UNIPROT:P01275 - FACTA Search

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

In isolated adipocytes, epidermal growth factor (EGF) did not affect basal (nonstimulated) lipolysis, but interfered with the lipolytic action of isoproterenol (ISO) or glucagon. Similarly, EGF did not affect basal levels of cyclic AMP but interfered with the signal generated by ISO. However, EGF did not affect lipolysis stimulated by forskolin or cyclic AMP analogues. These results suggest that EGF interfered with the signal transduction between lipolytic hormone receptors and adenylate cyclase. To determine whether EGF was activating a Gi protein, adenosine deaminase (ADA) was added to degrade endogenously released adenosine. While the nonmetabolizable adenosine analogue N6-(phenylisopropyl)adenosine (PIA) inhibited ADA-stimulated lipolysis, EGF affected neither ADA-stimulated lipolysis nor the dose-response curve for PIA. However, EGF did not affect ISO-stimulated lipolysis in pertussis toxin-treated cells. Similarly, in the presence of ADA, the effects of ISO on lipolysis and on cyclic AMP levels were not affected by EGF. The addition of PIA restored the effect of EGF on both lipolysis and cyclic AMP. Since EGF decreased the IC50 for the inhibitory effect of PIA on (ISO+ADA)-stimulated lipolysis, we suggest that EGF modulates the interaction between GS and Gi in the control of adenylate cyclase.
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PMID:Epidermal growth factor modulates the lipolytic action of catecholamines in rat adipocytes. Involvement of a Gi protein. 839 36

The effect of the adenosine A1 receptor activation on calcitonin secretion was studied in medullary thyroid carcinoma cells of the rat (rMTC 6-23). Calcitonin was determined by radioimmunoassay, intracellular cAMP by protein binding assay, intracellular calcium in fura-2 loaded single cells using microspectrofluorimetry, and calcium channel activity by patch clamp technique. The adenosine A1 receptor analogue N-6 phenylisopropyl-adenosine (PIA) (10(-10)-10(-6) M) inhibits dose-dependently glucagon (10(-7) M) and rGRH (10(-7) M) stimulated cAMP formation and calcitonin secretion. These effects were partly abolished by pretreatment with pertussis toxin (PT) (100 ng/ml). PIA (10(-10)-10(-6) M) also suppressed extracellular calcium-stimulated calcitonin secretion, rises in intracellular calcium, and calcium channel currents. PT (100 ng/ml) pretreatment again partly abolished this inhibitory effect. The addition to the medium of adenosine deaminase (0.4 U/ml) stimulated calcitonin secretion. Our results suggest that in calcitonin-secreting cells A1 receptors couple to adenylate cyclase and calcium channels via PT-sensitive G proteins and thus inhibit calcitonin secretion. Adenosine seems to act as an autocrine/paracrine factor in calcitonin-secreting cells.
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PMID:Adenosine A1-receptors inhibit cAMP and Ca2+ mediated calcitonin secretion in C-cells. 855 39

Epidermal growth factor (EGF) and insulin induced similar effects in isolated rat adipocytes. To determine whether EGF and insulin produced similar effects through the same mechanisms, we focused on lipolysis. Insulin inhibited the lipolysis stimulated by isoproterenol, glucagon (either alone or in combination with adenosine deaminase), adenosine deaminase itself, or forskolin. In contrast, EGF did not inhibit the lipolysis stimulated by forskolin or by hormones when the cells were also incubated with adenosine deaminase. The effect of insulin, but not that of EGF, on isoproterenol-stimulated lipolysis disappeared when adipocytes were incubated with 1 microM wortmannin. These results indicate that EGF and insulin affected lipolysis through different mechanisms. We observed that EGF, but not insulin, increased cytosolic Ca2+. The effect of EGF, but not that of insulin, disappeared when the cells were incubated in a Ca2+-free medium. We suggest that EGF, but not insulin, mediate its antilipolytic effect through a Ca2+-dependent mechanism which, however, do not involve Ca2+-activated protein kinase C isoforms. This is based on the following: 1) phorbol 12-myristate 13-acetate affected lipolysis in an opposite way to that of EGF; and 2) the protein kinase C inhibitor bisindolylmaleimide GF 109203X did not affect the antilipolytic action of EGF. Our results indicate that the antilipolytic effect of EGF resembles more that of vasopressin than that of insulin.
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PMID:The antilipolytic effects of insulin and epidermal growth factor in rat adipocytes are mediated by different mechanisms. 882 75

The effects of pyrazinoylguanidine (PZG) on lipolysis and intracellular cyclic AMP concentrations were investigated in isolated rat adipocytes. PZG reduced basal cyclic AMP concentrations and blocked in a concentration-dependent manner forskolin (1 mumol/l) and isoproterenol (1 mumol/l) stimulatory effects on intracellular cyclic AMP production and lipolysis. PZG's effects on hormone-sensitive lipase were investigated in the presence and absence of glucagon (1 mumol/l) or isoproterenol (1 mumol/l). PZG inhibited uncompetitively the induction of hormone-sensitive lipase by either glucagon or isoproterenol. PZG's antilipolytic effects appeared to result from downregulation of intracellular cyclic AMP concentrations. In adipose tissue, cyclic AMP controls lipolysis through hormone-sensitive lipase. PZG's downregulation of lipolysis and cyclic AMP concentrations was unaffected by adenosine deaminase or pertussis toxin, suggesting that PZG did not activate Gi, the inhibitory guanyl nucleotide regulatory protein.
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PMID:Studies on pyrazinoylguanidine. 3. Downregulation of lipolysis in isolated adipocytes. 895 58

Membrane peptidases are a group of ectoenzymes with a broad functional repertoire. In protein metabolism, their importance is well known, especially in peptide degradation and amino acid scavenging at the intestinal and renal brush border. However, they also perform more subtle tasks; not only do they provide or extinguish signals by cleaving exterior peptide mediators, but they also may function as receptors or participate in signal transduction or in adhesion. Dipeptidyl peptidase IV (DPPIV), which is identical to the lymphocyte surface glycoprotein CD26, is unique among these peptidases because of its ability to liberate Xaa-Pro and less efficiently Xaa-Ala dipeptides from the N-terminus of regulatory peptides. It occurs in the plasma membrane as a homodimer with a total molecular mass of 22-240 KdA and the C-terminal domain probably forms on alpha/beta hydrolase fold. In addition to, but independent of its serine type catalytic activity, DPPIV binds closely to the soluble extracellular enzyme adenosine deaminase. The in vivo expression on epithelial, endothelial and lymphoid cells of DPPIV is compatible with a role as physiological regulator of a number of peptides that serve as biochemical reporters between and within the immune and neuroendocrine system. Surprisingly, not cytokines with a N-terminal Xaa-Pro motif, but a number of chemokines have recently been identified as substrates. Despite DPPIV mediates only a minimal N-terminal truncation, important alterations in chemokine activities and receptor specificitIes were observed in vitro together with modified inflammatory and antiviral responses. Most probably the great flexibility of the N-terminus of a number of chemokines facilitates the accessibIlity to the catalytic site of DPPIV. Other known substrates which are subject in vitro to receptor-specific changes induced by DPPIV truncation include neuropeptides such as substance P, peptidE YY and neuropeptide Y. On the other hand, DPPIV mediated cleavage of the N-terminal His-Ala or Tyr-Ala dipeptides from circulating incretin hormones like, glucagon-like peptides (GLP)-1 and -2, gastric inhibitory polypeptide (GIP), all members of the enteroglucagon/GRF superfamily, results in their biological inactivation in vitro and in vivo. Administration of specific DPPIV inhibitors closes this pathway of incretin degradation and greatly enhances insulin secretion. The improved glucose tolerance in several animal models for type II diabetes points to specific DPPIV inhibition as a pharmaceutical approach for type 2 diabetes drug development.
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PMID:Peptide truncation by dipeptidyl peptidase IV: a new pathway for drug discovery? 1128 88

Dipeptidyl peptidase IV/CD26 (DP IV) is a multifunctional serine protease cleaving off dipeptides from the N-terminus of peptides. The enzyme is expressed on the surface of epithelial and endothelial cells as a type II transmembrane protein. However, a soluble form of DP IV is also present in body fluids. Large scale expression of soluble human recombinant His(6)-37-766 DP IV, using the methylotrophic yeast Pichia pastoris, yielded 1.7 mg DP IV protein per litre of fermentation supernatant. The characterisation of recombinant DP IV confirmed proper folding and glycosylation similar to DP IV purified from porcine kidney. Kinetic comparison of both proteins using short synthetic substrates and inhibitors revealed similar characteristics. However, interaction analysis of both proteins with the gastrointestinal hormone GLP-1(7-36) resulted in significantly different binding constants for the human and the porcine enzyme (Kd = 153.0 +/- 17.0 microM and Kd = 33.4 +/- 2.2 microM, respectively). In contrast, the enzyme adenosine deaminase binds stronger to human than to porcine DP IV (Kd = 2.15 +/- 0.18 nM and Kd = 7.38 +/- 0.54 nM, respectively). Even though the sequence of porcine DP IV, amplified by RT-PCR, revealed 88% identity between both enzymes, the species-specific variations between amino acids 328 to 341 are likely to be responsible for the differences in ADA-binding.
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PMID:Characterisation of human dipeptidyl peptidase IV expressed in Pichia pastoris. A structural and mechanistic comparison between the recombinant human and the purified porcine enzyme. 1471 97

DP (dipeptidyl peptidase) IV is the archetypal member of its six-member gene family. Four members of this family, DPIV, FAP (fibroblast activation protein), DP8 and DP9, have a rare substrate specificity, hydrolysis of a prolyl bond two residues from the N-terminus. The ubiquitous DPIV glycoprotein has proved interesting in the fields of immunology, endocrinology, haematology and endothelial cell and cancer biology and DPIV has become a novel target for Type II diabetes therapy. The crystal structure shows that the soluble form of DPIV comprises two domains, an alpha/beta-hydrolase domain and an eight-blade beta-propeller domain. The propeller domain contains the ADA (adenosine deaminase) binding site, a dimerization site, antibody epitopes and two openings for substrate access to the internal active site. FAP is structurally very similar to DPIV, but FAP protein expression is largely confined to diseased and damaged tissue, notably the tissue remodelling interface in chronically injured liver. DPIV has a variety of peptide substrates, the best studied being GLP-1 (glucagon-like peptide-1), NPY (neuropeptide Y) and CXCL12. The DPIV family has roles in bone marrow mobilization. The functional interactions of DPIV and FAP with extracellular matrix confer roles for these proteins in cancer biology. DP8 and DP9 are widely distributed and indirectly implicated in immune function. The DPL (DP-like) glycoproteins that lack peptidase activity, DPL1 and DPL2, are brain-expressed potassium channel modulators. Thus the six members of the DPIV gene family exhibit diverse biological roles.
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PMID:Dipeptidyl peptidase IV and related enzymes in cell biology and liver disorders. 1558 1

Dipeptidyl peptidase-4 (DPP4) or adenosine deaminase complexing protein 2 (ADCP 2) or T-cell activation antigen CD26 (EC 3.4.14.5.) is a serine exopeptidase belonging to the S9B protein family that cleaves X-proline dipeptides from the N-terminus of polypeptides, such as chemokines, neuropeptides, and peptide hormones. The enzyme is a type II transmembrane glycoprotein, expressed on the surface of many cell types, whose physiological functions are largely unknown. Protein dimerisation should be required for catalytic activity and glycosylation of the enzyme could impact on its physiological functions. The dimeric glycoprotein ADCP has been found linked to adenosine deaminase (ADA) whose relationship with lymphocyte maturation-differentiation is well-established. Since implicated in the regulation of the biological activity of hormones and chemokines, such as glucagon-like peptide-1 and glucose-dependent insulinotropic polypeptide, DPP4 inhibition offers a new potential therapeutic approach for type 2 diabetes mellitus, as monotherapy and adjunct therapy to other oral agents. The clinical use of presently available orally active inhibitors of DPP4, however, has been associated with side effects that have been in part attributed to the inhibition of related serine proteases, such as DPP8 and DPP9. Indeed, it is noteworthy that CD26 has a key role in immune regulation as a T cell activation molecule and in immune-mediated disorder. All-cause infections were increased after sitagliptin treatment. It is noteworthy that the effects of DPP4 inhibition on the immune system have not been extensively investigated. So far, only routine laboratory safety variables have been measured in published randomised controlled trials. The review summarises present knowledge in the field and suggests some potential directions of future research.
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PMID:Dipeptidyl peptidase-4 (CD26): knowing the function before inhibiting the enzyme. 1968 75

Extracellular adenosine is an important signaling molecule in neuromodulation, immunomodulation and hypoxia. Adenosine dysregulation can cause various pathologies, exemplified by a deficiency in adenosine deaminase in severe combined immunodeficiency. We have established a Drosophila model to study the effects of increased adenosine in vivo by mutating the main Drosophila adenosine deaminase-related growth factor (ADGF-A). Using a genetic screen, we show here that the increased extracellular adenosine in the adgf-a mutant is associated with hyperglycemia and impairment in energy storage. The adenosine works in this regard through the adenosine receptor as an anti-insulin hormone in parallel to adipokinetic hormone, a glucagon counterpart in flies. If not regulated properly, this action can lead to a loss of energy reserves (wasting) and death of the organism. Because adenosine signaling is associated with the immune response and the response to stress in general, our results mark extracellular adenosine as a good candidate signal involved in the wasting syndrome that accompanies various human pathologies.
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PMID:Increased extracellular adenosine in Drosophila that are deficient in adenosine deaminase activates a release of energy stores leading to wasting and death. 2094 Mar 17

Skeletal muscle is a key tissue site of insulin resistance in type 2 diabetes. Human myotubes are primary skeletal muscle cells displaying both morphological and biochemical characteristics of mature skeletal muscle and the diabetic phenotype is conserved in myotubes derived from subjects with type 2 diabetes. Several abnormalities have been identified in skeletal muscle from type 2 diabetic subjects, however, the exact molecular mechanisms leading to the diabetic phenotype has still not been found. Here we present a large-scale study in which we combine a quantitative proteomic discovery strategy using isobaric peptide tags for relative and absolute quantification (iTRAQ) and a label-free study with a targeted quantitative proteomic approach using selected reaction monitoring to identify, quantify, and validate changes in protein abundance among human myotubes obtained from nondiabetic lean, nondiabetic obese, and type 2 diabetic subjects, respectively. Using an optimized protein precipitation protocol, a total of 2832 unique proteins were identified and quantified using the iTRAQ strategy. Despite a clear diabetic phenotype in diabetic myotubes, the majority of the proteins identified in this study did not exhibit significant abundance changes across the patient groups. Proteins from all major pathways known to be important in type 2 diabetic subjects were well-characterized in this study. This included pathways like the trichloroacetic acid (TCA) cycle, lipid oxidation, oxidative phosphorylation, the glycolytic pathway, and glycogen metabolism from which all but two enzymes were found in the present study. None of these enzymes were found to be regulated at the level of protein expression or degradation supporting the hypothesis that these pathways are regulated at the level of post-translational modification. Twelve proteins were, however, differentially expressed among the three different groups. Thirty-six proteins were chosen for further analysis and validation using selected reaction monitoring based on the regulation identified in the iTRAQ discovery study. The abundance of adenosine deaminase was considerably down-regulated in diabetic myotubes and as the protein binds propyl dipeptidase (DPP-IV), we speculate whether the reduced binding of adenosine deaminase to DPP-IV may contribute to the diabetic phenotype in vivo by leading to a higher level of free DPP-IV to bind and inactivate the anti-diabetic hormones, glucagon-like peptide-1 and glucose-dependent insulintropic polypeptide.
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PMID:Characterization of human myotubes from type 2 diabetic and nondiabetic subjects using complementary quantitative mass spectrometric methods. 2169 46

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