Shalinee Dhayal scite author profile

Aims/hypothesisThe NEFA-responsive G-protein coupled receptor 120 (GPR120) has been implicated in the regulation of inflammation, in the control of incretin secretion and as a predisposing factor influencing the development of type 2 diabetes by regulation of islet cell apoptosis. However, there is still considerable controversy about the tissue distribution of GPR120 and, in particular, it remains unclear which islet cell types express this molecule. In the present study, we have addressed this issue by constructing a Gpr120-knockout/β-galactosidase (LacZ) knock-in (KO/KI) mouse to examine the distribution and functional role of GPR120 in the endocrine pancreas.MethodsA KO/KI mouse was generated in which exon 1 of the Gpr120 gene (also known as Ffar4) was replaced in frame by LacZ, thereby allowing for regulated expression of β-galactosidase under the control of the endogenous GPR120 promoter. The distribution of GPR120 was inferred from expression studies detecting β-galactosidase activity and protein production. Islet hormone secretion was measured from isolated mouse islets treated with selective GPR120 agonists.Resultsβ-galactosidase activity was detected as a surrogate for GPR120 expression exclusively in a small population of islet endocrine cells located peripherally within the islet mantle. Immunofluorescence analysis revealed co-localisation with somatostatin suggesting that GPR120 is preferentially produced in islet delta cells. In confirmation of this, glucose-induced somatostatin secretion was inhibited by a range of selective GPR120 agonists. This response was lost in GPR120-knockout mice.Conclusions/interpretationThe results imply that GPR120 is selectively present within the delta cells of murine islets and that it regulates somatostatin secretion.Electronic supplementary materialThe online version of this article (doi:10.1007/s00125-014-3213-0) contains peer-reviewed but unedited supplementary material, which is available to authorised users.

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Mechanisms involved in the cytotoxic and cytoprotective actions of saturated versus monounsaturated long-chain fatty acids in pancreatic β-cells

Diakogiannaki¹,

Dhayal²,

Childs³

et al. 2007

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Long-chain saturated and monounsaturated fatty acids differ in their propensity to induce β-cell death in vitro with palmitate (C16:0) being cytotoxic, whereas palmitoleate (C16:1n-7) is cytoprotective. We now show that this cytoprotective capacity extends to a poorly metabolised C16:1n-7 derivative, methyl-palmitoleate (0·25 mM palmitate alone: 92±4% death after 18 h; palmitate plus 0·25 mM methyl-palmitoleate: 12±2%; P<0·001). Palmitoleate and its methylated derivative also acted as mitogens in cultured β-cells (5-bromo-2-deoxyuridine incorporation – control: 0·15±0·01 units; 0·25 mM palmitoleate: 0·22±0·01 units; P<0·05). It has been proposed that alterations in neutral lipid synthesis (particularly triacylglycerol (TAG) formation) might mediate the differential responses to saturated and unsaturated fatty acids and we have examined this proposition. Palmitate and palmitoleate both promoted β-cell phospholipid remodelling and increased TAG formation (control: 0·9±0·1 nmol TAG/106 cells; 0·25 mM palmitate: 1·55±0·07; 0·25 mM palmitoleate: 1·4±0·05; palmitate plus palmitoleate: 2·3±0·1). By contrast, methyl-palmitoleate failed to influence TAG levels (0·25 mM methyl-palmitoleate alone: 0·95±0·06 nmol TAG/106 cells; methyl-palmitoleate plus palmitate: 1·5±0·05) or its fatty acid composition in β-cells exposed to palmitate. The results suggest that monounsaturated fatty acids can promote cell viability and mitogenesis by a mechanism that does not require their metabolism and is independent of alterations in TAG formation.

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Structural requirements for the cytoprotective actions of mono‐unsaturated fatty acids in the pancreatic β‐cell line, BRIN‐BD11

Dhayal

Welters

Morgan

2008

British J Pharmacology

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Background and purpose: Exposure of pancreatic b-cells to long-chain free fatty acids leads to differential responses according to the chain length and degree of unsaturation. In particular, long-chain saturated molecules such as palmitate (C16:0) cause apoptosis, whereas equivalent mono-unsaturated species (for example, palmitoleate (C16:1)) are not overtly toxic. Moreover, mono-unsaturates exert a powerful cytoprotective response against a range of proapoptotic stimuli. However, the structural requirements that determine cytoprotection have not been determined and form the basis of the present study. Experimental approach: BRIN-BD11 and INS-1 b-cells were exposed either to the saturated fatty acid palmitate, or to serum withdrawal, to mediate cytotoxicity. The protective effects of a wide range of mono-unsaturated fatty acid derivatives were tested in cytotoxicity assays. Effector caspase activity was also measured and correlated with viability. Key results: The cytotoxic actions of palmitate were inhibited dose-dependently by long-chain mono-unsaturated fatty acids with a defined potency order C18:14C16:1cC14:1. The configuration of the double bond was also important with cis forms being more potent than trans forms. Alkylated mono-unsaturated fatty-acid derivates were also cytoprotective, although their efficacy declined as the alkyl chain length increased. Cytoprotection was achieved rapidly on addition of mono-unsaturates and correlated with a rapid and dramatic inhibition of caspase-3/7 activity in palmitate-treated cells. Conclusions and implications:The data reveal the structural requirements that dictate the cytoprotective actions of monounsaturated fatty acids in pancreatic b-cells. Metabolic activation is not required and the data point at the potential involvement of a fatty acid receptor in mediating cytoprotection.

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G-protein coupled receptors mediating long chain fatty acid signalling in the pancreatic beta-cell

Morgan¹,

Dhayal²

2009

Biochemical Pharmacology

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It is increasingly clear that some of the effects of both free and derivatised long chain fatty acids in pancreatic beta-cells are mediated by a group of G-protein coupled receptors. Some of these display close structural homology while others are more divergent. This Commentary reviews the expression and functional roles of three such molecules, GPR40, GPR119 and GPR120. GPR40 is the best characterised of this group and appears to mediate the acute stimulatory effects of long chain fatty acids on insulin secretion. GPR40 has also been proposed as a potential mediator of fatty acid toxicity but this is more controversial. GPR119 is also involved in stimulation of insulin secretion and responds primarily to ethanolamine derivatives of long chain fatty acids and also to some lysophospholipids rather than to free fatty acids. It may represent a useful target for the development of new insulin secretagogues aimed to enhance insulin release in patients with type 2 diabetes. GPR120 is the most enigmatic of the lipid responsive cell-surface receptors and its function remains to be established. It has been proposed to play a cytoprotective role in certain other cell types but it is unclear whether it fulfils a similar function in beta-cells.

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Unsaturated fatty acids as cytoprotective agents in the pancreatic β-cell

Morgan

Dhayal

2010

Prostaglandins, Leukotrienes and Essential Fatty Acids (PLEFA)

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Shalinee Dhayal

GPR120 (FFAR4) is preferentially expressed in pancreatic delta cells and regulates somatostatin secretion from murine islets of Langerhans

Mechanisms involved in the cytotoxic and cytoprotective actions of saturated versus monounsaturated long-chain fatty acids in pancreatic β-cells

Structural requirements for the cytoprotective actions of mono‐unsaturated fatty acids in the pancreatic β‐cell line, BRIN‐BD11

G-protein coupled receptors mediating long chain fatty acid signalling in the pancreatic beta-cell

Unsaturated fatty acids as cytoprotective agents in the pancreatic β-cell

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