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ABSTRACT: OBJECTIVE: Inducible nitric oxide synthase (iNOS) expression may be increased by cytokine plasma levels contributing to vascular damage in diabetes. Besides transcriptional regulation, Ca(2+)/CaMKII may play a role in post-translationally controlled iNOS activity. We accordingly investigated the involvement of the Ca(2+)/CaMKIIδ(2) signaling pathway in regulating lipopolysaccharide (LPS)-induced iNOS activity in cultured aortic vascular smooth muscle cells (VSMCs) from diabetic rats. METHODS AND RESULTS: VSMCs obtained from 10 diabetic rats (DR) and 10 control rats (CR) were stimulated with 20 μg/ml LPS. After 24 h, iNOS protein levels were 1.37 fold increased in DR- vs CR-VSMCs (p < 0.05; Western Blot), while iNOS activity (conversion l-((3)H)-arginine into l-((3)H)-citrulline) and intracellular nitrotyrosine levels (immunofluorescence) were about 2.7 fold greater in DR- than in CR-VSMCs. Interestingly, LPS increased intracellular Ca(2+) levels (Fluorescence video imaging) more markedly in DR- than in CR-VSMCs. This was associated with CaMKII activation by phosphorylation, a decreased amount of co-immunoprecipitating iNOS/CaMKIIδ(2) (Western Blot) and increased iNOS activity. The CaMKII inhibitor KN-93 abolished all the LPS-effects. CONCLUSION: These results indicate that the Ca(2+)/CaMKIIδ(2) signaling pathway may be an important regulator of iNOS activity in diabetes, and hence contribute to the potential development of innovative therapeutic strategies for vascular complications in diabetes.
Atherosclerosis 11/2012; · 3.79 Impact Factor
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ABSTRACT: Cardiovascular disease (CVD) is associated with vascular oxidative imbalance and inflammation. Increased reactive oxygen species (ROS) generation is associated with a functional inactivation of nitric oxide (NO) due to the reaction with O₂⁻, leading to peroxynitrite (ONOO⁻) formation and subsequent reduction in the beneficial effect of vascular NO bioavailability. Carotenoids'-rich diets have been associated with decreased risk of CVD, but the underlying mechanism is still unknown.
In human umbilical vein endothelial cells (HUVECs), both β-carotene (BC) or lycopene (Lyc) significantly affected tumor necrosis factor-α (TNF-α)-induced inflammation, being associated with a significant decrease in the generation of ROS (spectrofluorometry) and nitrotyrosine (an index of ONOO⁻ formation, cytofluorimetry), an increased NO/cGMP (cyclic guanosine monophosphate) levels (EIA), and a down-regulation of NF-κB-dependent adhesion molecule expression (Western blot and EMSA) and monocyte-HUVEC interaction (adhesion assay). Our results indicate that BC or Lyc treatment reduce the inflammatory response in TNF-α-treated HUVECs. This is due to the redox balance protection and to the maintenance of NO bioavailability.
Our observations provide background for a novel mechanism for carotenoids' anti-inflammatory activity in the vasculature and may contribute to a better understanding of the protective effects of carotenoid-rich diets against CVD risk.
Molecular Nutrition & Food Research 12/2011; 56(2):217-27. · 4.30 Impact Factor
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Mario Bonomini,
Assunta Pandolfi,
Lorenzo Di Liberato,
Sara Di Silvestre,
Yvette Cnops, Pamela Di Tomo,
Mario D'Arezzo,
Maria P Monaco,
Annalisa Giardinelli,
Natalia Di Pietro,
Olivier Devuyst,
Arduino Arduini
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ABSTRACT: Excessive intraperitoneal absorption of glucose during peritoneal dialysis has both local cytotoxic and systemic metabolic effects. Here we evaluate peritoneal dialysis solutions containing L-carnitine, an osmotically active compound that induces fluid flow across the peritoneum. In rats, L-carnitine in the peritoneal cavity had a dose-dependent osmotic effect similar to glucose. Analogous ultrafiltration and small solute transport characteristics were found for dialysates containing 3.86% glucose, equimolar L-carnitine, or combinations of both osmotic agents in mice. About half of the ultrafiltration generated by L-carnitine reflected facilitated water transport by aquaporin-1 (AQP1) water channels of endothelial cells. Nocturnal exchanges with 1.5% glucose and 0.25% L-carnitine in four patients receiving continuous ambulatory peritoneal dialysis were well tolerated and associated with higher net ultrafiltration than that achieved with 2.5% glucose solutions, despite the lower osmolarity of the carnitine-containing solution. Addition of L-carnitine to endothelial cells in culture increased the expression of AQP1, significantly improved viability, and prevented glucose-induced apoptosis. In a standard toxicity test, the addition of L-carnitine to peritoneal dialysis solution improved the viability of L929 fibroblasts. Thus, our studies support the use of L-carnitine as an alternative osmotic agent in peritoneal dialysis.
Kidney International 04/2011; 80(6):645-54. · 6.61 Impact Factor
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Gloria Formoso, Pamela Di Tomo,
Francesco Andreozzi,
Elena Succurro,
Sara Di Silvestre,
Sabrina Prudente,
Francesco Perticone,
Vincenzo Trischitta,
Giorgio Sesti,
Assunta Pandolfi,
Agostino Consoli
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ABSTRACT: TRIB3, a mammalian tribbles homologue, affects insulin signalling and action by inhibiting Akt phosphorylation. A TRIB3 Q84R gain-of-function polymorphism has been associated with insulin resistance both in vitro and in vivo and with several atherosclerotic phenotypes, including increased carotid intima-media thickness (IMT). We wanted to replicate this latter association and, if so, to get deeper insights about the molecular mechanisms underlying the role of the TRIB3 Q84R polymorphism in atherosclerosis.
in 430 Caucasians of European ancestry, carotid IMT was increased in QR (n = 116) and RR (n = 15) when compared with QQ (n = 299) subjects (P= 0.009), thus replicating similar data recently obtained among Asians. In human umbilical vein endothelial cells (HUVECs) naturally carrying the QQ genotype, 24 h insulin stimulation increased monocyte adhesion, vascular cell adhesion molecule-1 (VCAM-1) and intercellular adhesion molecule-1 (ICAM-1) expression, and mitogen-activated protein kinase (MAPK) kinase (MEK)-MAPK activation. Conversely, QR- and RR-HUVECs had increased unstimulated monocyte adhesion, VCAM-1 and ICAM-1 expression, and MEK-MAPK activation which did not increase further upon insulin stimulation. In addition, QQ-, QR-, and RR-HUVECs showed similar basal Akt phosphorylation and nitric oxide synthase activity which, however, were significantly increased by insulin only in QQ cells.
the TRIB3 R4 variant is associated with increased carotid IMT also in Caucasians, thus replicating previous data obtained in Asians. In addition, in HUVECs, this variant is associated with unbalanced insulin signalling. This abnormality may favour vasoreactivity, intima-media thickening, and plaque formation and may, therefore, underlie the deleterious role exerted by the variant on the susceptibility to atherosclerosis.
Cardiovascular research 01/2011; 89(1):184-92. · 5.80 Impact Factor
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ABSTRACT: Muscle fiber inexcitability and myosin loss underlie weakness in critical illness myopathy (CIM). Nitric oxide (NO) takes part in the maintenance of muscle fiber resting potential and, in pathological conditions accompanied by oxidative stress, may damage proteins through peroxynitrite generation. Sepsis and other conditions associated with CIM may differentially affect expression of NO synthases (NOSs), so that both downregulation and upregulation with excessive peroxynitrite production can be hypothesized. In six patients with CIM we studied NOS1, NOS2, and NOS3 protein expression by immunohistochemistry and Western blot. To investigate peroxynitrite production, we performed immunohistochemistry for nitrotyrosine and measured nitrotyrosine levels by enzyme-linked immunosorbent assay. In three patients, sarcolemmal staining for NOS1 was selectively absent. In the others, it was absent in atrophic fibers and absent or reduced in non-atrophic fibers. Total NOS1 protein content was reduced by 41% in patients compared to controls, whereas no significant changes were found in levels and localization of NOS2, NOS3, and nitrotyrosine. Further studies are warranted to determine whether NOS1 loss plays a role in the pathophysiology of CIM, possibly reducing the release of NO at the sarcolemma and affecting muscle fiber excitability.
Muscle & Nerve 03/2008; 37(2):196-202. · 2.37 Impact Factor
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ABSTRACT: In end-stage renal disease (ESRD) endothelium may represent a key target for the action of circulating elements, such as modified erythrocytes (RBC) and/or plasmatic factors, that may facilitate inflammation and the vasculopathy associated with uremia. We have previously demonstrated that phosphatidylserine (PS) exposure on the surface of RBC from ESRD patients increases RBC-human umbilical vein endothelial cell (HUVEC) interactions and causes decreased nitric oxide (NO) production. We postulated that, besides the pro-inflammatory effects due to decreased NO bio-availability, enhanced ESRD-RBC-HUVEC interactions might directly stimulate pro-inflammatory pathways leading to increased vascular adhesion molecule expression. ESRD-RBC-endothelial cell interactions induced a time-dependent up-regulation of VCAM-1 and ICAM-1 (measured by Western blot (WB) and real-time PCR), associated with mitogen-activated protein kinase (MAPK) activation and impairment of the Akt/endothelial nitric oxide synthase (eNOS) signaling cascade, measured by WB. In reconstitution experiments, normal RBC incubated with uremic plasma showed increased PS exposure and significantly increased VCAM-1 and ICAM-1 mRNA levels when incubated on HUVEC. Interestingly, ESRD-RBC induced increased expression of adhesion molecules was prevented by Annexin-V (AnV, able to mask PS on RBC surface), anti-integrin-alpha(v)beta3, anti-thrombospondin-1 (TSP-1), and PD98059 (a selective inhibitor of MAPK phosphorylation). Moreover, AnV reversed the ESRD-RBC effects on MAPK and Akt/eNOS signaling pathways. Our data demonstrate that, possibly via a direct interaction with the endothelial thrombospondin-(alpha(v)beta3) integrin complex, ESRD-RBC-HUVEC adhesion induces a vascular inflammatory phenotype. Thus, intervention targeting ESRD-RBC increased adhesion to endothelium and/or MAPK and Akt/eNOS pathways may have the potential to prevent vascular lesions under uremic conditions.
Journal of Cellular Physiology 01/2008; 213(3):699-709. · 3.87 Impact Factor
