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

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

In order to determine the effects of acetate on signs and symptoms of hypoglycemic seizures, Swiss Webster albino mice were injected intraperitoneally with solutions of NaCl, NaHCO3, NH4Cl, Na-acetate, or NH4-acetate, followed by subcutaneous injection of 7 U of insulin/kg body wt. Administration of Na- or NH4-acetate delayed and reduced the incidence of hypoglycemic reactions. Reinjection with Na-acetate or repeated injections with NH4-acetate caused a return to normal behavior patterns for 60 and 75%, respectively, of the affected hypoglycemic experimental animals. Injections of control animals with NaHCO3 or NH4Cl showed that the results were not due to alkalosis or acidosis. Acetate administration significantly increased plasma acetate and citrate, but not glucose, lactate, beta-hydroxybutyrate, or acetoacetate concentrations. The results indicate that intraperitoneal administration of acetate directly acted to prevent signs of hypoglycemia from occurring and reversed its manifestations when they were present. The protective effect of acetate suggests that it may serve as a fuel for the brain.
Diabetes 1979 Nov
PMID:Effect of acetate on hypoglycemic seizures in mice. 48 41

In a previous study (Frazier et al., 1990), it was demonstrated that two patients with type 1 (insulin-dependent) diabetes mellitus had antibodies in their serum which reacted with four 29 kDa pancreas-specific proteins on two-dimensional immunoblots. This paper reports on the purification and identification of these pancreatic proteins. The protein with the pI closest to pH7 was purified through the use of ammonium sulfate fractionation and ion-exchange chromatography. Gel filtration chromatography established that the protein's molecular weight was closer to 25 kDa. Amino acid composition and sequence analyses demonstrated homology between the protein and chymotrypsin. It is suggested that an abnormal regulation of chymotrypsin activity might be related to antibodies formed in some diabetic patients.
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PMID:Chymotrypsin-reactive antibodies in insulin-dependent diabetes mellitus. 158 8

Previous studies have indicated that cephaloridine nephrotoxicity was reduced in streptozotocin (STZ)-induced diabetic rats. Experiments were performed to investigate if a shorter duration of diabetes would reduce cephaloridine nephrotoxicity. Studies were also conducted to examine the contribution of osmotic diuresis and ketone accumulation to the mechanism for reduced toxicity. Male Fischer 344 (F344) rats were injected with 30 mg/kg STZ or vehicle. Seven days after STZ or vehicle administration, the animals were treated (i.p.) with 1500 mg/kg cephaloridine. Increased kidney weight, blood urea nitrogen (BUN) level and decreased renal cortical slice accumulation of p-aminohippurate (PAH) and tetraethyl-ammonium (TEA) were measured in the normoglycemic group. No differences in renal function were detected between diabetic groups treated with cephaloridine or vehicle (PFC). Pretreatment of euglycemic rats with 0 or 10% dextrose in the drinking water and by oral gavage failed to prevent the renal damage produced by 1500 mg/kg cephaloridine despite glucosuria and urine output comparable to diabetic animals. However, dextrose-diuresis afforded a slight reduction in toxicity as indicated by changes in kidney weight and renal cortical slice accumulation of PAH and TEA. Pretreatment (oral) with 0 or 1.5 ml/kg acetone had no effect on cephaloridine toxicity (1000 mg/kg, i.p.). These findings suggested that attenuation of cephaloridine toxicity may be independent of the duration of diabetes. These results also indicated that glucose-mediated osmotic diuresis and acetone accumulation cannot account for reduced cephaloridine toxicity in diabetic rats.
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PMID:Contribution of acetone and osmotic-diuresis by streptozotocin-induced diabetes in attenuation of cephaloridine nephrotoxicity. 173 16

We used the fluorescent dye 2',7'-bis-(2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF) to examine intracellular pH (pHi) regulation in single hepatocytes isolated from control rats and rats with either spontaneous or drug-induced diabetes mellitus (DM). In the absence of CO2-HCO3-, both control and DM cells recovered from cellular acid loads applied by the NH4+ prepulse technique. Because the pHi recovery was blocked by either Na+ withdrawal or ethylisopropylamiloride in both control and DM cells, it was presumably mediated by Na(+)-H+ exchange. In the control cells, the pHi threshold above which the rate of change of pHi (dpHi/dt) was zero was 7.06, and the slope of the dpHi/dt-pHi relationship was -0.030 s-1. In the DM cells, the pHi threshold was 7.22 and the slope was -0.017 s-1. Thus, at pHi values below approximately 6.9, the pHi recovery was slower in the DM cells. Inasmuch as we observed no difference in the cellular buffering power between control and DM cells, diabetes inhibits Na(+)-H+ exchange within this low pHi range. At pHi values above approximately 6.9, however, Na(+)-H+ exchange was apparently stimulated by diabetes. Thus diabetes induces two distinct alterations of Na(+)-H+ exchange, an alkaline shift in pHi threshold and decrease in slope. Treatment of diabetic rats with insulin for 48 h restored both Na(+)-H+ exchange parameters to normal. On the other hand, insulin added in vitro to DM cells for 2-5 h shifted the threshold toward the control value without affecting the slope, thus leading to a further inhibition of Na(+)-H+ exchange over the entire pHi range.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of diabetes on Na(+)-H+ exchange by single isolated hepatocytes. 184 69

In quiescent papillary muscles isolated from hearts of rats with streptozotocin-induced diabetes resting intracellular sodium activity (aiNa) was about 56% greater than in muscles from controls. An intracellular acid load induced by the NH4+ method caused a rise in aiNa whose maximum amplitude was similar in both groups of muscles. However, the half-time to maximum amplitude was increased by about 56% in diabetic muscles. These results are consistent with a diabetes-induced decrease in the activity of the sarcolemmal Na(+)-H+ exchange.
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PMID:Intracellular sodium activity in papillary muscle from diabetic rat hearts. 184 20

During studies performed on domestic cats made acidotic with ammonium chloride, it was found that the cat kidney is unable to adapt to metabolic acidosis. Renal proximal tubules do not increase their production of ammonia or glucose from glutamine during acidosis. During in vivo studies, the renal excretion of ammonia did not change much during acidosis. Other metabolic parameters in the cat were not very different from those found in other animals such as rat or dog. However, it was found that cats may show a relatively high plasma glucose concentration compared with other animals. Plasma insulin concentration was normal, and the animals showed no evidence of diabetes mellitus. It is not known whether limitation of ammoniagenesis and elevated plasma glucose concentration also characterize larger felidae such as panthers and cougars.
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PMID:Metabolic characteristics of cat kidney: failure to adapt to metabolic acidosis. 197 42

Renal tubular acidosis refers to a group of disorders that result from pure tubular damage without concomitant glomerular damage. They could be hereditary (primary) or acquired (secondary to various disease states like sickle cell disease, obstructive uropathy, postrenal transplant, autoimmune disease, or drugs). The hallmark of the disorder is the presence of hyperchloremic metabolic acidosis with, or without, associated defects in potassium homeostasis, a UpH greater than 5.5 in the presence of systemic acidemia, and absence of an easily identifiable cause of the acidemia. There are three physiologic types whose basic defects are impairment of or a decrease in acid excretion, i.e., type 1 (dRTA); a failure in bicarbonate reabsorption, i.e., type 2 (pRTA); and deficiency of buffer or impaired generation of NH4+, i.e., type 4 RTA. Several pathophysiologic mechanisms have been postulated for these various types. pRTA is the least common of all in the adult population. It rarely occurs as an isolated defect. It is frequently accompanied by diffuse proximal tubule transport defects with aminoaciduria, glycosuria, hyperphosphaturia, and so forth (Fanconi syndrome). dRTA is associated with a high incidence of nephrolithiasis, nephrocalcinosis, osteodystrophy, and growth retardation (in children). Osteodystrophy also occurs in pRTA to a lesser degree and is believed to be secondary to hypophosphatemia. Patients with type 4 RTA usually have mild renal insufficiency from either diabetes mellitus or interstitial nephritis. Acute bicarbonate loading will result in a high fractional excretion of bicarbonate greater than 15% (FEHCO3- greater than 15%) in patients with pRTA, but FEHCO3- less than 3% in patients with dRTA. Type I patients will also have a low (U - B) PCO2 with bicarbonate loading. They are also unable to lower their urine pH to less than 5.5 with NH4Cl loading. The treatment of these patients involves avoidance of precipitating factors when possible, treatment of underlying disease, correction of electrolyte imbalance, particularly hypokalemia and hyperkalemia, and most importantly, the use of alkali. This will prevent or reduce all the various complications.
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PMID:Renal tubular acidosis. 208 16

In insulin-dependent diabetes mellitus in humans, the BB rat and the NOD mouse, serum has been reported to contain autoantibodies that precipitate a 64,000 Mr protein from (32S) methionine labeled histoincompatible non-autoimmune rat or mouse islet cell proteins. Because experimental data reported recently have brought into question the role of the 64,000 Mr protein in targeting autoantibodies and hence initiate beta-cell destruction, we report differently designed experiments to clarify the apparent 64,000 Mr autoantigen enigma. Using an in vitro model of NOD mouse origin mimicking diabetic insulitis we found that target beta-cells induced a 6-fold increase in proliferative response of splenic L3T4+, Thy-1,2+ T cells. The magnitude of the proliferative response was not affected when target beta-cells were pretreated with 50% (vol/vol) partially purified immunoglobulins ((NH4)2SO4 precipitation at 33% saturation) from sera from newly diagnosed (less than 4d after onset) diabetic NOD mice. Cytofluorimetric analysis of beta-cells pretreated with partially purified immunoglobulins plus FITC-conjugated goat antimouse IgG as a second-step antibody were negative and thus gave no indication of an autoantigen-autoantibody complex formed on the surface of the beta-cells. We conclude from the experimental data that it remains still in question whether an autoantigen is targeted by an islet cell surface specific autoantibody and plays a role as a triggering event in the pathogenesis of diabetes in NOD mice.
Diabetes Res 1990 Jan
PMID:Autoantibodies in the sera from newly diagnosed diabetic nod mice: evidence against cross-reactivity with a putative beta-cell surface autoantigen. 209 91

We recently identified a 32 K mol wt insulin-like growth factor (IGF)-binding protein (BP) which is markedly increased in the serum of streptozotocin-diabetic rats and recognized by antiserum against the human amniotic fluid IGFBP (hIGFBP-1). In the present study we sought to confirm that this protein represents the rat homolog of IGFBP-1 (rIGFBP-1), and that rIGFBP-1 may, therefore, play an important role in the regulation of IGF bioactivity in experimental diabetes. Since the abundance of related hepatic mRNA is high in diabetic rats, we asked whether well differentiated H4EIIC3 rat hepatoma cells produce rIGFBP-1 and provide sufficient amounts of this protein for purification and further characterization. Specific IGF-binding activity in hepatoma conditioned medium was detected initially by incubation with 125I-labeled recombinant human IGF-II and precipitation with polyethylene glycol. Ligand blotting demonstrated a 32 K BP, identical in size to the major low mol wt IGFBP found in diabetic rat serum. Affinity labeling and immunoprecipitation confirmed that this BP is related to human IGFBP-1 and is distinct from the fetal rat IGFBP, rIGFBP-2. Incorporation of [35S]methionine into 32 K BPs confirmed synthesis by hepatoma cells. For purification of BPs, conditioned medium was collected in roller culture, and BPs were purified by ammonium sulfate precipitation, Sephadex G-75 chromatography, and reverse phase HPLC. Partial amino acid sequencing of purified protein demonstrated 68% identity with the human IGFBP-1 and distinguished this BP from previously characterized rat IGFBPs. Purified protein bound both IGF-I and IGF-II with high affinity. We conclude that the 32 K IGFBP produced by H4EIIC3 hepatoma cells in culture represents the rat form of IGFBP-1 (rIGFBP-1). Regulation of rIGFBP-1 may play an important role in the modulation of IGF bioactivity in experimental animals with metabolic disease. The availability of purified rIGFBP-1 and identification of a cell line that produces this BP will greatly facilitate future studies of IGFBP-1 in the rat model.
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PMID:Production of the rat type 1 insulin-like growth factor-binding protein by well differentiated H4EIIC3 hepatoma cells: identification, purification, and N-terminal amino acid analysis. 216 20

The central theme explored is that the rate of ATP production cannot exceed its rate of use in any organ or compartment. Thus the rate of ATP turnover exerts an absolute control over the rates in pathways that synthesize it. This is manifested in two major ways: substrate competition for oxidation and the influence of changes in oxygen consumption rate on the rate of fuel oxidation. By direct measurement, the rate of ketogenesis in the liver is as high as 1500 mmol/day during chronic ketoacidosis of fasting. Given the limited ate of hepatic oxygen consumption, ketogenesis and glucose synthesis from amino acids compete as precursors for hepatic ATP synthesis. Thus There is little room to increase the rate of ketoacid production further in these subjects. Energy turnover considerations in the kidney during chronic fasting seem to limit renal NH4+ production. In this case, there is competition between glutamine and ketone bodies as ATP precursors. This aspect may be important in the regulation of lean body mass catabolism of fasting. There is a "trade-off" in maintaining high circulating ketone body concentrations during fasting. The benefit is primarily for the CNS, and the cost is small loss of lean body mass owing to the need for high rates of NH4+ excretion.
Diabetes Metab Rev 1989 Jun
PMID:Renal and hepatic aspects of ketoacidosis: a quantitative analysis based on energy turnover. 265 59


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