islets (dia > or = 128 microns) were found in diabetic animals. The surface sialic acid was significantly increased in the small islets (p < 0.001), whereas no change was found in the large islets 14 days after alloxan administration. After 60 days, the surface sialic acid of both small and large islets was significantly decreased (p < 0.001). These results demonstrate that chronic beta-cell destruction induces a decrease in the sialic acid content in the pancreatic islet cells, suggesting that sialic acid might play a role in insulin secretory regulation regarding chronic effects of alloxan beta-cytotoxicity.
Cell Mol Biol (Noisy-le-grand)
PMID:Concentration of sialic acid in alloxan diabetic rat islets of Langerhans. 148 12

This study determined whether the beneficial effects of exercise training on the diabetic heart previously observed are associated with alterations in ventricular myosin heavy chain (MHC) isoform composition. Diabetes was induced in rats by i.v. streptozotocin. Trained rats were run on a treadmill for 60 min/day, 27 m/min, 10% grade. After 10 wks, ventricular MHC isoenzyme protein composition was analyzed for MHC composition using gel electrophoresis. alpha-MHC and beta-MHC mRNA were determined by Northern and slot blot hybridization techniques. Both protein and mRNA analyses indicated that sedentary control rats exhibited a predominance of alpha-MHC. Sedentary diabetics exhibited a shift to beta-MHC. Exercise trained diabetic rats showed a predominance of beta-MHC. The results indicate that treadmill exercise training of diabetic rat does not prevent the diabetes-induced shift in MHC composition towards the beta-MHC isoform, thus it is unlikely that the beneficial effects of exercise training on the diabetic heart, previously shown, are due to a normalization of the myosin isoform composition.
Mol Cell Biochem 1992 Nov 18
PMID:Effects of exercise training and diabetes on cardiac myosin heavy chain composition. 148 51

Previous studies from our laboratory have suggested that diabetes-associated central nervous system abnormalities are characterized by progressive alterations of neurotransmitters and of transductional Gi/Go proteins. In this study, we have further characterized these abnormalities in the striatum of alloxan-diabetic rats by means of adenosine 5'-diphosphate (ADP)-ribosylation, and Western and Northern blotting techniques. Fourteen weeks after diabetes induction, pertussis-toxin (PTX) catalyzed ADP-ribosylation of Gi/Go proteins was markedly reduced in diabetic animals, as shown by a clear decrease of 32P-ADPribose incorporation into G protein alpha subunits. In agreement with our previous pharmacological studies that showed a reduction of Gi-mediated modulation of adenylate cyclase activity only at this stage of diabetes, no changes in PTX-mediated ADP-ribosylation were observed earlier (5-wk diabetes). Immunoblotting studies performed by using antibodies selectively raised against Gi-2, Go, and Gs proteins did not reveal any differences between control and diabetic animals at any stage of diabetes. Similarly, the mRNAs corresponding to the alpha subunits of Gi-2, Go, and Gs proteins did not show any marked changes in chronic diabetic rats with respect to control animals. It is therefore concluded that diabetes is associated with development of a time-related alteration of cerebral Gi/Go proteins and that this defect is not owing to gross changes in either content of G proteins or mRNA level, but probably reflects modifications of G protein's structure or physiological status affecting the coupling with membrane effector systems and the sensitivity to PTX.
Mol Chem Neuropathol 1992 Dec
PMID:Diabetes-induced alterations of central nervous system G proteins. ADP-ribosylation, immunoreactivity, and gene-expression studies in rat striatum. 149 84

Renal hypertrophy and hyperfiltration are early manifestations of human and experimental diabetes that may contribute to the late development of diabetic nephropathy. The biochemical events resulting in kidney growth in the diabetic state are completely unknown. Since growth of various tissues is accompanied by increased formation of polyamines, we studied whether polyamines were involved in the growth of the kidney observed in diabetic rats. This was done by measuring the activity of the rate-limiting enzyme in the polyamine pathway (ornithine decarboxylase; ODC) in kidneys from control, diabetic and insulin-treated diabetic animals. The ODC activity in the kidney was increased in the diabetic animals with a maximal rise 24 h after diabetes induction (6-fold, P less than 0.01); the activity thereafter declined. However, on day 14 the activity was still significantly elevated (2.5-fold, P less than 0.05). In insulin-treated diabetic animals the kidney ODC activity was only increased 3-fold (P less than 0.05) after 24 h, and for the rest of the study period the activity was about 1.8-fold higher than in control rats. After 14 days the kidneys from diabetic rats were significantly larger than kidneys from both control and insulin-treated diabetic rats, 1066 +/- 43 mg vs. 904 +/- 16 mg and 959 +/- 36 mg, respectively (P less than 0.01). For comparison, the ODC activity was also investigated in muscle. However, in muscle from diabetic animals the ODC activity declined steadily during the 14 days to 34% of control values (P less than 0.01), and insulin treatment completely normalized the ODC activity in muscle.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Cell Endocrinol 1992 Jul
PMID:Increased ornithine decarboxylase activity in kidneys undergoing hypertrophy in experimental diabetes. 151 80

Before clinical onset of insulin-dependent diabetes mellitus a decreasing pancreatic beta-cell mass maintains glucose homeostasis. We currently aimed to study the function of pancreatic islets isolated 2 weeks after a 60% partial pancreatectomy (P) or after a sham operation (S) on adult rats. Experiments on the islets were subsequently performed acutely (day 0) and after 1 week (day 7) of tissue culture in medium RPMI 1640 (11.1 mM glucose) + 10% calf serum. There was no difference in the body weight 2 weeks after surgery. The pancreatic remnant weight of the P rats was 35% less than the pancreatic weight in the S rats. The islet DNA content was 25% higher in the islets of the P rats on day 0, indicating a stimulated islet growth. However, this difference did not remain after culture for 7 days. Islet proinsulin mRNA content and (pro)insulin biosynthesis rates were slightly increased in the islets of P rats on day 0, which could be due to the increased islet mass. The islet insulin content was not different on day 0, but was higher after culture in the islets of the P rats. The islet rates of glucose oxidation and insulin release were markedly higher in the P rats on day 0, suggesting a selective effect on these processes. A higher glucose oxidation rate was, however, not evident on day 7. The relative fraction of insulin-positive cells was slightly lowered in the islets of the P rats on day 0.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Cell Endocrinol 1992 Aug
PMID:Adaptive response in beta-cell function in pancreatic islets isolated from partially pancreatectomized rats. 151 84

Obesity has a multifactorial origin. However, although environmental variables undoubtedly play a role in the development of obesity, it is now clear that genetic variation is also involved in the determination of an individual's susceptibility to body fat accumulation. In addition, it is also widely accepted that obesity is not a single homogeneous phenotype. It is also heterogeneous regarding its causes and metabolic complications. The regional distribution of body fat appears to be an important correlate of the metabolic complications that have been related to obesity. Due to their higher accumulation of abdominal fat, men are generally more at risk for the metabolic complications of obesity than women whereas some obese women, with large gluteal-femoral adipose depots may have a cosmetic problem which may not necessarily require medical intervention. Several studies have been conducted to understand the mechanisms by which abdominal obesity is related to diabetes, hypertension and cardiovascular disease. It appears that the increased risk of abdominal obesity is the result of complex hormonal and metabolic interactions. Studies in genetic epidemiology have shown that both total body fatness and the regional distribution of body fat have a significant genetic component. Standardized intervention studies using an identical twin design have shown that individuals that have the same genetic background tend to show similar changes in body fat and in plasma lipoprotein levels when exposed to standardized caloric excess or energy restriction. Finally, although abdominal obesity is a significant risk factor for cardiovascular disease, not every abdominal obese subject will experience metabolic complications, suggesting that some obese individuals may be more susceptible than others. Variation in several genes relevant to lipid and lipoprotein metabolism may alter the relation of abdominal obesity to dyslipoproteinemias. Abdominal obesity should therefore be considered as a factor that exacerbates an individual's susceptibility to cardiovascular disease.
Mol Cell Biochem 1992 Aug 18
PMID:Genetic aspects of susceptibility to obesity and related dyslipidemias. 151 6


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