Concentration-dependent effects of adrenaline on the profile of insulin secretion from isolated human islets of Langerhans

Lacey, Rosemary J.; Cable, Hazel C.; James, R. F. L.; London, N. J. M.; Scarpello, J. H. B.; Morgan, Noel G.

doi:10.1677/joe.0.1380555

Cited by 38 publications

(24 citation statements)

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“…Decreased adrenergic tone could account for elevated fasting glucose and poor glucose tolerance in transgenic mice. Although ␣-adrenergic receptor agonism has been shown to decrease glucose-stimulated insulin secretion, ␤-adrenergic receptor agonism potentiates pancreatic insulin secretion under certain conditions (1,7,17,18,26,29). Furthermore, decreased serum epinephrine may also account for decreased muscle insulin sensitivity in AP2-NR4A3 mice since proper adrenergic tone may be required for optimal insulin signaling in skeletal muscle.…”

Section: Discussionmentioning

confidence: 99%

AP2-NR4A3 transgenic mice display reduced serum epinephrine because of increased catecholamine catabolism in adipose tissue

Walton

Zhu

Tian

et al. 2016

American Journal of Physiology-Endocrinology and Metabolism

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-The NR4A orphan nuclear receptors function as early response genes to numerous stimuli. Our laboratory has previously demonstrated that overexpression of NR4A3 (NOR-1, MINOR) in 3T3-L1 adipocytes enhances insulinstimulated glucose uptake. To assess the in vivo effect of NR4A3 on adipocytes, we generated transgenic mice with NR4A3 overexpression driven by the adipocyte fatty acid-binding protein (AP2) promoter (AP2-NR4A3 mice). We hypothesized that AP2-NR4A3 mice would display enhanced glucose tolerance and insulin sensitivity. However, AP2-NR4A3 mice exhibit metabolic impairment, including increased fasting glucose and insulin, impaired glucose tolerance, insulin resistance, decreased serum free fatty acids, and increased low-density lipoprotein-cholesterol. AP2-NR4A3 mice also display a significant reduction in serum epinephrine due to increased expression of catecholamine-catabolizing enzymes in adipose tissue, including monoamine oxidase-A. Furthermore, enhanced expression of monoamine oxidase-A is due to direct transcriptional activation by NR4A3. Finally, AP2-NR4A3 mice display cardiac and behavioral alterations consistent with chronically low circulating epinephrine levels. In conclusion, overexpression of NR4A3 in adipocytes produces a complex phenotype characterized by impaired glucose metabolism and low serum catecholamines due to enhanced degradation by adipose tissue.nuclear receptor 4A3 transgenic mice; nuclear receptor 4A3; type 2 diabetes; lipolysis; monoamine oxidase THE ORPHAN RECEPTOR NR4A SUBGROUP of the nuclear hormone receptor superfamily is comprised of three genes, NR4A1 (or Nur77), NR4A2 (or Nurr1), and NR4A3 (NOR-1 or MINOR). NR4A family members are early response genes in which expression is induced in a cell-type-specific manner by numerous stimuli, including fasting, exercise, inflammation, hypothalamic-pituitary-adrenal axis (HPA axis) hormones, tyrosinederived neurotransmitters, and cAMP analogs. NR4A receptors modulate expression of steroidogenic, gluconeogenic, glycolytic, and ␤-oxidative genes in both the HPA axis and target tissues (24, 28).Whereas NR4A family members are expressed in numerous tissues, NR4A3 expression is more limited, with high levels detected in metabolically active tissues such as muscle and adipose tissue. We have shown that NR4A3 is depleted in muscle and fat from several insulin-resistant rodent models (11); however, it is upregulated by insulin in human vastus lateralis muscle, and expression in muscle is increased in insulin-sensitive vs. insulin-resistant subjects (41). In addition, we have demonstrated that NR4A3 enhances insulin-stimulated glucose transport and insulin signaling when overexpressed in vitro in 3T3-L1 adipocytes (11) and C 2 C 12 muscle cells (42). These data indicated that NR4A3 might enhance insulin sensitivity, raising the possibility that NR4A3 agonism could constitute a viable pharmacological target for insulinsensitizing drugs, analogous to thiazolidinedione agonism of peroxisome proliferator-activated receptor (PPAR)-␥ nuclear re...

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Section: Discussionmentioning

confidence: 99%

AP2-NR4A3 transgenic mice display reduced serum epinephrine because of increased catecholamine catabolism in adipose tissue

Walton

Zhu

Tian

et al. 2016

American Journal of Physiology-Endocrinology and Metabolism

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“…Adrenal medullary hormones inhibit insulin release via the mediation of a2-adrenergic receptor (Lacey et al, 1993). The pancreatic islet [3-cells have more a2-than at-adrenergic receptors (Ahren, 2000).…”

Section: Discussionmentioning

confidence: 99%

“…a2-Adrenoceptor stimulation by the endogenous catecholamines could lead to inhibition of insulin release, masking any potentiated response that otherwise should have appeared from a t -and [3-adrenoceptor stimulation (Garcia-Barrado et al, 1998). In diabetic condition, a2A receptors are more activated which brought out the insulin inhibition and in turn hyperglycaemia (Lacey et al, 1993). Although there are reports, which say the role of brain a2-adrenergic receptors in the insulin secretion, there are not much studies about the inhibitory action of this receptor subtype on the islet DNA synthesis.…”

Section: Discussionmentioning

confidence: 99%

Decreased α2-adrenergic receptor in the brain stem and pancreatic islets during pancreatic regeneration in weanling rats

2006

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Sympathetic stimulation inhibits insulin secretion. a2-Adrenergic receptor is known to have a regulatory role in the sympathetic function. We investigated the changes in the a2-adrenergic receptors in the brain stein and pancreatic islets using [3H]Yohimbine during pancreatic regeneration in weanling rats. Brain stem and pancreatic islets of experimental rats showed a significant decrease (p<0.001) in norepinephrine (NE) content at 72 h after partial pancreatectomy. The epinephrine (EPI) content showed a significant decrease (p<0.001) in pancreatic islets while it was not detected in brain stem at 72 h after partial pancreatectomy. Scatchard analysis of [3H]Yohimbine showed a significant decrease (p<0.05) in B 'nax and Kd at 72 h after partial pancreatectomy in the brain stem. In the pancreatic islets, Scatchard analysis of [3H]Yohimbine showed a significant decrease (p<0.001) in B,nax and Kd (p<0.05) at 72 h after partial pancreatectomy. The binding parameters reversed to near sham by 7 days after pancreatectomy both in brain stein and pancreatic islets. This shows that pancreatic insulin secretion is influenced by central nervous system inputs from the brain stem. In vitro studies with yohimbine showed that the a2-adrenergic receptors are inhibitory to islet DNA synthesis and insulin secretion. Thus our results suggest that decreased a2-adrenergic receptors during pancreatic regeneration functionally regulate insulin secretion and pancreatic 13-cell proliferation in weanling rats.

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“…Islets from heart-beating cadaver organ donors were isolated in the islet-transplant laboratory, University of Leicester (Leicester, UK) and transported to our laboratory in tissue culture medium (Lacey et al 1990, 1993, Loweth et al 1998. They were then cultured for a further 2-3 days in RPMI-1640 medium containing glucose (11·1 mM), -glutamine (300 µg/ml), sodium penicillin G (100 U/ml), streptomycin sulphate (100 µg/ml) and 10% (v/v) foetal bovine serum.…”

Section: Islet Isolation and Culturementioning

confidence: 99%

Differential effects of genistein on apoptosis induced by fluoride and pertussis toxin in human and rat pancreatic islets and RINm5F cells

Elliott¹,

Scarpello²,

Morgan³

2002

Journal of Endocrinology

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Clonal pancreatic -cell lines have been used widely for the study of the factors involved in the regulation of apoptosis but it has not been firmly established that the response of normal islets mirrors that found in transformed -cells. In the present work, the role of pertussis toxin (Ptx)-sensitive G-proteins in the control of -cell apoptosis was studied in isolated rat and human islets of Langerhans and compared with the clonal -cell line, RINm5F. Annexin-V and deoxycarboxyfluoroscein diacetate staining was used to identify viable, apoptotic and necrotic cells directly, under fluorescence illumination. Treatment of human and rat islet cells with the G-protein activator fluoride (NaF; 5 mM) caused a marked increase in apoptosis that was further potentiated in islets pretreated with Ptx. The tyrosine kinase inhibitor genistein (100 µM) also increased islet cell apoptosis and the combination of 100 µM genistein and 5 mM NaF did not lead to any diminution of the apoptotic response. This latter effect was quite different from that seen in RINm5F cells where the combination of 100 µM genistein and 5 mM NaF resulted in much less apoptosis than was observed with either agent alone. In islets treated with a lower concentration of genistein (25 µM; that did not, itself, increase cell death), the drug attenuated NaF-induced apoptosis and also blocked the enhancement mediated by Ptx. These results revealed that human (and rat) islets are equipped with a Ptx-sensitive pathway that may be regulated by tyrosine phosphorylation and is anti-apoptotic. However, they also define conditions under which marked differences in response between RINm5F cells and normal islets were observed and they suggest that care should be taken when extrapolating data obtained with clonal cell lines to the situation in normal islet cells.

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Concentration-dependent effects of adrenaline on the profile of insulin secretion from isolated human islets of Langerhans

Cited by 38 publications

References 0 publications

AP2-NR4A3 transgenic mice display reduced serum epinephrine because of increased catecholamine catabolism in adipose tissue

AP2-NR4A3 transgenic mice display reduced serum epinephrine because of increased catecholamine catabolism in adipose tissue

Decreased α2-adrenergic receptor in the brain stem and pancreatic islets during pancreatic regeneration in weanling rats

Differential effects of genistein on apoptosis induced by fluoride and pertussis toxin in human and rat pancreatic islets and RINm5F cells

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