Novel heteromeric receptors in gut control: ghrelin receptors and dopamine receptors working together Novel heteromeric receptors in gut control: ghrelin receptors and dopamine receptors working together

Project Details

We have made the remarkable discovery that ghrelin receptors are involved in control of digestive function not through an action of ghrelin, but through the action of dopamine.

Ghrelin is a naturally occurring hormone that had been thought to be a transmitter in the central nervous system (CNS), and some years ago we discovered that ghrelin is a powerful CNS-acting stimulant of defecation in animal models and humans.  A striking conclusion from our discoveries is that the strong stimulation of defecation by ghrelin agonists is independent of ghrelin, which we discovered to be absent from the CNS.  Our data indicate that the physiological activation of the ghrelin receptor, GhrR, is through dopaminergic transmission acting at a combined GhrR / dopamine (DRD2) receptor, as summarised in the figure below.  In this project we are investigating how ghrelin and dopamine receptor agonists act and interact at this receptor complex in biophysical systems, isolated cells, native cells and whole animals.  We will investigate the relevance of our discoveries for treatment of constipation in two disease models.

The nature of the GhrR/DRD2 interaction that we hypothesise from our data and published literature.  Biophysical data indicate the receptors form heteromers.  Our transfected cell data indicate that dopamine activates G protein coupling to GhrR and a Ca2+ signal, indirectly via DRD2.  Our transfected cell data and our in vivo data indicate that both dopamine and ghrelin activation are blocked by a ghrelin receptor antagonist (X).  Ghrelin agonism is not blocked by DRD2 antagonism.

Researchers

Dr Linda Fothergill

Professor John Furness

Dr Shanti Diwakarla

Dr Ruslan Pustovit

Mitchell Ringuet

Collaborators

Dr Sebastian Furness

Dr Birgitte Holst

Research Opportunities

This research project is available to PhD, Masters by Research, Honours, Master of Biomedical Science, Post Doctor Research students to join as part of their thesis.
Please contact the Research Group Leader to discuss your options.

Research Publications

Shimizu Y, Chang EC, Shafton AD, Ferens DM, Sanger GJ, Witherington J, Furness JB. Evidence that stimulation of ghrelin receptors in the spinal cord initiates propulsive activity in the colon of the rat. J Physiol (Lond). 2006 Oct 1;576(Pt 1):329–38.

Ellis AG, Zeglinski PT, Brown DJ, Frauman AG, Millard M, Furness JB. Pharmacokinetics of the ghrelin agonist capromorelin in a single ascending dose Phase-I safety trial in spinal cord-injured and able-bodied volunteers. Spinal Cord 2015 Feb;53(2):103–8.

Furness JB, Hunne B, Matsuda N, Yin L, Russo D, Kato I, Fujimiya M, Patterson M, McLeod J, Andrews ZB, Bron R. Investigation of the presence of ghrelin in the central nervous system of the rat and mouse. Neuroscience 2011 Oct 13;193:1–9.

Pustovit RV, Callaghan B, Ringuet MT, Kerr NF, Hunne B, Smyth IM, Pietra C, Furness JB. Evidence that central pathways that mediate defecation utilize ghrelin receptors but do not require endogenous ghrelin. Physiological Reports; 2017 Aug;5(15):e13385.

Research Group

Furness laboratory: Digestive physiology and nutrition



Faculty Research Themes

Neuroscience



Key Contact

For further information about this research, please contact the research group leader.

Department / Centre

Anatomy and Neuroscience

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