The pathophysiology of diabetes as a disease is characterised by an inability to maintain normal glucose homeostasis. In type 1 diabetes, this is due to autoimmune destruction of the pancreatic b-cells and subsequent lack of insulin production, and in type 2 diabetes it is due to a combination of both insulin resistance and an inability of the b-cells to compensate adequately with increased insulin release. Animal models, in particular genetically modified mice, are increasingly being used to elucidate the mechanisms underlying both type 1 and type 2 diabetes, and as such the ability to study glucose homeostasis in vivo has become an essential tool. Several techniques exist for measuring different aspects of glucose tolerance and each of these methods has distinct advantages and disadvantages. Thus the appropriate methodology may vary from study to study depending on the desired end-points, the animal model, and other practical considerations. This review outlines the most commonly used techniques for assessing glucose tolerance in rodents and details the factors that should be taken into account in their use. Representative scenarios illustrating some of the practical considerations of designing in vivo experiments for the measurement of glucose homeostasis are also discussed.
Aims/hypothesis Kisspeptin is a novel peptide identified as an endogenous ligand of the G-protein-coupled receptor 54 (GPR-54), which plays a crucial role in puberty and reproductive function. High levels of GPR-54 and kisspeptin have been reported in the pancreas and we have previously shown that kisspeptin potentiates glucose-induced insulin release from isolated islets, although the mechanisms underlying this effect were unclear. Methods Insulin secretion from isolated mouse islets was measured to characterise the effects of kisspeptin. The effects of kisspeptin on both p42/44 mitogen-activated protein kinase (MAPK) phosphorylation and intracellular Ca 2+ ([Ca 2+ ] i ) in mouse islets were also investigated. Furthermore, kisspeptin was administered to rats in vivo and effects on plasma insulin levels measured. Results In the current study, kisspeptin induced a concentration-dependent potentiation of glucose-induced (20 mmol/l) insulin secretion from mouse islets, with maximal effects at 1 µmol/l, but had no effect on insulin secretion at a substimulatory concentration of glucose (2 mmol/l). Activation of GPR-54 by kisspeptin also caused reversible increases in [Ca 2+ ] i in Fura-2 loaded dispersed islet cells.The kisspeptin-induced potentiation of glucose-induced insulin secretion was completely abolished by inhibitors of phospholipase C and p42/44 MAPK, but not by inhibitors of protein kinase C or p38 MAPK. Intravenous administration of kisspeptin into conscious, unrestrained rats caused an increase in circulating insulin levels, whilst central administration of kisspeptin had no effect, indicating a peripheral site of action. Conclusions/interpretation These observations suggest that neither typical protein kinase C isoforms nor p38 MAPK are involved in the potentiation of glucose-induced insulin release by kisspeptin, but intracellular signalling pathways involving phospholipase C, p42/44 MAPK and increased [Ca 2+ ] i are required for the stimulatory effects on insulin secretion. The observation that kisspeptin is also capable of stimulating insulin release in vivo supports the conclusion that kisspeptin is a regulator of beta cell function.
These data confirm the expression of CB1 and CB2 receptors by human islets and indicate that both receptor subtypes are coupled to the stimulation of insulin secretion. They also implicate involvement of CB1/2 receptor-independent pathways in the antagonist-induced stimulatory effects.
The mechanisms underlying menopausal hot flushes are poorly understood, although it is generally assumed they result from disturbances of thermoregulatory centres in the hypothalamus. 8-Prenylnaringenin (8-PN) has been identified as a potent phytoestrogen in hops (Humulus lupulus) and there are claims that hop-containing preparations can reduce hot flushes. We have investigated the site of action of 8-PN in a rat model of menopausal hot flushes, in which the tail skin temperature (TST) is increased after oestrogen withdrawal induced by ovariectomy. Daily s.c. administration of either 17b-oestradiol (E 2 ; 4 mg/kg) or 8-PN (400 mg/kg) significantly reduced the elevated TST after 2 days of treatment. Subcutaneous co-administration of either E 2 or 8-PN with the oestrogen receptor (ER) antagonist, ICI 182,780 (200 mg/kg), which is thought not to cross the blood-brain barrier, completely blocked the effect of E 2 and 8-PN on TST. The ERa-and ERb-specific agonists, 4,4 0 ,4 0 0 -(4-propyl-[1H]-pyrazole-1,3,5-triyl)trisphenol (100 mg/kg) and 2,3-bis(4-hydroxyphenyl)-propionitrile (60 mg/kg) respectively, both significantly reversed the raised TST in ovariectomised rats. These observations suggest that the regulation of the vasomotor response by oestrogens and phytoestrogens is mediated, at least in part, by peripheral mechanisms involving both ERa and ERb.
Corticotropin-releasing factor (CRF) has been implicated as an important mediator of stress-induced inhibition of reproduction. The role of specific CRF receptor subtypes in this effect is unknown, and in the current study, we investigated the role of the CRF-R2 receptor in stress-mediated suppression of pulsatile LH section. Ovariectomized rats with sc 17beta-estradiol capsules were implanted with intracerebroventricular (i.c.v.) and i.v. cannulae. Blood samples (25 microl) were collected every 5 min for 5 h for LH measurement. Central administration of urocortin II (0.24, 2.4, 24, or 240 nmol, i.c.v.), which selectively binds to CRF-R2, resulted in a dose-dependent suppression of LH pulses. Restraint stress (1 h) induced a profound suppression of pulsatile LH secretion and astressin2-B, a selective CRF-R2 antagonist (28 nmol i.c.v., 10-min prerestraint), was effective in blocking this inhibitory response. These findings suggest that CRF-R2 mediates, at least in part, restraint stress-induced inhibition of LH pulses and may play a pivotal role in the normal physiological response of stress-induced suppression of the hypothalamic GnRH pulse generator and hence the reproductive system.
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