Vasopressin potentiates corticotropin-releasing hormone-induced
                    insulin release from mouse pancreatic β-cells

O’Carroll, Anne-Marie; Howell, Gillian M; Roberts, Emma M.; Lolait, Stephen J.

doi:10.1677/JOE-07-0645

ScienceOpen: research and publishing network

For Publishers

For Researchers

Blog
About

Search
Advanced search

views

recommends

The flagship journal of the Society for Endocrinology. Learn more

Record: found
Abstract: found
Article: found

Vasopressin potentiates corticotropin-releasing hormone-induced insulin release from mouse pancreatic β-cells

research-article

Author(s): Anne-Marie O'Carroll , Gillian M Howell , Emma M Roberts , Stephen J Lolait

Publication date (Print): May 2008

Journal: The Journal of Endocrinology

Publisher: BioScientifica

Read this article at

ScienceOpenPublisher PMC

There is no author summary for this article yet. Authors can add summaries to their articles on ScienceOpen to make them more accessible to a non-specialist audience.

Abstract

Arginine vasopressin (AVP) and corticotropin-releasing hormone (CRH) have both been implicated in modulating insulin secretion from pancreatic β-cells. In the present study, we investigated the insulin-secreting activities of AVP and CRH in wild-type and AVP VIb receptor knockout mice. Both neuropeptides stimulated insulin secretion from isolated mouse pancreatic islets. The response of islets to CRH was increased fourfold by concomitant incubation with a subthreshold dose of AVP that alone did not stimulate insulin secretion. Activation of the endogenously expressed M3 receptor by the cholinergic agonist carbachol also potentiated CRH-induced insulin secretion, indicating that the phenomenon may be pathway specific (i.e. Ca ² ⁺-phospholipase C) rather than agonist specific. The protein kinase C (PKC) inhibitors Ro-31-8425 and bisindolylmaleimide I attenuated the potentiating effect of AVP on CRH-stimulated insulin secretion and blocked AVP-stimulated insulin secretion. A possible interaction between the PKC and protein kinase A pathways was also investigated. The phorbol ester phorbol myristate acetate (PMA) stimulated insulin secretion, while the addition of both PMA and CRH enhanced insulin secretion over that measured with either PMA or CRH alone. Additionally, no AVP potentiation of CRH-stimulated insulin secretion was observed upon incubation in Ca ² ⁺-free Krebs–Ringer buffer. Taken together, the present study suggests a possible synergism between AVP and CRH to release insulin from pancreatic β-cells that relies at least in part on activation of the PKC signaling pathway and is dependent on extracellular Ca ² ⁺. This is the first example of a possible interplay between the AVP and CRH systems outside of the hypothalamic–pituitary–adrenal axis.

Related collections

Most cited references 29

Record: found
Abstract: found
Article: not found

Dopamine D2-like receptors are expressed in pancreatic beta cells and mediate inhibition of insulin secretion.

Blanca Rubi, Sanda Ljubicic, Shirin Pournourmohammadi … (2005)

Dopamine signaling is mediated by five cloned receptors, grouped into D1-like (D1 and D5) and D2-like (D2, D3 and D4) families. We identified by reverse transcription-PCR the presence of dopamine receptors from both families in INS-1E insulin-secreting cells as well as in rodent and human isolated islets. D2 receptor expression was confirmed by immunodetection revealing localization on insulin secretory granules of INS-1E and primary rodent and human beta cells. We then tested potential effects mediated by the identified receptors on beta cell function. Dopamine (10 microM) and the D2-like receptor agonist quinpirole (5 microM) inhibited glucose-stimulated insulin secretion tested in several models, i.e. INS-1E beta cells, fluorescence-activated cell-sorted primary rat beta cells, and pancreatic islets of rat, mouse, and human origin. Insulin exocytosis is controlled by metabolism coupled to cytosolic calcium changes. Measurements of glucose-induced mitochondrial hyperpolarization and ATP generation showed that dopamine and D2-like agonists did not inhibit glucose metabolism. On the other hand, dopamine decreased cell membrane depolarization as well as cytosolic calcium increases evoked by glucose stimulation in INS-1E beta cells. These results show for the first time that dopamine receptors are expressed in pancreatic beta cells. Dopamine inhibited glucose-stimulated insulin secretion, an effect that could be ascribed to D2-like receptors. Regarding the molecular mechanisms implicated in dopamine-mediated inhibition of insulin release, our results point to distal steps in metabolism-secretion coupling. Thus, the role played by dopamine in glucose homeostasis might involve dopamine receptors, expressed in pancreatic beta cells, modulating insulin release.

0 comments Cited 78 times – based on 0 reviews      Review now

Record: found
Abstract: found
Article: not found

The molecular mechanisms underlying the regulation of the biological activity of corticotropin-releasing hormone receptors: implications for physiology and pathophysiology.

Dimitris K Grammatopoulos, Edward W. Hillhouse (2006)

The CRH receptor (CRH-R) is a member of the secretin family of G protein-coupled receptors. Wide expression of CRH-Rs in the central nervous system and periphery ensures that their cognate agonists, the family of CRH-like peptides, are capable of exerting a wide spectrum of actions that underpin their critical role in integrating the stress response and coordinating the activity of fundamental physiological functions, such as the regulation of the cardiovascular system, energy balance, and homeostasis. Two types of mammal CRH-R exist, CRH-R1 and CRH-R2, each with unique splicing patterns and remarkably distinct pharmacological properties, but similar signaling properties, probably reflecting their distinct and sometimes contrasting biological functions. The regulation of CRH-R expression and activity is not fully elucidated, and we only now begin to fully understand the impact on mammalian pathophysiology. The focus of this review is the current and evolving understanding of the molecular mechanisms controlling CRH-R biological activity and functional flexibility. This shows notable tissue-specific characteristics, highlighted by their ability to couple to distinct G proteins and activate tissue-specific signaling cascades. The type of activating agonist, receptor, and target cell appears to play a major role in determining the overall signaling and biological responses in health and disease.

0 comments Cited 76 times – based on 0 reviews      Review now

Record: found
Abstract: found
Article: not found

Corticotropin releasing activity of the new CRF is potentiated several times by vasopressin.

Glenda Gillies, John Linton, Porter Lowry (1982)

Initially the hypothalamic factor responsible for the release of corticotropin (CRF), was thought to be a simple peptide. More recent work has led to the conclusion that CRF is a multifactorial complex. In 1979 we proposed that vasopressin, much disputed as a CRF candidate, was a major constituent of the complex, interacting with a potentiating the CRF activity of the other component(s). The recent characterization of a 41 residue ovine hypothalamic peptide capable of releasing adrenocorticotropic hormone (ACTH) in a dose-related manner has allowed us to compare its CRF bioactivity with that of vasopressin and simple extracts of the hypothalamus, and to investigate any interaction it may have with vasopressin and other hypothalamic factors in the release of ACTH. We report here that the new CRF is more potent than vasopressin in releasing ACTH. When given simultaneously with vasopressin a fourfold potentiation of CRF activity with steep dose-response characteristics were observed. It also potentiated vasopressin-free hypothalamic extracts, suggesting that a new CRF does not account for all the nonvasopressin portion of the CRF complex.

0 comments Cited 72 times – based on 0 reviews      Review now

All references

Author and article information

Journal

Journal ID (nlm-ta): J Endocrinol

Journal ID (publisher-id): JOE

Title: The Journal of Endocrinology

Publisher: BioScientifica (Bristol )

ISSN (Print): 0022-0795

ISSN (Electronic): 1479-6805

Publication date (Print): May 2008

Publication date (Electronic preprint): 7 March 2008

Volume: 197

Issue: 2

Pages: 231-239

Affiliations

[1]simpleHenry Wellcome Laboratories for Integrative Neuroscience and Endocrinology (LINE), Dorothy Hodgkin Building simpleUniversity of Bristol Whitson Street, Bristol, BS1 3NYUK

Author notes

(Correspondence should be addressed to A-M O'Carroll; Email: a.m.ocarroll@ 123456bristol.ac.uk )

Article

Publisher ID: JOE070645

DOI: 10.1677/JOE-07-0645

PMC ID: 2386661

PubMed ID: 18434353

SO-VID: a6d02c16-a0b3-43dd-9b5e-a92fb9aa6198

License:

This is an Open Access article distributed under the terms of the Society for Endocrinology's Re-use Licence which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

History

Date revision received : 15 February 2008

Date accepted : 6 March 2008

Funding

Funded by: Wellcome Trust

Comments

Comment on this article

Cited by 6

See all cited by

Most referenced authors 173

See all reference authors