Relationship between peroxisome proliferator‐activated receptors (PPAR<i>α</i> and PPAR<i>γ</i>) and endothelium‐dependent relaxation in streptozotocin‐induced diabetic rats

Kanie, Noriyasu; Matsumoto, Takayuki; Kobayashi, Tsuneo; Kamata, Katsuo

doi:10.1038/sj.bjp.0705414

Cited by 58 publications

(38 citation statements)

References 68 publications

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“…Furthermore, we found that chronic administration of a relatively low dose of bezafibrate, which was insufficient to alter the levels of plasma lipids (including total cholesterol, LDL cholesterol, high density lipoprotein (HDL) cholesterol, and triglyceride), exerted an improvement effect on the endothelial dysfunction seen in the aorta in rats with established STZ-induced diabetes. This effect of bezafibrate may result from a reduction in the NAD(P)H oxidase p22phox subunit through an inhibitory effect on ET-1 synthesis (Kanie et al, 2003).…”

Section: Mechanisms Underlying Impaired Endothelial Function In Diabementioning

confidence: 99%

The PI3-K/Akt pathway: roles related to alterations in vasomotor responses in diabetic models

Kobayashi

Matsumoto

Kamata

2005

J Smooth Muscle Res

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Macro-and microvascular disease states currently represent the principal causes of morbidity and mortality in patients with type I or type II diabetes mellitus. Abnormal vasomotor responses and impaired endothelium-dependent vasodilation have been demonstrated in various beds in different animal models of diabetes and in humans with type I or type II diabetes. Several mechanisms leading to endothelial dysfunction have been reported, including changes in substrate avail ability, impaired release of NO, and increased destruction of NO. The principal mediators of diabetes-associated endothelial dysfunction are (a) increases in oxidized low density lipoprotein, endothelin-1, angiotensin II, oxidative stress, and (b) decreases in the actions of insulin or growth factors in endothelial cells. An accumulating body of evidence indicates that abnormal regulation of the phosphatidylinositol 3-kinase (PI3-K)/Akt pathway may be one of several factors contributing to vascular dysfunction in diabetes. The PI3-K pathway, which activates serine/threonine protein kinase Akt, enhances NO synthase phosphorylation and NO production. Several studies suggest that in diabetes the relative ineffectiveness of insulin and the hyperglycemia act together to reduce activity in the insulin-receptor substrates (IRS)/PI3-K/Akt pathway, resulting in impairments of both IRS/PI3-K/Akt-mediated endothelial function and NO production. This article summarizes the PI3-K/Akt pathway-mediated contraction and relaxation responses induced by various agents in the blood vessels of diabetic animals.

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Section: Mechanisms Underlying Impaired Endothelial Function In Diabementioning

confidence: 99%

The PI3-K/Akt pathway: roles related to alterations in vasomotor responses in diabetic models

Kobayashi

Matsumoto

Kamata

2005

J Smooth Muscle Res

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“…In such animals, we previously reported that: (1) the plasma ET-1 level is increased and that this increase may be due to an overexpression of the mRNA for prepro-ET-1 (Makino and Kamata, 1998;Makino et al, 2001), (2) the overproduction of ET-1 seen in STZ-induced diabetes results from the hyperglycemia, not from any increase in either LDL cholesterol or triglyceride (Makino and Kamata, 2000), (3) the expression of the mRNA for p22phox is increased in STZinduced diabetes, an increase that is completely preventable by the chronic administration of J-104132 (a potent, orally active, mixed antagonist of ETA and ETB receptors) (Kanie and Kamata, 2002), and (4) short-term or prolonged treatment with ET-1 impairs endothelial function in the aorta both in nondiabetic rats Matsumoto et al, 2007d) and in rats with established STZ-induced diabetes . Moreover, we have demonstrated that chronic administration of the PPARα agonist bezafibrate to established STZ-induced diabetic rats normalizes both the mRNA for prepro-ET-1 and the plasma concentration of ET-1, while improving endothelium-dependent relaxation (Kanie et al, 2003). In that paper, we also demonstrated that the expressions of the mRNAs for PPARα and PPARγ were downregulated in aortic segments from STZ-induced diabetic rats (Kanie et al, 2003).…”

Section: Pparγ Agonists and The Endothelin Systemmentioning

confidence: 50%

“…Moreover, we have demonstrated that chronic administration of the PPARα agonist bezafibrate to established STZ-induced diabetic rats normalizes both the mRNA for prepro-ET-1 and the plasma concentration of ET-1, while improving endothelium-dependent relaxation (Kanie et al, 2003). In that paper, we also demonstrated that the expressions of the mRNAs for PPARα and PPARγ were downregulated in aortic segments from STZ-induced diabetic rats (Kanie et al, 2003). In the recent paper referred to above, we found that the elevated plasma ET-1 level seen in such established STZinduced diabetic rats can be largely suppressed by chronic treatment with pioglitazone, and that the increased expression of aortic c-Jun (an AP-1 component) seen in such rats is greatly reduced by the pioglitazone treatment (Matsumoto et al, 2007d).…”

Section: Pparγ Agonists and The Endothelin Systemmentioning

confidence: 99%

“…A perturbation of the balance between ETA-and ETBreceptor activities may contribute to the pathogenesis of vascular disease (Brunner et al, 2006;Goto et al, 1996;Kanie and Kamata, 2002;Matsumoto et al, 2004c;Miyauchi and Masaki, 1999). Some, but not all, experimental models of hypertension, atherosclerosis, and diabetes display high levels of circulating ET-1, and exhibit endothelial dysfunction (Barton et al, 1998;Brunner et al, 2006;Kanie et al, 2003;Makino and Kamata, 1998). ET-1 has been linked to the production of superoxide within the vasculature in association with endothelial dysfunction (Elmarakby et al, 2005;Kamata et al, 2004;Lamplante et al, 2005;Li et al, 2003) (Fig.…”

Section: Pparγ Agonists and The Endothelin Systemmentioning

confidence: 99%

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Relationships among ET-1, PPAR.GAMMA., oxidative stress and endothelial dysfunction in diabetic animals

Matsumoto

Kobayashi

Kamata

2008

J. Smooth Muscle Res.

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Macro-and microvascular disorders currently represent the principal causes of morbidity and mortality in patients with diseases involving the cardiovascular system, such as atherosclerosis, hypertension, stroke, and diabetes. Abnormal vasomotor responses and impaired endothelium-dependent vasodilation have been demonstrated in a number of vessels in a variety of animal models and in humans with such diseases. Endothelial dysfunction plays a key role in the development of these diseases, yet the genesis of this endothelial dysfunction and its associated vasomotor abnormalities remain poorly understood. Peroxisome proliferator-activated receptor (PPAR)γ is a nuclear receptor and transcription factor in the steroid superfamily, and PPARγ agonists (the thiazolidinediones) are used clinically to treat type 2 diabetes. Recent studies have revealed that as well as being involved in adipogenesis and in increased sensitivity to insulin, PPARγ plays critical roles in the vasculature. In the present review, we discuss the beneficial effects of PPARγ agonists on vasomotor activities, focusing in particular on endothelium-dependent relaxation in vessels affected by cardiovascular diseases.

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“…The hyperglycemia in both type 1 and type 2 diabetes mostly results from the loss of β-cell mass that would lead to considerable morbidity in the globe population. Lately, an option and promising approach in expansion is to stimulate the regeneration of endogenous β-cells to replace the deficit in β-cell mass in diabetic patients [45][46][47][48]. Peroxisome proliferator-activated receptor a (PPARα and PPARγ), which is activated by specific agonists as fatty acid and fibrates forms heterodimers associated with PPAR response elements in the promoter region of target genes and retinoid X receptor [49].…”

Section: Dissuasionmentioning

confidence: 99%

Novel Anti-Diabetic Formula: Recover Islet ?-Cell dysfunction with the implementation of molecular approach

Kosta

Dangi

Shekhar

et al. 2015

Int J of Adv in Sci Res

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The regulation of PPARα and PPARγ at m-RNAs expression level is responsible for Islet β-cell dysfunction and insulin secretion seen in diabetic rats. Many traditional treatments have been recommended in the alternative system of medicine for the treatment of diabetes mellitus. Stevia rebaudiana and Gurmmar is a nontoxic natural therapeutic agent revealed to own diuretic, hypotensive and hypoglycemic properties. The ground of this study was to examine the anti-hyperglycemic property, expression of m-RNA at PPARα and PPARγ receptors and islet β-cells dysfunction of a combined aqueous extracts of Stevia rebaudiana and Gurmmar is on streptozotocin induced diabetic wistar rats. The diabetes induced rats were fed with plant extracts at the increasing dosage of 200mg, 300mg and 500mg of body weight. The combined plant extracts administrated rats revealed a significantly (P<0.001) rise of serum insulin levels and higher reduction in hyperglycemia or hyperlipidemia when compared to the diabetic control rats (P<0.001) and also an increase the m-RNAs expansion of PPARα and PPARγ respectively. The histological studies of the endocrine region of pancreas of diabetic rats revealed that shrinkage of β-cells of islets of langerhans. The combined plant extracts treated rats revealed recovery of β-cells. The recovery of β-cells was evident at higher dose level i.e. 500mg/wt extracts fed groups. According to the biochemical, molecular and histological results obtained, it was concluded that the combined plant extracts of this plant may sustain anti-diabetic properties by recovery Islet β-cell dysfunction with the implementation of molecular approach.

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Relationship between peroxisome proliferator‐activated receptors (PPARα and PPARγ) and endothelium‐dependent relaxation in streptozotocin‐induced diabetic rats

Cited by 58 publications

References 68 publications

The PI3-K/Akt pathway: roles related to alterations in vasomotor responses in diabetic models

The PI3-K/Akt pathway: roles related to alterations in vasomotor responses in diabetic models

Relationships among ET-1, PPAR.GAMMA., oxidative stress and endothelial dysfunction in diabetic animals

Novel Anti-Diabetic Formula: Recover Islet ?-Cell dysfunction with the implementation of molecular approach

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