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: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Results from recent studies have indicated that pancreatic islet prohormone converting enzymes are membrane-associated in islet microsomes and secretory granules. This observation, along with the demonstration that proglucagon is topologically segregated to the periphery within alpha cell secretory granules in several species, led us to investigate the possibility that newly synthesized islet prohormones might be associated with intracellular membranes. Anglerfish islets were incubated with [3H]tryptophan and [14C]isoleucine for 3 h, then fractionated by differential and density gradient centrifugation. Microsome (M) and secretory granule (SG) fractions were halved, sedimented, and resuspended in the presence or absence of dissociative reagents. After membrane lysis by repeated freezing and thawing, the membranous and soluble components were separated by centrifugation. Extracts of supernatants and pellets were chromatographed by gel filtration; fractions were collected and counted. A high proportion (77-79%) of the newly synthesized proinsulin and insulin was associated with both M and SG membranes. Most of the newly synthesized proglucagons and prosomatostatins (12,000-mol-wt precursors) were also membrane-associated (86-88%) in M and SG. In contrast, glucagon- and somatostatin-related peptides exhibited much less membrane-association in SG (24-31%). Bacitracin, bovine serum albumin EDTA, RNAse, alpha-methylmannoside, N-acetylglucosamine, and dithiodipyridine had no effect on prohormone association with membranes. However, high salt (1 M KCl) significantly reduced membrane-association of prohormones. Binding of labeled prohormones to SG membranes from unlabeled tissue increased with incubation time and was inhibited by unlabeled prohormones. The pH optimum for prohormone binding to both M and SG membranes was 5.2. It is suggested that association of newly synthesized prohormones with intracellular membranes could be related to the facilitation of proteolytic processing of prohormones and/or transport from their site of synthesis to the secretory granules.
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PMID:Association of newly synthesized islet prohormones with intracellular membranes. 614 27

Paired indirect immunoenzyme staining based on primary antisera from the same species was performed sequentially without intermediate antibody elution. The first antigen was labelled brown by an immunoperoxidase procedure (either the two-stage indirect method, the unlabelled antibody peroxidase-antiperoxidase method, or the avidin-biotin bridge method using diaminobenzidine (DAB) and hydrogen peroxide as the substrates. The second antigen was labelled blue by applying a two-stage indirect immuno-alkaline phosphatase procedure using naphthol AS phosphate and Fast Blue BB salt as the substrate. In this way, polyclonal mucosal immunocytes were revealed in distinctly contrasting colours when stained for kappa and lambda light chains. Glucagon and somatostatin (D) cells in human pancreatic islets, and gastrin and D cells in human gastric antral glands, were likewise clearly differentiated. Conversely, a mixed colour appeared in some immunocytes after staining for alpha and kappa chains. However, unbalanced colour mixing was sometimes difficult to interpret, and additional experiments demonstrated that unwanted interactions could take place between the two sequences of reagents if the density of the DAB deposits was insufficient. These pitfalls were incompatible with unequivocal double staining in the same cell. Nevertheless, paired staining could be conveniently applied with the described procedures when prior knowledge had established that the antigens in question were located in separate cells.
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PMID:Paired indirect immunoenzyme staining with primary antibodies from the same species. Application of horseradish peroxidase and alkaline phosphatase as sequential labels. 620 74

The effect of bile flow and adenosine 3',5'-cyclic monophosphate (cAMP) secretion of substances that alter cAMP metabolism in other systems was evaluated. The experiments were performed on awake dogs with chronic biliary and gastric fistulas and on anesthetized rabbits prepared with acute bile fistulas. In all experiments the enterohepatic circulation was maintained by intravenous bile salt administration. In dogs, glucagon increased bile flow and bile cAMP secretion with 4 micrograms . kg-1 . h-1 increasing bile flow from control values of 273 +/- 27 to 413 +/- 6 microliters/min, whereas bile cAMP concentration rose from 3.9 +/- 0.9 to 12.1 +/- 1.1 nmol/ml. Theophylline in dogs increased bile flow while cAMP secretion decreased. Evaluation of the effects of theophylline on glucagon-stimulated bile flow suggest that both agents act by the same mechanism; however, theophylline did not significantly alter glucagon-stimulated increases in bile cAMP. In rabbits, glucagon increased bile cAMP secretion while bile flow was not significantly changed. Hormonal production of increased systemic or hepatic cAMP can increase bile cAMP unassociated with changes in bile flow. Based on the measurement of cAMP in bile the increase in glucagon-stimulated bile flow produced by theophylline is not cAMP mediated.
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PMID:Effect of glucagon on bile cAMP secretion. 624 43

The MDCK dog kidney epithelial cell line has been shown to retain the capacity for vectorial salt and fluid transport, sensitivity to growth regulation, and the ability to regenerate kidney tubular-like structures when injected into athymic nude mice. MDCK cells grown in tissue culture or in baby nude mice have the morphological properties of distal tubular cells, form tight and gap junctions, lack proximal tubular enzyme markers, and possess appreciable activities of Na+-K4-ATPase, ectoleucine aminopeptidase, and ectoalkaline phosphatase. Adenylate cyclase in intact cells is responsive to vasopressin, prostaglandins E1 and E2, and glucagon. Two Na+ transport systems have been characterized: a Na+-H+ antiport system, sensitive to amiloride inhibition, and a NaCl-KCl cotransport system, dependent on metabolic energy and sensitive to furosemide inhibition. Genetic techniques have been used to modify the properties of the cells. The results suggest that the MDCK cell line has retained the differentiated properties of the kidney epithelial cells of origin and that a clonally isolated cell possesses the receptor, transmission, and target enzyme systems necessary for the regulation of transcellular salt and fluid transport.
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PMID:Growth and differentiated properties of a kidney epithelial cell line (MDCK). 625 47

The reaction of nitromalondialdehyde with the arginine residues of glucagon results in the conversion of the 2 arginine residues in the peptide to delta-(5-nitro-2-pyrimidyl)ornithine to form di[delta-(5-nitro-2-pyrimidyl)ornithine 17,18]glucagon (NP-glucagon). The modified peptide does not exhibit any loss in ability to activate adenylate cyclase of rat liver plasma membranes or to stimulate glycogenolysis in cortisone-primed rabbits relative to the native hormone despite this marked alteration in structure. The CD of dilute solutions of NP-glucagon is similar to that of the native hormone. In the absence of salt, the CD of NP-glucagon is independent of peptide concentration, but structures of higher helical content are observed in concentrated peptide solutions in the presence of 0.1 M NaCl and in methanol. The extent of helix formation under these conditions is greater than that given by glucagon. Results from viscosity and proton magnetic resonance spectra confirm and extend previous studies to indicate that this fully active derivative is in a compact folded conformation.
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PMID:Conformational and biological properties of di[delta-(5-nitro-2-pyrimidyl)ornithine 17,18]glucagon. Role of the arginine residues. 629 99

Experiments were performed to determine whether the TSH receptor-adenylate cyclase (AC) system in benign and malignant thyroid neoplasms differs from the TSH receptor-AC system in normal thyroid tissue removed from the same patients. TSH binding and AC assays were performed using the same in vitro conditions. TSH binding was rapid, reversible, saturable, and hormone specific in particulate fractions from both normal and neoplastic thyroid tissue. A positive correlation existed between the equilibrium constants for [125I]bovine ([125I]bTSH) TSH binding and the concentration of TSH required to activate AC, suggesting that binding sites were coupled to AC in neoplastic thyroid tissue. Mean values for dissociation constants (Kd1 and Kd2), capacity (site 2), as determined by Scatchard analysis, and nonspecific binding (NSB) for the TSH receptors were lower in neoplastic thyroid. Some normal thyroid tissue appeared to lack a high affinity site, and some tumors lacked a low affinity binding site. Hormone specificities (bTSH, human (h) TSH, hLH, hFSH, hGH, hACTH, and glucagon) in normal thyroid and neoplastic tissue were virtually identical. hFSH, hACTH, hGH, and glucagon failed to inhibit [125I]bTSH binding or stimulate AC in either normal or neoplastic thyroid tissue, whereas hLH inhibited [125I]bTSH binding and stimulated AC, but required 10- to 100-fold higher concentrations than hTSH or bTSH. The specific binding and NSB of [125I]bTSH in both normal and neoplastic thyroid tissue was highest at pH 7.0 and lowest at pH 8.3. In contrast to bTSH binding, TSH stimulation of AC was lowest at pH 7.0 in both normal and neoplastic tissues and highest at pH levels of 7.5-8.0. TSH binding and TSH stimulation of AC activity were highest in the absence of NaCl and decreased progressively as the salt concentration was increased in both normal and neoplastic thyroid tissues. Increasing the sucrose concentration and, thus, the osmolarity of the system had a minimal effect on the binding of [125I]bTSH. Preincubation with ammonium sulfate did not significantly influence binding. Basal AC activity and the AC response to TSH were greater in neoplastic thyroid than in normal tissues. These studies demonstrate that changes in salt concentration and pH affect the TSH receptor-cyclase system in a comparable fashion in normal and neoplastic thyroid tissues. The discriminatory properties of the TSH receptor are also maintained in thyroid neoplasms. Thyroid tumors, however, have a higher affinity for TSH and display a greater AC response to TSH than normal thyroid tissue.
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PMID:Characterization of the thyrotropin receptor-adenylate cyclase system in neoplastic human thyroid tissue. 630 32

Insulin and glucagon choleresis was studied in an in situ, isolated perfused guinea pig liver system. Glucagon caused a small, significant increase in bile salt independent flow (1.83 +/- 0.19 to 2.02 +/- 0.23 microliter g-1 min-1), and dose-related increments over 2-16 micrograms were observed. Insulin alone had no choleretic effect. However, the combination of insulin and glucagon caused a response (1.89 +/- 0.15 to 2.42 +/- 0.19) greater than glucagon alone, and insulin stimulated choleresis when glucagon was present in substimulatory amounts. These observations demonstrate direct effects of glucagon and insulin upon the bile secretory apparatus. Glucagon directly stimulates choleresis, while insulin acts more subtly by potentiation with glucagon.
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PMID:Insulin or glucagon choleresis in the isolated perfused guinea pig liver. 634 95

Teleost fish osmoregulation is largely the result of integrated transport activities of the gill, gut and renal system. The basic 'epithelial fabric' in each of these tissues is adapted to provide the appropriate transport mechanisms depending upon whether the fish is in fresh water or sea water. Net NaCl transport by the branchial epithelium reverses direction when euryhaline species migrate between the two media, providing a useful focus in experiments designed to elucidate mechanisms of differentiation and integration of transport function. Isolated opercular membranes and skins from certain seawater-adapted species are good models to study branchial salt extrusion mechanisms. These heterogeneous tissues generate short-circuit currents equal to net chloride secretion. The vibrating probe technique has allowed localization of all current and almost all conductance to the apical crypt of chloride cells. Area-specific surface current and conductance of chloride cells are 18 mA cm-2 and 580 mS cm-2 (1.7 omega cm2), ranking them as one of the most actively transporting and conductive cells known. There is no net sodium transport under short-circuit conditions but the chloride secretion process is sodium-dependent and ouabain and 'loop'-diuretic sensitive. Sodium fluxes through chloride cells are large (PNa = 5.2 X 10(-4) cms-1) nd appear passive and rate-limited by a single barrier. A link may exist between the active transport and leak pathways since sodium fluxes always account for 50% of chloride cell conductance. The sodium pathway is probably the chloride cell-accessory cell tight junction, although this is still unresolved. Chloride secretion can be rapidly modulated by several hormones, including catecholamines, somatostatin, glucagon, vasoactive intestinal polypeptide and urotensins I and II. Regulation by these hormones may be by rapid alterations of cellular cAMP levels. Differentiation of chloride cells and chloride secretion may be controlled by cortisol and prolactin. Cortisol stimulates chloride cell proliferation and differentiation and appears to interact with NaCl to initiate salt secretion. Prolactin appears to cause chloride cell dedifferentiation by reducing both the active-transport and leak pathways proportionately.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Chloride cells and the hormonal control of teleost fish osmoregulation. 636 Dec 7

Mongrel dogs were prepared by cholecystectomy, ligation of the lesser pancreatic duct, and insertion of modified Thomas cannulas into the stomach and duodenum. When the dogs had recovered from surgery, studies were performed on them, conscious and unanesthetized after an overnight fast. The common bile duct was catheterized through the opened duodenal cannula for collection of hepatic bile. Bile flow was stabilized by the intravenous infusion of sodium taurocholate. After 2 hr of taurocholate infusion, insulin was added to the infusion and continued for the duration of the experiment. Glucose was administered intravenously during the first 120 min of insulin administration to maintain euglycemia; then the glucose was discontinued. The intravenous infusion of insulin during euglycemia maintained by glucose infusion caused a significant increase in bile flow and a decrease in bile salt concentration, but no change in bile salt output. There was a decrease in cholesterol concentration and output and in phospholipid concentration, but no significant change in phospholipid output. When glucose infusion was discontinued and hypoglycemia occurred, there was a further significant increase in bile flow, but no other change. These studies demonstrate that the choleretic action of insulin is not dependent upon hypoglycemia and that intravenously administered insulin may cause increased bile secretion without increase in serum glucagon concentration. These experiments also confirm that insulin choleresis may be associated with a decline in cholesterol output.
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PMID:Insulin's effect on bile flow and lipid excretion during euglycemia and hypoglycemia. 636 19

Injury or stress generates a vigorous metabolic response designed to establish the metabolic priorities required for the repair of injured tissues. In this condition, hormones commonly found to be elevated in the plasma include glucagon, catecholamines, glucocorticoids, growth hormone, aldosterone, and antidiuretic hormone. This hormonal profile results in rapid lysis of body protein, an increased rate of fat oxidation, and water and salt conservation. Rates of gluconeogenesis and ureagenesis are accelerated and may result in significant losses in lean body mass, a process that, if allowed to progress, will adversely affect patient survival. Exogenous nutrients provided to the critically ill patient may be poorly tolerated and may result in complications. Dextrose and intravenous fat emulsions provide the major sources of parenteral, nonprotein energy. These energy sources may not be metabolized efficiently in these patients, even though energy expenditure in this condition is increased significantly. Measurement of urinary nitrogen losses yields evidence useful in assessing the patient's degree of stress. In this manner, the patient's energy and protein requirements may be estimated. Formulations of amino acids, including the branched-chain amino acids, in higher concentrations have been reported to have anticatabolic effects and may improve the maintenance of lean body mass in stressed individuals. The stressed patient is prone to metabolic complications and, therefore, requires more careful monitoring of fluid, electrolyte, and acid-base balance, as well as renal, pulmonary, and liver function. Nutritional status is difficult to assess, since negative nitrogen balance may persist and the visceral proteins such as transferrin become altered in stress and, therefore, may not respond to nutritional intervention alone. The goal of nutritional therapy is the preservation of lean body mass by the safe and efficacious provision of metabolic substrate, thus improving patient survival.
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PMID:Nutritional support of the critically ill patient. 640 74


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