Increased circulating nitric oxide in young patients with type 1 diabetes and persistent microalbuminuria: relation to glomerular hyperfiltration.

Chiarelli, Francesco; Cipollone, Francesco; Romano, Ferdinando; Tumini, Stefano; Costantini, Fabrizio; Ricco, L. di; Pomilio, Mariapina; Pierdomenico, Sante D.; Marini, Matteo; Cuccurullo, Franco; Mezzetti, Andrea

doi:10.2337/diabetes.49.7.1258

Cited by 129 publications

(90 citation statements)

References 38 publications

(53 reference statements)

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“…Experimental data from the single nephron model has demonstrated that NO contributes to efferent arteriolar tone (23). Our conclusion of a decreased efferent NO bioavailability in diabetic subjects that is potentially ameliorated by rosiglitazone appears to be in conflict with studies suggesting a contribution of increased NO to the glomerular hyperfiltration in the early diabetic state (24,25). These studies, however, did not test bioavailable NO (e.g., by assessment of renal hemodynamics).…”

Section: Discussioncontrasting

confidence: 52%

Rosiglitazone Improves Glomerular Hyperfiltration, Renal Endothelial Dysfunction, and Microalbuminuria of Incipient Diabetic Nephropathy in Patients

et al. 2005

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Microalbuminuria, an early feature of diabetic nephropathy, indicates intrarenal endothelial damage. In type 2 diabetes, microalbuminuria is strongly related to insulin resistance. We therefore investigated whether rosiglitazone, an insulin-sensitizing drug that is known to improve endothelial dysfunction, was able to improve intrarenal endothelial dysfunction and microalbuminuria. Nineteen type 2 diabetic patients participated in this double-blind cross-over trial. Nine patients with newly diagnosed disease without microalbuminuria were randomized to a treatment with rosiglitazone or nateglinide, each for 12 weeks. Ten patients with microalbuminuria were randomized to rosiglitazone or placebo, each for 12 weeks in addition to their previous antidiabetic medication. After each treatment, glomerular filtration rate (GFR), renal plasma flow, and filtration fraction were measured before and after blockade of nitric oxide (NO) by intravenous administration of N-monomethyl-L-arginine-acetate (L-NMMA). Ten healthy subjects served as control subjects. Type 2 diabetic patients at baseline showed glomerular hyperfiltration compared with healthy control subjects. Rosiglitazone reduced elevated GFR and filtration fraction toward control primarily in patients with microalbuminuria (GFR: 133.4 ؎ 9.8 vs. 119.6 ؎ 8.7 ml/min; filtration fraction: 23.2 ؎ 1.7 vs. 20.5 ؎ 1.6% before and after rosiglitazone, respectively; control subjects: GFR 111.7 ؎ 8.6 ml/min, filtration fraction 20.4 ؎ 1.5%). Rosiglitazone improved intrarenal NO bioavailability in type 2 diabetes toward control as shown by infusion of L-NMMA. Rosiglitazone reduced albumin excretion in type 2 diabetes with microalbuminuria from 116.5 ؎ 31 to 40.4 ؎ 12 mg/day. Rosiglitazone ameliorated glomerular hyperfiltration in early type 2 diabetes, improved NO bioavailability, and lessened renal end-organ damage in type 2 diabetes with microalbuminuria. Diabetes

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Section: Discussioncontrasting

confidence: 52%

Rosiglitazone Improves Glomerular Hyperfiltration, Renal Endothelial Dysfunction, and Microalbuminuria of Incipient Diabetic Nephropathy in Patients

et al. 2005

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“…The haemodynamic hypothesis of diabetic microangiopathy emphasises the importance of increases in capillary pressure and flow as key factors for the development of complications [30]. Enhanced endothelial nitric oxide synthase (eNOS) activity has been suggested to mediate renal hyperfiltration [31]. Indeed, chronic NOS inhibition abolishes glomerular hyperfiltration [32], and the afferent arterioles of streptozotocin diabetic rats show high levels of eNOS expression [33].…”

Section: Discussionmentioning

confidence: 99%

Increased plasma adiponectin concentrations are associated with microangiopathy in type 1 diabetic subjects

et al. 2005

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Aims/hypothesis: Insulin resistance is related to an increased risk of diabetic retinopathy and nephropathy in type 1 diabetes. Patients with insulin resistance and/or macrovascular disease have abnormally low levels of adiponectin. The aim of this study was to investigate the relationships between adiponectin and renal and retinal diabetic complications in type 1 diabetic patients. Methods: In this 6-year prospective follow-up observational study, we evaluated the severity of retinopathy at baseline and determined the incident risk of microalbuminuria in 126 normoalbuminuric patients with type 1 diabetes. Each patient was age-and sex-matched to two non-diabetic control subjects. Results: Plasma adiponectin concentrations were significantly higher in diabetic subjects than in control subjects (p<0.0001). The adiponectin concentration was significantly higher in patients with severe diabetic retinopathy than in those without (39.1±14.0 vs 29.0±13.0 μg/ml, p=0.0005). The 18 patients who developed persistent microalbuminuria had higher adiponectin concentrations than the other patients (35.8±14.5 vs 30.6±13.7 μg/ml). Increased adiponectin concentrations were independently associated with the occurrence of microalbuminuria (p=0.0158) after adjustment for baseline urinary albumin concentration (p=0.004), sex (p=0.0054), blood pressure (NS) and metabolic control (NS). Conclusions/interpretation: The elevated adiponectin concentrations observed in subjects with microvascular disease may indicate an altered regulation of this adipocytokine in patients with complications associated with type 1 diabetes.

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“…A lterations in renal hemodynamic function are prevalent in diabetes (1,2) and include increased intraglomerular capillary pressure and hyperfiltration (3)(4)(5). Because blockade of the renin angiotensin system (RAS) does not completely normalize hyperfiltration (6), it is clear that other factors are operative in the renal microcirculation in diabetes.…”

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confidence: 99%

The Effect of Cyclooxygenase-2 Inhibition on Renal Hemodynamic Function in Humans With Type 1 Diabetes

et al. 2008

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OBJECTIVE-Studies in animal models suggest that cyclooxygenase-2 (COX2) plays a role in the regulation of the renal microcirculation in diabetes. Accordingly, we examined the role of COX2 in the control of renal hemodynamic function and in the renal response to hyperglycemia in humans with uncomplicated type 1 diabetes. We hypothesized that COX2 inhibition would alleviate the hyperfiltration state and would abrogate the hyperglycemia-mediated rise in glomerular filtration rate (GFR).RESEARCH DESIGN AND METHODS-Renal function was assessed during clamped euglycemia and hyperglycemia on 2 consecutive days before and then again after 14 days of COX2 inhibition using 200 mg celecoxib once daily by mouth. For analysis, the cohort was then divided into two groups based on the baseline GFR: 9 subjects exhibited hyperfiltration (GFR Ն135 ml/min per 1.73 m 2 ), and 12 subjects exhibited normofiltration (GFR Ͻ135 ml/min per 1.73 m 2 ).RESULTS-Under euglycemic conditions, COX2 inhibition resulted in a significant decline in GFR in the hyperfiltration group (150 Ϯ 5 to 139 Ϯ 5 ml/min per 1.73 m 2 ) but increased GFR in the normofiltration group (118 Ϯ 5 to 138 Ϯ 5 ml/min per 1.73 m 2 ). COX2 inhibition did not blunt the hyperglycemia-associated rise in GFR in the normofiltration group and was instead associated with an augmented rise in GFR.CONCLUSIONS-In summary, our results support the hypothesis that COX2 is an important determinant of renal hemodynamic function in subjects with type 1 diabetes. The renal response to COX2 inhibition emphasizes that hyperfiltration and normofiltration are distinct physiological states. Diabetes 57: 688-695, 2008 A lterations in renal hemodynamic function are prevalent in diabetes (1,2) and include increased intraglomerular capillary pressure and hyperfiltration (3-5). Because blockade of the renin angiotensin system (RAS) does not completely normalize hyperfiltration (6), it is clear that other factors are operative in the renal microcirculation in diabetes.Animal studies have examined the role of vasodilatation (7) in the pathogenesis of hyperfiltration. Early work focused on the role of cyclooxygenase (COX)-derived prostanoids, which exert a variety of functions in the kidney, including important vasodilatory effects; however, studies initially used nonspecific COX1/COX2 inhibitors (8). With the discovery of the COX2 isoform and selective COX2 inhibitors, experimental models of diabetes revealed that COX2 expression is increased in the macula densa in this condition and is associated with enhanced production of vasodilatory prostaglandins, RAS activation, and renal hyperfiltration (9). Moreover, in streptozotocininduced diabetic rat models with a renal hyperfiltration phenotype, hyperglycemia-associated prostaglandin production and hyperfiltration were blunted using COX2 inhibition (9). Given the association between renal hyperfiltration, intraglomerular hypertension, and nephropathy related to diabetes (7,10,11), the elucidation of COX2-mediated renal hemodynamic function changes in dia...

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Increased circulating nitric oxide in young patients with type 1 diabetes and persistent microalbuminuria: relation to glomerular hyperfiltration.

Cited by 129 publications

References 38 publications

Rosiglitazone Improves Glomerular Hyperfiltration, Renal Endothelial Dysfunction, and Microalbuminuria of Incipient Diabetic Nephropathy in Patients

Rosiglitazone Improves Glomerular Hyperfiltration, Renal Endothelial Dysfunction, and Microalbuminuria of Incipient Diabetic Nephropathy in Patients

Increased plasma adiponectin concentrations are associated with microangiopathy in type 1 diabetic subjects

The Effect of Cyclooxygenase-2 Inhibition on Renal Hemodynamic Function in Humans With Type 1 Diabetes

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