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- Darsalia, Vladimer, et al.
(författare)
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Glucagon-like peptide-1 receptor activation reduces ischaemic brain damage following stroke in Type 2 diabetic rats
- 2012
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Ingår i: Clinical Science. - : Portland Press. - 0143-5221 .- 1470-8736. ; 122:9-10, s. 473-483
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Tidskriftsartikel (refereegranskat)abstract
- Diabetes is a strong risk factor for premature and severe stroke. The GLP-IR (glucagon-like peptide-1 receptor) agonist Ex-4 (exendin-4) is a drug for the treatment of T2D (Type 2 diabetes) that may also have neuroprotective effects. The aim of the present study was to determine the efficacy of Ex-4 against stroke in diabetes by using a diabetic animal model, a drug administration paradigm and a dose that mimics a diabetic patient on Ex-4 therapy. Furthermore, we investigated inflammation and neurogenesis as potential cellular mechanisms underlying the Ex-4 efficacy. A total of seven 9-month-old Type 2 diabetic Goto-Kakizaki rats were treated peripherally for 4 weeks with Ex-4 at 0.1, 1 or 5 mu g/kg of body weight before inducing stroke by transient middle cerebral artery occlusion and for 2-4 weeks thereafter. The severity of ischaemic damage was measured by evaluation of stroke volume and by stereological counting of neurons in the striatum and cortex. We also quantitatively evaluated stroke-induced inflammation, stem cell proliferation and neurogenesis. We show a profound anti-stroke efficacy of the clinical dose of Ex-4 in diabetic rats, an arrested microglia infiltration and an increase of stroke-induced neural stem cell proliferation and neuroblast formation, while stroke-induced neurogenesis was not affected by Ex-4. The results show a pronounced anti-stroke, neuroprotective and anti-inflammatory effect of peripheral and chronic Ex-4 treatment in middle-aged diabetic animals in a preclinical setting that has the potential to mimic the clinical treatment. Our results should provide strong impetus to further investigate GLP-IR agonists for their neuroprotective action in diabetes, and for their possible use as anti-stroke medication in non-diabetic conditions.
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| 2. |
- Wu, Lin, et al.
(författare)
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GLP-1, exendin-4 and C-peptide regulate pancreatic islet microcirculation, insulin secretion and glucose tolerance in rats
- 2012
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Ingår i: Clinical Science. - 0143-5221 .- 1470-8736. ; 122:7-8, s. 375-384
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Tidskriftsartikel (refereegranskat)abstract
- GLP-1 (glucagon-like peptide I) and its mimetic exendin-4 are used against Type 2 diabetes. C-peptide has also proven promising to enhance insulin action. Since insulin secretion in vivo can be rapidly tuned by changes in islet microcirculation, we evaluated the influence of GLP-1, exendin-4 and C-peptide on pancreatic IBF (islet blood flow), and dynamic changes in insulin secretion and glycaemia in the rat. Adult male Wistar rats were divided into four groups given intravenous saline, GLP-1, exendin-4 or C-peptide respectively and administered either saline or 30% glucose. Furthermore, we investigated the effect of intravenous infusion of different doses of exendin-4 into either the femoral vein or the portal vein on islet microcirculation. A non-radioactive microsphere technique was adopted to measure the regional blood flow. Both GLP-1 and exendin-4 prevented the glucose-induced PBF (pancreatic blood flow) redistribution into the islets. Infusion of exendin-4 into the portal vein did not alter pancreatic islet microcirculation, while infusion of exendin-4 into femoral vein significantly decreased basal IBF. C-peptide increased basal IBF and the proportion of IBF out of total PBF, but did not affect the islet microcirculation after glucose administration. GLP-1, exendin-4 and C-peptide stimulated insulin secretion and significantly decreased glycaemia. Blocking NO formation did not prevent the decreased IBF and post-load glycaemia evoked by exendin-4, but further decreased IBF and KBF (kidney blood flow) and increased basal glycaemia. Blocking the vagus nerve enhanced pancreatic IBF and further decreased post-load glycaemia and KBF and increased basal glycaemia. The vascular modulatory effect on pancreatic islet microcirculation described herein, with subsequent effects on in vivo insulin secretion and glycaemia, might be one of the mechanisms underlying the anti-diabetic actions of GLP-1 and its long acting mimetic exendin-4, as well as that of C-peptide.
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