Literature DB >> 19273748

Implications of amylin receptor agonism: integrated neurohormonal mechanisms and therapeutic applications.

Jonathan D Roth1, Holly Maier, Steve Chen, Barbara L Roland.   

Abstract

Amylin receptor agonism is emerging as part of an integrated neurohormonal therapeutic approach for managing diabetes mellitus (DM) and body weight. Pramlintide acetate, an analogue of the pancreatic hormone amylin, has been studied in the United States as an antihyperglycemic agent in patients with type 1 or type 2 DM treated with mealtime insulin(1). Further clinical testing of pramlintide in subjects with obesity demonstrated that pramlintide monotherapy induced significant, sustained, and dose-dependent weight loss(2). Recent clinical observations point to its compatibility as a combination therapy with the hormone leptin, eliciting double-digit weight loss in patients with overweight and obesity(3). Herein, we link amylin activation of central neural circuits to these therapeutic effects, and we speculate on other potential therapeutic applications of amylin receptor agonism.

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Year:  2009        PMID: 19273748     DOI: 10.1001/archneurol.2008.581

Source DB:  PubMed          Journal:  Arch Neurol        ISSN: 0003-9942


  19 in total

1.  Dose combinations of exendin-4 and salmon calcitonin produce additive and synergistic reductions in food intake in nonhuman primates.

Authors:  Nicholas T Bello; Matthew H Kemm; Erica M Ofeldt; Timothy H Moran
Journal:  Am J Physiol Regul Integr Comp Physiol       Date:  2010-06-16       Impact factor: 3.619

Review 2.  GLP-1R and amylin agonism in metabolic disease: complementary mechanisms and future opportunities.

Authors:  Jonathan D Roth; Mary R Erickson; Steve Chen; David G Parkes
Journal:  Br J Pharmacol       Date:  2012-05       Impact factor: 8.739

Review 3.  The alpha-cell as target for type 2 diabetes therapy.

Authors:  Mikkel Christensen; Jonatan I Bagger; Tina Vilsbøll; Filip K Knop
Journal:  Rev Diabet Stud       Date:  2011-11-10

Review 4.  Adjunct therapy for type 1 diabetes mellitus.

Authors:  Harold E Lebovitz
Journal:  Nat Rev Endocrinol       Date:  2010-04-20       Impact factor: 43.330

5.  Incretins and amylin: neuroendocrine communication between the gut, pancreas, and brain in control of food intake and blood glucose.

Authors:  Matthew R Hayes; Elizabeth G Mietlicki-Baase; Scott E Kanoski; Bart C De Jonghe
Journal:  Annu Rev Nutr       Date:  2014-04-10       Impact factor: 11.848

6.  Amylin-induced downregulation of hippocampal neurogenesis is attenuated by leptin in a STAT3/AMPK/ERK-dependent manner in mice.

Authors:  H-S Moon; F Dincer; C S Mantzoros
Journal:  Diabetologia       Date:  2012-12-09       Impact factor: 10.122

7.  Amylin modulates the mesolimbic dopamine system to control energy balance.

Authors:  Elizabeth G Mietlicki-Baase; David J Reiner; Jackson J Cone; Diana R Olivos; Lauren E McGrath; Derek J Zimmer; Mitchell F Roitman; Matthew R Hayes
Journal:  Neuropsychopharmacology       Date:  2014-07-18       Impact factor: 7.853

8.  Amylin acts in the central nervous system to increase sympathetic nerve activity.

Authors:  Caroline Fernandes-Santos; Zhongming Zhang; Donald A Morgan; Deng-Fu Guo; Andrew F Russo; Kamal Rahmouni
Journal:  Endocrinology       Date:  2013-05-03       Impact factor: 4.736

9.  Xenin-25 increases cytosolic free calcium levels and acetylcholine release from a subset of myenteric neurons.

Authors:  Sheng Zhang; Krzysztof Hyrc; Songyan Wang; Burton M Wice
Journal:  Am J Physiol Gastrointest Liver Physiol       Date:  2012-10-18       Impact factor: 4.052

10.  A Study of Short- and Long-term mRNA Levels of the Retn, Iapp, and Drd5 Genes in Obese Mice Induced with High-fat Diet.

Authors:  Ozlem Timirci-Kahraman; Umit Yilmaz; Nesibe Yilmaz; Aydin Cevik; Cem Horozoglu; Faruk Celik; Muhammed Oguz Gokce; Arzu Ergen; Abdullah Melekoglu; Umit Zeybek
Journal:  In Vivo       Date:  2018 Jul-Aug       Impact factor: 2.155
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