Background-T cells play an important role during the immune response that accompanies atherosclerosis. To date, the role for interleukin (IL)-17A in atherogenesis is not well defined. Here, we tested the hypothesis that atherosclerosisprone conditions induce the differentiation of IL-17A-producing T cells, which in turn promote atherosclerosis. Methods and Results-IL-17A was found to be elevated in the plasma and tissues of apolipoprotein E-deficient (Apoe A therosclerosis is the leading cause of cardiovascular disease worldwide. Defined as chronic inflammation of the artery wall, its progression from fatty streaks to more complex lesions and plaque rupture involves a complicated interplay between many different cell types and cytokine networks. Both innate and adaptive immune responses have been shown to regulate local and systemic inflammation during atherogenesis. 1,2 T cells are found within the adventitia of normal/noninflamed vessels as a result of a constitutive T-cell homing into the aorta. 3 Atherosclerosis-prone conditions accelerate T-cell recruitment into the aorta of apolipoprotein E-deficient (Apoe Ϫ/Ϫ ) mice in both the early and advanced stages of atherosclerosis. 3 The majority of aortic T cells are T-cell receptor ␣ ϩ CD4 ϩ cells, with few CD8 ϩ and ␥␦ ϩ T cells present. 1,4 Of the CD4 ϩ T cells, T helper 1 (Th1) cells predominate over T helper 2 (Th2) cells during early lesion formation and respond with an elevated production of interferon (IFN)-␥ and interleukin (IL)-6. In the later stages of the disease, a switch to a Th2 response and IL-4 production is evident in the atherosclerotic lesions of Apoe Ϫ/Ϫ mice. 5 Clinical Perspective on p 1755IL-17A is a member of the IL-17 family, which includes IL-17A, IL-17B, IL-17C, IL-17D, IL-17E, and IL-17F. 6 Many lymphocyte subsets secrete IL-17A in response to cytokine or monoclonal antibody stimulation, including CD4 ϩ ␣ ϩ (Th17 cells) CD8 ϩ , CD4 Ϫ CD8 Ϫ ␣ low , natural killer T cells, and ␥␦ ϩ T cells. 7 The expression of IL-17A is low under normal/noninflamed conditions, in which ␥␦ ϩ T cells are the largest IL-17A-producing T-cell subset. 6 In several murine models of autoimmune diseases, including multiple sclerosis, inflammatory bowel disease, and arthritis, serum IL-17A levels are elevated, and the T helper 17 (Th17) cell population is expanded and plays a highly pathogenic role. 8 Conversely, IL-17A is a protective cytokine in host responses against extracellular pathogens through the induction of proinflammatory cytokines such as IL-6, tumor
Abstract-Although obesity is a risk factor for hypertension, the relationship between these 2 conditions is not well understood. Therefore, we examined some parameters of hypertension and cardiovascular disease in a dietary model of obesity. Male Sprague-Dawley rats were provided either a control diet (C) or a diet containing 32% kcal as fat (similar to a Western diet) for 1, 3, or 10 weeks. Rats in the latter group diverged based on body weight gain into obesity-prone (OP) and obesity-resistant (OR) groups. Systolic blood pressure in OP rats was significantly higher after 10 weeks of the diet (149Ϯ4.8 mm Hg) compared with both OR and C groups (131Ϯ3.7 and 129Ϯ4.5 mm Hg, respectively). The aortic wall area of OP rats was significantly increased, indicating arterial hypertrophy, and a 2-fold increase in plasma renin activity was found in OP rats compared with OR and C rats. The lipid profile showed a significant increase in plasma and VLDL triglycerides of OP versus OR and C groups as early as 3 weeks on the diet. Plasma and LDL-cholesterol levels were increased in the OP group versus the OR and C groups after 3 weeks of the diet, but the difference was blunted after 10 weeks. Lipid peroxidation (thiobarbituric acid-reactive substances) in OP rats was increased 2-fold in LDL and 1.5-fold in aortic wall compared with OR rats, suggesting an increased oxidative stress in these animals. Periodic acid-Schiff staining of the kidney showed mesangial expansion and focal sclerosis that were more prominent in OP rats than in OR rats. The results suggest that hypercholesterolemia, but not hypertriglyceridemia, is linked to the diet; that hypertension and renin-angiotensin system activation are associated with obesity; and that lipid peroxidation and renal damage are the results of both factors. (Hypertension. 2000;35:1009-1015.)besity is a complex, multifactorial disease that is often associated with diabetes, cardiovascular diseases, and stroke. Among other factors, obesity is an important contributor to essential hypertension in humans. Data from the Framingham Heart Study suggest that Ϸ78% of essential hypertension in men and Ϸ65% of essential hypertension in women can be directly attributed to obesity. 1 However, the mechanisms that link obesity with high blood pressure and altered renal function have not been fully elucidated. One problem in the study of the mechanisms of obesity hypertension has been the lack of a suitable animal model. The ideal model would not only have the features of human hypertension but also allow the study of sequential changes in cardiovascular and kidney function that occur with weight gain. The genetic models of obesity may or may not develop hypertension or do not mimic the changes observed in humans. For example, Zucker rats have decreased plasma renin activity (PRA) 2 as opposed to the high PRA observed in humans. 3 In contrast, diet-induced obese animal models appear to be the most relevant with regard to human obesity. Some of these models, such as the obese dog 4 or obese rabbit 5 fed...
The 12/15-lipoxygenase enzymes react with fatty acids producing active lipid metabolites that are involved in a number of significant disease states. The latter include type 1 and type 2 diabetes (and associated complications), cardiovascular disease, hypertension, renal disease, and the neurological conditions Alzheimer’s disease and Parkinson’s disease. A number of elegant studies over the last thirty years have contributed to unraveling the role that lipoxygenases play in chronic inflammation. The development of animal models with targeted gene deletions has led to a better understanding of the role that lipoxygenases play in various conditions. Selective inhibitors of the different lipoxygenase isoforms are an active area of investigation, and will be both an important research tool and a promising therapeutic target for treating a wide spectrum of human diseases.
Abstract-The mechanisms underlying the development of hypertension in obesity are not yet fully understood. We recently reported the development of hypertension in a rat model of diet-induced obesity. When Sprague-Dawley rats (nϭ60) are fed a moderately high fat diet (32 kcal% fat) for 10 to 16 weeks, approximately half of them develop obesity (obesity-prone [OP] group) and mild hypertension (158Ϯ3.4 mm Hg systolic pressure), whereas the other half (obesity-resistant [OR] group) maintains a body weight equivalent to that of a low fat control group and is normotensive (135.8Ϯ3.8 mm Hg). We examined the potential role of oxidative stress in the development of hypertension in this model. Lipid peroxides measured as thiobarbituric acid-reactive substances showed a significant increase in the LDL fraction of OP rats (2.8Ϯ0.32 nmol malondialdehyde/mg protein) compared with OR and control rats (0.9Ϯ0.3 nmol malondialdehyde/mg protein). Also, aortic and kidney thiobarbituric acid-reactive substances showed a significant (3-and 5-fold) increase in OP rats after 16 weeks of diet. In addition, superoxide generation by aortic rings, measured by lucigenin luminescence, showed a 2-fold increase in the OP group compared with both the OR and control groups. In addition, free isoprostane excretion and nitrotyrosine in the kidney showed an increase in OP rats only. The urine and plasma nitrate/nitrite measured by the LDH method showed a 1.8-fold decrease in OP rats compared with OR rats. However, endothelial NO synthase expression in the kidney cortex and medulla assessed by reverse transcriptasepolymerase chain reaction showed a strong increase in the OP rats versus OR and control rats (endothelial NO synthase/-actin ratio 1.3Ϯ0.04 in OP rats versus 0.44Ϯ0.02 in OR rats), suggesting a possible shift toward superoxide production by the enzyme. Collectively, the data show a decreased NO bioavailability in OP animals that is due in part to the increased oxidative stress. Key Words: diet Ⅲ nitric oxide Ⅲ obesity Ⅲ oxidative stress Ⅲ kidney Ⅲ lipids O besity is an important contributor to essential hypertension in humans. Data from the Framingham Heart Study suggest that Ϸ78% of essential hypertension in men and Ϸ65% in women can be directly attributed to obesity. 1 However, the mechanisms that link obesity with high blood pressure (BP) have not been fully elucidated. There are data that indicate increased oxidative stress in human essential hypertension 2,3 as well as in obese hypertensive patients. 4 Also, the involvement of the superoxide radical in BP regulation has been reported for several animal models of hypertension, such as the spontaneously hypertensive rat, 5,6 Dahl rat, 7 and angiotensin II-infused rat. 8 Romero's group (Haas et al 9 and Reckelhoff et al 10 ) has recently reported that subpressor doses of angiotensin II are able to generate oxidative stress in pigs and rats, which, in turn, is able to induce chronic elevations in BP. The increase in superoxide production in hypertension has been shown to have an impact ...
Abstract-The objective of this study was to determine the effect of pioglitazone on blood pressure (BP) and oxidative balance in obese, hypertensive, Sprague-Dawley rats and to identify some of the molecular mechanisms involved. After 12 weeks of a moderately high-fat diet, rats diverged into obesity-prone (OP) and obesity-resistant (OR) groups (nϭ6 per group). At the end of the diet, peroxisome proliferator activated receptor-␥ (PPAR␥) mRNA expression and activity in the renal cortex and medulla of OP rats were significantly lower compared with that in OR rats. Pioglitazone treatment increased PPAR␥ expression and activity in OP rats, suggesting a possible direct ligand-related effect of pioglitazone. As opposed to the untreated OP group, which showed moderate hypertension (systolic BPϭ159Ϯ5.3 mm Hg) after 12 weeks, pioglitazone-treated rats were normotensive (systolic BPϭ123.9Ϯ2.7 mm Hg). Insulin production was reduced by 2-fold in the OP group treated with pioglitazone. Urinary isoprostanes and renal lipid peroxides were also reduced in OP rats treated with pioglitazone compared with untreated counterparts. Also, expression of p47phox and gp91phox, both increased in OP versus OR rats, was reduced in the former by pioglitazone treatment. In addition, pioglitazone treatment increased nitrate/nitrite excretion and expression of renal endothelial and neuronal nitric oxide synthase. Collectively, the results show that pioglitazone treatment prevented hypertension and renal oxidative stress both by reducing free-radical production and by increasing nitric oxide production/availability. Key Words: kidney Ⅲ oxidative stress Ⅲ free radicals Ⅲ nitric oxide Ⅲ vitamins O besity is a widespread and increasingly prevalent condition associated with a large number of comorbid diseases, one of the most important of which is obesityinduced hypertension. A pleiotropic class of molecules involved in regulation of gene expression in a variety of metabolic and cardiovascular conditions is the peroxisome proliferator-activated receptors (PPARs). PPARs are ligandactivated transcription factors that form heterodimers with the 9-cis retinoic acid receptor RXR␣. 1 PPAR␥ is one of the three PPAR isoforms and is one of the major regulators of adipogenesis. 2 In addition, PPAR␥ exerts pleiotropic effects on blood pressure, lipid metabolism, and insulin action.Recent genetic analysis showed that 2 dominant-negative mutations in PPAR␥ were associated with severe hypertension in humans. 3,4 Consistent with these findings, thiazolidinendiones, the insulin-sensitizer drugs (pioglitazone, rosiglitazone) that are also high-affinity PPAR␥ ligands, 5 have been shown to lower blood pressure (BP) in a variety of hypertensive animal models 6 -8 as well as in diabetic and nondiabetic, 9 hypertensive humans. However, the mechanism underlying the antihypertensive effects of PPAR␥ agonists is not known. PPAR␥ and RXR have been found constitutively expressed in the inner medullary collecting ducts, thick ascending limb, glomerulus, and renal medullary mic...
Adipose tissue inflammation and reduced pancreatic β-cell function are key issues in the development of cardiovascular disease and progressive metabolic dysfunction in type 2 diabetes mellitus. The aim of this study was to determine the effect of the DPP IV inhibitor sitagliptin on adipose tissue and pancreatic islet inflammation in a diet-induced obesity model. C57Bl/6J mice were placed on a high-fat (60% kcal fat) diet for 12 wk, with or without sitagliptin (4 g/kg) as a food admix. Sitagliptin significantly reduced fasting blood glucose by 21% as well as insulin by ∼25%. Sitagliptin treatment reduced body weight without changes in overall body mass index or in the epididymal and retroperitoneal fat mass. However, sitagliptin treatment led to triple the number of small adipocytes despite reducing the number of the very large adipocytes. Sitagliptin significantly reduced inflammation in the adipose tissue and pancreatic islet. Macrophage infiltration in adipose tissue evaluated by immunostaining for Mac2 was reduced by sitagliptin ( P < 0.01), as was the percentage of CD11b+/F4/80+ cells in the stromal vascular fraction ( P < 0.02). Sitagliptin also reduced adipocyte mRNA expression of inflammatory genes, including IL-6, TNFα, IL-12(p35), and IL-12(p40), 2.5- to fivefold as well as 12-lipoxygenase protein expression. Pancreatic islets were isolated from animals after treatments. Sitagliptin significantly reduced mRNA expression of the following inflammatory cytokines: MCP-1 (3.3-fold), IL-6 (2-fold), IL-12(p40) (2.2-fold), IL-12(p35) (5-fold, P < 0.01), and IP-10 (2-fold). Collectively, the results indicate that sitagliptin has anti-inflammatory effects in adipose tissue and in pancreatic islets that accompany the insulinotropic effect.
Central obesity is associated with low-grade inflammation that promotes type 2 diabetes and cardiovascular disease in obese individuals. The 12- and 5-lipoxygenase (12-LO and 5-LO) enzymes have been linked to inflammatory changes, leading to the development of atherosclerosis. 12-LO has also been linked recently to inflammation and insulin resistance in adipocytes. We analyzed the expression of LO and proinflammatory cytokines in adipose tissue and adipocytes in obese Zucker rats, a widely studied genetic model of obesity, insulin resistance, and the metabolic syndrome. mRNA expression of 12-LO, 5-LO, and 5-LO-activating protein (FLAP) was upregulated in adipocytes and adipose tissue from obese Zucker rats compared with those from lean rats. Concomitant with increased LO gene expression, the 12-LO product 12-HETE and the 5-LO products 5-HETE and leukotriene B4 (LTB4) were also increased in adipocytes. Furthermore, upregulation of key proinflammatory markers interleukin (IL)-6, TNFα, and monocyte chemoattractant protein-1 were observed in adipocytes isolated from obese Zucker rats. Immunohistochemistry indicated that the positive 12-LO staining in adipose tissue represents cells in addition to adipocytes. This was confirmed by Western blotting in stromal vascular fractions. These changes were in part reversed by the novel anti-inflammatory drug lisofylline (LSF). LSF also reduced p-STAT4 in visceral adipose tissue from obese Zucker rats and improved the metabolic profile, reducing fasting plasma glucose and increasing insulin sensitivity in obese Zucker rats. In 3T3-L1 adipocytes, LSF abrogated the inflammatory response induced by LO products. Thus, therapeutic agents reducing LO or STAT4 activation may provide novel tools to reduce obesity-induced inflammation.
. Effect of salt on hypertension and oxidative stress in a rat model of diet-induced obesity. Am J Physiol Renal Physiol 285: F619-F628, 2003. First published June 10, 2003 10.1152 10. /ajprenal.00388. 2002 diet is known to induce or aggravate hypertension in animal models of hypertension and in humans. When Sprague-Dawley rats (n ϭ 60) are fed a moderately high-fat diet (32% kcal fat, 0.8% NaCl) for 10 wk, about one-half develop obesity [obesity prone (OP)] and mild hypertension, whereas the other half [obesity resistant (OR)] maintain body weight equivalent to a low-fat control (C) and are normotensive. The aim of this study was to test the effect of high-NaCl diets (2 and 4% NaCl) on the development of hypertension and obesity, oxidative stress, and renal function. Both 2 and 4% NaCl induced an early increase in systolic blood pressure of OP but not OR or C rats. High-salt intake induced an increase in the size and reduction in number of adipocytes, concomitant to a twofold increase in circulating leptin in OP rats. Aortic superoxide generation indicated a 2.8-fold increase in the OP high-salt vs. normalsalt groups, whereas urine isoprostanes were not significantly increased. Also, hydroxynonenal protein adducts in the kidney were highly increased in OP rats on 2 and 4% NaCl, indicating oxidative stress in the renal tissue. Urine albumin was increased threefold in the OP on 2% NaCl and fourfold in the same group on 4% NaCl vs. 0.8% NaCl. Kidney histology indicated a higher degree of glomerulosclerosis in OP rats on high-salt diets. In summary, high-salt diet accelerated the development but did not increase the severity of hypertension; high salt increased oxidative stress in the vasculature and kidney and induced kidney glomerulosclerosis and microalbuminuria. Also, the OP rats on high salt displayed adipocyte hypertrophy and increased leptin production.glomerulosclerosis; kidney; leptin; sodium dietary OBESITY IS A complex, multifactorial disease that is associated with essential hypertension in ϳ78% of men and ϳ65% of women, as indicated by the data from the Framingham Heart Study (25). Another important contributor to hypertension in humans is the excessive consumption of dietary salt, and epidemiological studies have demonstrated a significant but weak relation between salt intake and hypertension (32, 33). Some, but not all, interventional studies have shown that salt restriction may lower blood pressure (BP) (19,33). Some recent studies report correlation among hypertension, salt sensitivity, and insulin resistance in obese humans (38), whereas others fail to observe a significant relationship (8). Animal models of obesity, hypertension, and insulin resistance display differences with respect to salt sensitivity. In Zucker rats, there is a clear correlation between salt intake and the severity of hypertension (4, 47), whereas in chronic hyperinsulinemic Sprague-Dawley (SD) rats, hypertension is not salt sensitive, albeit a shift in pressure-natriuresis relationship was reported (2). One important cont...
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