Influence of glucagon-like peptide-1 on β cell responsiveness

The postulated incretin factor glucagon-like peptide-1 (GLP-1) causes a glucose-dependent increase in insulin secretion from perifused rat islets. In the presence of 6 mM glucose the response to 10 nM GLP-1 is characterized by a large initial spike of secretion, followed by a brief, slowly rising ph...

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Veröffentlicht in:	Regulatory peptides 1993-04, Vol.44 (3), p.277-283
Hauptverfasser:	Zawalich, Walter S., Zawalich, Kathleen C., Rasmussen, Howard
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Sprache:	eng
Schlagworte:	Animals Beta cell Biological and medical sciences Carbachol - pharmacology Cholecystokinin - pharmacology Dose-Response Relationship, Drug Endocrine pancreas Fundamental and applied biological sciences. Psychology Gastric Inhibitory Polypeptide - pharmacology Glucagon - pharmacology Glucagon - physiology Glucagon-Like Peptide 1 Glucose - antagonists & inhibitors Glucose - metabolism Glucose - pharmacology Hormones. Régulation Incretin Insulin - metabolism Insulin Secretion Islet Islets of Langerhans - drug effects Islets of Langerhans - metabolism Male Mannoheptulose - pharmacology Peptide Fragments - pharmacology Peptide Fragments - physiology Phosphorylation - drug effects Protein Precursors - pharmacology Protein Precursors - physiology Rats Rats, Sprague-Dawley Second messenger Secretion Vertebrates: endocrinology
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creator	Zawalich, Walter S. Zawalich, Kathleen C. Rasmussen, Howard
description	The postulated incretin factor glucagon-like peptide-1 (GLP-1) causes a glucose-dependent increase in insulin secretion from perifused rat islets. In the presence of 6 mM glucose the response to 10 nM GLP-1 is characterized by a large initial spike of secretion, followed by a brief, slowly rising phase. However, after 30–40 min of stimulation, this phase subsides to prestimulatory secretory rates. Raising the glucose level to 8 mM, however, amplifies and sustains the stimulatory effect of 10 nM GLP-1. The response to GLP-1 (10 nM) in the presence of 8 mM glucose is abolished by the metabolic inhibitor mannoheptulose (15 mM), and reduced by the calcium channel antagonist nitrendipine (5 μM), or the protein kinase C inhibitor of staurosporine (20 nM). A significant synergistic effect of GLP-1 (10 nM) and 10 μM carbachol, a cholinergic agonist, on insulin secretion was observed in the presence of 6 mM glucose. In the presence of either 6 or 8 mM glucose, GLP-1 (10 nM) has no significant effect on glucose usage or on inositol phosphate generation in [ 3H]inositol prelabeled islets. The results support the concept that GLP-1 may function as an important physiologic incretin factor, particularly when accompanied by agonists that activate phosphoinositide hydrolysis.
doi_str_mv	10.1016/0167-0115(93)90137-W
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In the presence of 6 mM glucose the response to 10 nM GLP-1 is characterized by a large initial spike of secretion, followed by a brief, slowly rising phase. However, after 30–40 min of stimulation, this phase subsides to prestimulatory secretory rates. Raising the glucose level to 8 mM, however, amplifies and sustains the stimulatory effect of 10 nM GLP-1. The response to GLP-1 (10 nM) in the presence of 8 mM glucose is abolished by the metabolic inhibitor mannoheptulose (15 mM), and reduced by the calcium channel antagonist nitrendipine (5 μM), or the protein kinase C inhibitor of staurosporine (20 nM). A significant synergistic effect of GLP-1 (10 nM) and 10 μM carbachol, a cholinergic agonist, on insulin secretion was observed in the presence of 6 mM glucose. In the presence of either 6 or 8 mM glucose, GLP-1 (10 nM) has no significant effect on glucose usage or on inositol phosphate generation in [ 3H]inositol prelabeled islets. The results support the concept that GLP-1 may function as an important physiologic incretin factor, particularly when accompanied by agonists that activate phosphoinositide hydrolysis.</description><subject>Animals</subject><subject>Beta cell</subject><subject>Biological and medical sciences</subject><subject>Carbachol - pharmacology</subject><subject>Cholecystokinin - pharmacology</subject><subject>Dose-Response Relationship, Drug</subject><subject>Endocrine pancreas</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>Gastric Inhibitory Polypeptide - pharmacology</subject><subject>Glucagon - pharmacology</subject><subject>Glucagon - physiology</subject><subject>Glucagon-Like Peptide 1</subject><subject>Glucose - antagonists & inhibitors</subject><subject>Glucose - metabolism</subject><subject>Glucose - pharmacology</subject><subject>Hormones. Régulation</subject><subject>Incretin</subject><subject>Insulin - metabolism</subject><subject>Insulin Secretion</subject><subject>Islet</subject><subject>Islets of Langerhans - drug effects</subject><subject>Islets of Langerhans - metabolism</subject><subject>Male</subject><subject>Mannoheptulose - pharmacology</subject><subject>Peptide Fragments - pharmacology</subject><subject>Peptide Fragments - physiology</subject><subject>Phosphorylation - drug effects</subject><subject>Protein Precursors - pharmacology</subject><subject>Protein Precursors - physiology</subject><subject>Rats</subject><subject>Rats, Sprague-Dawley</subject><subject>Second messenger</subject><subject>Secretion</subject><subject>Vertebrates: endocrinology</subject><issn>0167-0115</issn><issn>1873-1686</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1993</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kM9Kw0AQhxdRaq2-gUIOInqI7nSz2e2lIMU_hYIXpcdls5mV1TSJu0nB1_JBfCaTtvToYZjDfDP85iPkHOgtUEjvuhIxBeDXE3YzocBEvDwgQ5CCxZDK9JAM98gxOQnhg1LgQrABGchEJnRMh2Q6L23RYmkwqmz0XrRGv1dlXLhPjGqsG5djDFFVRr8_kcGiiDyGuiqDW2OJIZySI6uLgGe7PiJvjw-vs-d48fI0n90vYsNk2sRjZBOeIM9YpgXLQJrcJBopZExSzqi1oHmeC4up5NYyQKBSAmWsi8vSMRuRq-3d2ldfLYZGrVzo8-gSqzYowUX3Kk87MNmCxlcheLSq9m6l_bcCqnptqneieidqwtRGm1p2axe7-222wny_tPPUzS93cx2MLqzXpXFhjyUpl2ITc7rFsHOxduhVMK6XmzuPplF55f7P8Qfalog2</recordid><startdate>19930408</startdate><enddate>19930408</enddate><creator>Zawalich, Walter S.</creator><creator>Zawalich, Kathleen C.</creator><creator>Rasmussen, Howard</creator><general>Elsevier B.V</general><general>Elsevier</general><scope>IQODW</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>19930408</creationdate><title>Influence of glucagon-like peptide-1 on β cell responsiveness</title><author>Zawalich, Walter S. ; Zawalich, Kathleen C. ; Rasmussen, Howard</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c386t-2e3954e5b3ba73b18cdc4ae01b380530ff1a5dd7fe685ff31e108810337733623</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1993</creationdate><topic>Animals</topic><topic>Beta cell</topic><topic>Biological and medical sciences</topic><topic>Carbachol - pharmacology</topic><topic>Cholecystokinin - pharmacology</topic><topic>Dose-Response Relationship, Drug</topic><topic>Endocrine pancreas</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>Gastric Inhibitory Polypeptide - pharmacology</topic><topic>Glucagon - pharmacology</topic><topic>Glucagon - physiology</topic><topic>Glucagon-Like Peptide 1</topic><topic>Glucose - antagonists & inhibitors</topic><topic>Glucose - metabolism</topic><topic>Glucose - pharmacology</topic><topic>Hormones. Régulation</topic><topic>Incretin</topic><topic>Insulin - metabolism</topic><topic>Insulin Secretion</topic><topic>Islet</topic><topic>Islets of Langerhans - drug effects</topic><topic>Islets of Langerhans - metabolism</topic><topic>Male</topic><topic>Mannoheptulose - pharmacology</topic><topic>Peptide Fragments - pharmacology</topic><topic>Peptide Fragments - physiology</topic><topic>Phosphorylation - drug effects</topic><topic>Protein Precursors - pharmacology</topic><topic>Protein Precursors - physiology</topic><topic>Rats</topic><topic>Rats, Sprague-Dawley</topic><topic>Second messenger</topic><topic>Secretion</topic><topic>Vertebrates: endocrinology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Zawalich, Walter S.</creatorcontrib><creatorcontrib>Zawalich, Kathleen C.</creatorcontrib><creatorcontrib>Rasmussen, Howard</creatorcontrib><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Regulatory peptides</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Zawalich, Walter S.</au><au>Zawalich, Kathleen C.</au><au>Rasmussen, Howard</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Influence of glucagon-like peptide-1 on β cell responsiveness</atitle><jtitle>Regulatory peptides</jtitle><addtitle>Regul Pept</addtitle><date>1993-04-08</date><risdate>1993</risdate><volume>44</volume><issue>3</issue><spage>277</spage><epage>283</epage><pages>277-283</pages><issn>0167-0115</issn><eissn>1873-1686</eissn><coden>REPPDY</coden><abstract>The postulated incretin factor glucagon-like peptide-1 (GLP-1) causes a glucose-dependent increase in insulin secretion from perifused rat islets. In the presence of 6 mM glucose the response to 10 nM GLP-1 is characterized by a large initial spike of secretion, followed by a brief, slowly rising phase. However, after 30–40 min of stimulation, this phase subsides to prestimulatory secretory rates. Raising the glucose level to 8 mM, however, amplifies and sustains the stimulatory effect of 10 nM GLP-1. The response to GLP-1 (10 nM) in the presence of 8 mM glucose is abolished by the metabolic inhibitor mannoheptulose (15 mM), and reduced by the calcium channel antagonist nitrendipine (5 μM), or the protein kinase C inhibitor of staurosporine (20 nM). A significant synergistic effect of GLP-1 (10 nM) and 10 μM carbachol, a cholinergic agonist, on insulin secretion was observed in the presence of 6 mM glucose. In the presence of either 6 or 8 mM glucose, GLP-1 (10 nM) has no significant effect on glucose usage or on inositol phosphate generation in [ 3H]inositol prelabeled islets. The results support the concept that GLP-1 may function as an important physiologic incretin factor, particularly when accompanied by agonists that activate phosphoinositide hydrolysis.</abstract><cop>Shannon</cop><cop>Amsterdam</cop><pub>Elsevier B.V</pub><pmid>8484020</pmid><doi>10.1016/0167-0115(93)90137-W</doi><tpages>7</tpages></addata></record>
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subjects	Animals Beta cell Biological and medical sciences Carbachol - pharmacology Cholecystokinin - pharmacology Dose-Response Relationship, Drug Endocrine pancreas Fundamental and applied biological sciences. Psychology Gastric Inhibitory Polypeptide - pharmacology Glucagon - pharmacology Glucagon - physiology Glucagon-Like Peptide 1 Glucose - antagonists & inhibitors Glucose - metabolism Glucose - pharmacology Hormones. Régulation Incretin Insulin - metabolism Insulin Secretion Islet Islets of Langerhans - drug effects Islets of Langerhans - metabolism Male Mannoheptulose - pharmacology Peptide Fragments - pharmacology Peptide Fragments - physiology Phosphorylation - drug effects Protein Precursors - pharmacology Protein Precursors - physiology Rats Rats, Sprague-Dawley Second messenger Secretion Vertebrates: endocrinology
title	Influence of glucagon-like peptide-1 on β cell responsiveness
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