Integrin-linked kinase mRNA expression in circulating mononuclear cells as a biomarker of kidney and vascular damage in experimental chronic kidney disease.

BACKGROUND: Traditional biomarkers of chronic kidney disease (CKD) detect the disease in its late stages and hardly predict associated vascular damage. Integrin-linked kinase (ILK) is a scaffolding protein and a serine/threonine protein kinase that plays multiple roles in several pathophysiological processes during renal damage. However, the involvement of ILK as a biomarker of CKD and its associated vascular problems remains to be fully elucidated. METHODS: CKD was induced by an adenine-rich diet for 6 weeks in mice. We used an inducible ILK knockdown mice (cKD-ILK) model to decrease ILK expression. ILK content in mice's peripheral blood mononuclear cells (PBMCs) was determined and correlated with renal function parameters and with the expression of ILK and fibrosis and inflammation markers in renal and aortic tissues. Also, the expression of five miRNAs that target ILK was analyzed in whole blood of mice. RESULTS: The adenine diet increased ILK expression in PBMCs, renal cortex, and aortas, and creatinine and urea nitrogen concentrations in the plasma of WT mice, while these increases were not observed in cKD-ILK mice. Furthermore, ILK content in PBMCs directly correlated with renal function parameters and with the expression of renal and vascular ILK and fibrosis and inflammation markers. Finally, the expression of the five miRNAs increased in the whole blood of adenine-fed mice, although only four correlated with plasma urea nitrogen, and of those, three were downregulated in cKD-ILK mice. CONCLUSIONS: ILK, in circulating mononuclear cells, could be a potential biomarker of CKD and CKD-associated renal and vascular damage.

Effect of the structural modification of Candesartan with Zinc on hypertension and left ventricular hypertrophy.

Hypertension is the most common cause of left ventricular hypertrophy, contributing to heart failure progression. Candesartan (Cand) is an angiotensin receptor antagonist widely used for hypertension treatment. Structural modifications were previously performed by our group using Zinc (ZnCand) as a strategy for improving its pharmacological properties. The measurements showed that ZnCand exerts a stronger interaction with the angiotensin II receptor, type 1 (AT1 receptor), reducing oxidative stress and intracellular calcium flux, a mechanism implied in cell contraction. These results were accompanied by the reduction of the contractile capacity of mesangial cells. In vivo experiments showed that the complex causes a significant decrease in systolic blood pressure after 8 weeks of treatment in spontaneously hypertensive rats (SHR). The reduction of heart hypertrophy was evidenced by echocardiography, the histologic cross-sectional area of cardiomyocytes, collagen content, the B-type natriuretic peptide (BNP) marker and connective tissue growth factor (CTGF) and the matrix metalloproteinase 2 (MMP-2) expression. Besides, the complex restored the redox status. In this study, we demonstrated that the complexation with Zn(II) improves the antihypertensive and cardiac effects of the parental drug.

Serum and Urinary Soluble α-Klotho as Markers of Kidney and Vascular Impairment.

This study was designed to investigate the controversy on the potential role of sKlotho as an early biomarker in Chronic Kidney Disease-Mineral Bone Disorder (CKD-MBD), to assess whether sKlotho is a reliable marker of kidney α-Klotho, to deepen the effects of sKlotho on vascular smooth muscle cells (VSMCs) osteogenic differentiation and to evaluate the role of autophagy in this process. Experimental studies were conducted in CKD mice fed a normal phosphorus (CKD+NP) or high phosphorus (CKD+HP) diet for 14 weeks. The patients' study was performed in CKD stages 2-5 and in vitro studies which used VSMCs exposed to non-calcifying medium or calcifying medium with or without sKlotho. The CKD experimental model showed that the CKD+HP group reached the highest serum PTH, P and FGF23 levels, but the lowest serum and urinary sKlotho levels. In addition, a positive correlation between serum sKlotho and kidney α-Klotho was found. CKD mice showed aortic osteogenic differentiation, together with increased autophagy. The human CKD study showed that the decline in serum sKlotho is previous to the rise in FGF23. In addition, both serum sKlotho and FGF23 levels correlated with kidney function. Finally, in VSMCs, the addition of sKlotho prevented osteogenic differentiation and induced autophagy. It can be concluded that serum sKlotho was the earliest CKD-MBD biomarker, a reliable indicator of kidney α-Klotho and that might protect against osteogenic differentiation by increasing autophagy. Nevertheless, further studies are needed to investigate the mechanisms of this possible protective effect.

Indoxyl sulfate- and P-cresol-induced monocyte adhesion and migration is mediated by integrin-linked kinase-dependent podosome formation.

Cardiovascular disease is an important cause of death in patients with chronic kidney disease (CKD). Protein-bound uremic toxins, such as p-cresyl and indoxyl sulfate (IS), are poorly removed during hemodialysis, leading to vascular endothelial dysfunction and leukocyte extravasation. These processes can be related to dynamic adhesion structures called podosomes. Several studies have indicated the role of integrin-linked kinase (ILK) in the accumulation of integrin-associated proteins in podosomes. Here, we investigated the involvement of ILK and podosome formation in the adhesion and extravasation of monocytes under p-cresol (pc) and IS exposure. Incubation of THP-1 human monocyte cells with these toxins upregulated ILK kinase activity. Together, both toxins increased cell adhesion, podosome formation, extracellular matrix degradation, and migration of THP-1 cells, whereas ILK depletion with specific small interfering RNAs suppressed these processes. Interestingly, F-actin colocalized with cortactin in podosome cores, while ILK was colocalized in podosome rings under toxin stimulation. Podosome Wiskott-Aldrich syndrome protein (WASP)-interacting protein (WIP) and AKT protein depletion demonstrated that monocyte adhesion depends on podosome formation and that the ILK/AKT signaling pathway is involved in these processes. Ex vivo experiments showed that both toxins induced adhesion and podosome formation in leukocytes from wild-type mice, whereas these effects were not observed in leukocytes of conditional ILK-knockdown animals. In summary, under pc and IS stimulation, monocytes increase podosome formation and transmigratory capacity through an ILK/AKT signaling pathway-dependent mechanism, which could lead to vascular injury. Therefore, ILK could be a potential therapeutic target for the treatment of vascular damage associated with CKD.

Interplay between extracellular matrix components and cellular and molecular mechanisms in kidney fibrosis.

Chronic kidney disease (CKD) is characterized by pathological accumulation of extracellular matrix (ECM) proteins in renal structures. Tubulointerstitial fibrosis is observed in glomerular diseases as well as in the regeneration failure of acute kidney injury (AKI). Therefore, finding antifibrotic therapies comprises an intensive research field in Nephrology. Nowadays, ECM is not only considered as a cellular scaffold, but also exerts important cellular functions. In this review, we describe the cellular and molecular mechanisms involved in kidney fibrosis, paying particular attention to ECM components, profibrotic factors and cell-matrix interactions. In response to kidney damage, activation of glomerular and/or tubular cells may induce aberrant phenotypes characterized by overproduction of proinflammatory and profibrotic factors, and thus contribute to CKD progression. Among ECM components, matricellular proteins can regulate cell-ECM interactions, as well as cellular phenotype changes. Regarding kidney fibrosis, one of the most studied matricellular proteins is cellular communication network-2 (CCN2), also called connective tissue growth factor (CTGF), currently considered as a fibrotic marker and a potential therapeutic target. Integrins connect the ECM proteins to the actin cytoskeleton and several downstream signaling pathways that enable cells to respond to external stimuli in a coordinated manner and maintain optimal tissue stiffness. In kidney fibrosis, there is an increase in ECM deposition, lower ECM degradation and ECM proteins cross-linking, leading to an alteration in the tissue mechanical properties and their responses to injurious stimuli. A better understanding of these complex cellular and molecular events could help us to improve the antifibrotic therapies for CKD.

Integrin Linked Kinase (ILK) Downregulation as an Early Event During the Development of Metabolic Alterations in a Short-Term High Fat Diet Mice Model.

BACKGROUND/AIMS: Diabetes type 2, metabolic syndrome or non-alcoholic fatty liver disease are insulin resistance-related metabolic disorders, which lack a better prognosis before their full establishment. We studied the importance of the intracellular scaffold protein integrin linked kinaes (ILK) as a key modulator in the initial pathogenesis and the early progression of those insulin resistance- related disorders. METHODS: Adult mice with a global transgenic downregulation of ILK expression (cKD-ILK) and littermates without that depletion (CT) were fed with either standard (STD) or high fat (HFD) diets during 2 and 6 weeks. Weights, blood glucose and other systemic biochemical parameters were determined in animals under fasting conditions and after glucose or pyruvate intraperitoneal injections to test their tolerance. In RNA or proteins extracted from insulin-sensitive tissues, we determined by reverse transcription-quantitative PCR and western blot the expression of ILK, metabolites transporters and other metabolism and inflammatory markers. Glucose uptake capacity was studied in freshly isolated tissues. RESULTS: HFD feeding was able to early and progressively increase glycaemia, insulinemia, circulating glycerol, body weight gain, liver-mediated gluconeogenesis along this time lapse, but cKD-ILK have all these systemic misbalances exacerbated compared to CT in the same HFD time lapse. Interestingly, the tisular expression of ILK in HFD-fed CT was dramatically downregulated in white adipose tissue (WAT), skeletal muscle and liver at the same extent of the original ILK downregulation of cKD-ILK. We previously published that basal STD-fed cKD-ILK compared to basal STD-CT have different expression of glucose transporters GLUT4 in WAT and skeletal muscle. In the same STD-fed cKD-ILK, we observed here the increased expressions of hepatic GLUT2 and WAT pro-inflammatory cytokines TNF-α and MCP-1. The administration of HFD exacerbated the expression changes in cKD-ILK of these and other markers related to the imbalanced metabolism observed, such as WAT lipolysis (HSL), hepatic gluconeogenesis (PCK-1) and glycerol transport (AQP9). CONCLUSION: ILK expression may be taken as a predictive determinant of metabolic disorders establishment, because its downregulation seems to correlate with the early imbalance of glucose and glycerol transport and the subsequent loss of systemic homeostasis of these metabolites.

Chronic kidney disease induced by an adenine rich diet upregulates integrin linked kinase (ILK) and its depletion prevents the disease progression.

Kidney fibrosis is one of the main pathological findings of progressive chronic kidney disease (CKD) although the pathogenesis of renal scar formation remains incompletely explained. Integrin-linked kinase (ILK), a major scaffold protein between the extracellular matrix (ECM) and intracellular signaling pathways, is involved in several pathophysiological processes during renal damage. However, ILK contribution in the CKD progress remains to be fully elucidated. In the present work, we studied 1) the renal functional and structural consequences of CKD genesis and progression when ILK is depleted and 2) the potential of ILK depletion as a therapeutic approach to delay CKD progression. We induced an experimental CKD model, based on an adenine-supplemented diet on adult wild-type (WT) and ILK-depleted mice, with a tubulointerstitial damage profile resembling that is observed in human CKD. The adenine diet induced in WT mice a progressive increase in plasma creatinine and urea concentrations. In the renal cortex it was also observed tubular damage, interstitial fibrosis and progressive increased ECM components, pro-inflammatory and chemo-attractant cytokines, EMT markers and TGF-ß1 expressions. These observations were highly correlated to a simultaneous increase of ILK expression and activity. In adenine-fed transgenic ILK-depleted mice, all these changes were prevented. Additionally, we evaluated the potential role of ILK depletion to be applied after the disease induction, as an effective approach to interventions in human CKD subjects. In this scenario, two weeks after the establishment of adenine-induced CKD, ILK was abrogated in WT mice and stabilized renal damage, avoiding CKD progression. We propose ILK to be a potential target to delay renal disease progression.

Contribución de las toxinas urémicas a la fibrosis vascular asociada a la enfermedad renal crónica / Contribution of uraemic toxins to the vascular fibrosis associated with chronic kidney disease

ANTECEDENTES: Los pacientes con enfermedad renal crónica presentan una acumulación de toxinas urémicas, las cuales han sido identificadas como agentes patogénicos asociados con la mortalidad cardiovascular, muy elevada en este grupo de enfermos. Un fenómeno común a la disfunción renal progresiva y al daño vascular asociado es la acumulación anormal de proteínas de la matriz extracelular (MEC) en las estructuras renales o vasculares. OBJETIVO: Estudiar la contribución de la uremia o las toxinas urémicas a la producción de citocinas y MEC en aortas de animales urémicos o células de músculo liso de aorta humana (HAOSMC). MATERIALES Y MÉTODOS: Se utilizaron ratones con uremia inducida por una dieta rica en adenina (0,2%) durante 2, 4 o 6 semanas. Se evaluó la función renal mediante la diuresis, los niveles plasmáticos de creatinina y nitrógeno ureico plasmático, y la excreción fraccional de sodio y el daño vascular mediante histología y expresión proteica por RT-qPCR. In vitro, las HAOSMC se incubaron con toxinas urémicas: p-cresol 10-100 (μg/ml) e indoxil-sulfato 25-100 (μg/ml), solas o simultáneamente. La expresión proteica se evaluó por Western blot y microscopia confocal. RESULTADOS: La administración de adenina produjo un progresivo daño renal en los ratones, un engrosamiento de la pared aórtica y un incremento de la expresión de TGF-Beta1 y proteínas de MEC. Las toxinas a dosis altas y combinadas también indujeron expresión de TGF-Beta1 y proteínas de MEC por las células HAOSMC. CONCLUSIONES: La uremia producida por una dieta rica en adenina o las dosis altas de toxinas urémicas indujeron el depósito anormal de proteínas de MEC en las paredes vasculares o su producción por HAOSMC. La comprensión de los mecanismos que subyacen a este proceso fisiopatológico puede resultar de utilidad en la prevención del daño cardiovascular asociado a la progresión de la enfermedad renal crónica, una dolencia, de momento, irreversible y, en ocasiones, silenciosa hasta su diagnóstico en etapas avanzadas

BACKGROUND: Patients with chronic kidney disease present with an accumulation of uraemic toxins, which have been identified as pathogenic agents associated with cardiovascular mortality, which is very high is this patient group. A phenomenon common to the progressive renal dysfunction and associated vascular damage, is the abnormal accumulation of extracellular matrix (ECM) proteins in the renal or vascular structures. OBJECTIVE: To determine the contribution of uraemia or the uraemic toxins to the production of cytokinins and ECM in aortas of uraemic animals or human aortic smooth muscle cells (HASMCs). MATERIALS AND METHODS: Mice were used with uraemia induced by a diet rich in adenine (0.2%) for 2, 4 or 6 weeks. Kidney function was evaluated by means of urine volume, plasma levels of creatinine, urea, fractional excretion of sodium, and vascular damage using histology, as well as protein expression using RT-qPCR. The HASMCs were incubated in vitro with uraemic toxins: p-cresol 10-100 (Mig/ml) and indoxyl-sulphate 25-100 (Mig/ml) alone or simultaneously. The protein expression was evaluated using Western blot and confocal microscopy. RESULTS: The administration of adenine produced progressive kidney damage in the mice, thickening of the aortic wall, and increasing the expression of TGF-Beta1 and ECM proteins. The toxins at high doses and combined also induced the expression of TGF-Beta1 and ECM proteins by the HASMCs. CONCLUSIONS: The uraemia produced by an adenine rich diet or high doses of uraemic toxins induced the abnormal deposit of ECM proteins in the vascular wall or its production by HASMCs. The understanding of the mechanisms that underlie this pathophysiological process may be useful in the prevention of cardiovascular damage associated with the progress of chronic kidney disease, a disease, at the moment that is irreversible and occasional silent until its diagnosis in advanced stages

Contribution of uraemic toxins to the vascular fibrosis associated with chronic kidney disease. / Contribución de las toxinas urémicas a la fibrosis vascular asociada a la enfermedad renal crónica.

BACKGROUND: Patients with chronic kidney disease present with an accumulation of uraemic toxins, which have been identified as pathogenic agents associated with cardiovascular mortality, which is very high is this patient group. A phenomenon common to the progressive renal dysfunction and associated vascular damage, is the abnormal accumulation of extracellular matrix (ECM) proteins in the renal or vascular structures. OBJECTIVE: To determine the contribution of uraemia or the uraemic toxins to the production of cytokinins and ECM in aortas of uraemic animals or human aortic smooth muscle cells (HASMCs). MATERIALS AND METHODS: Mice were used with uraemia induced by a diet rich in adenine (0.2%) for 2, 4 or 6 weeks. Kidney function was evaluated by means of urine volume, plasma levels of creatinine, urea, fractional excretion of sodium, and vascular damage using histology, as well as protein expression using RT-qPCR. The HASMCs were incubated in vitro with uraemic toxins: p-cresol 10-100 (µg/ml) and indoxyl-sulphate25-100 (µg/ml) alone or simultaneously. The protein expression was evaluated using Western blot and confocal microscopy. RESULTS: The administration of adenine produced progressive kidney damage in the mice, thickening of the aortic wall, and increasing the expression of TGF-ß1 and ECM proteins. The toxins at high doses and combined also induced the expression of TGF-ß1 and ECM proteins by the HASMCs. CONCLUSIONS: The uraemia produced by an adenine rich diet or high doses of uraemic toxins induced the abnormal deposit of ECM proteins in the vascular wall or its production by HASMCs. The understanding of the mechanisms that underlie this pathophysiological process may be useful in the prevention of cardiovascular damage associated with the progress of chronic kidney disease, a disease, at the moment that is irreversible and occasional silent until its diagnosis in advanced stages.

Discovery of potent calpain inhibitors based on the azolo-imidazolidenone scaffold.

A series of new azolopyrimidine-peptide hybrids and indolomethylideneimidazolones were obtained and evaluated as calpain inhibitors. The hybrid compounds were inactive, whereas some members of the initial azolomethylideneimidazolone series showed interesting calpain inhibitory activity. By using 4b as a hit compound, a new series of analogs were synthesized by an efficient synthetic procedure based on a multicomponent reaction followed by an unprecedented reaction at the methylene position of the molecule. The best inhibitor found for calpain I (IC50 = 20 nM) was about 20 times more potent than the hit compound. Studies on 4b showed that its inhibition is consistent with an uncompetitive inhibition mode. This compound did not exhibit cellular toxicity at any of the doses tested (0.1-10 µM) and further studies indicated that it was capable of blockading chemical ischemia induction of apoptosis by preventing sodium azide-dependent calpain activation in intact human kidney tubular epithelial cells. The results of molecular modeling studies rationalized the inhibitory activity found for this series and account, from a structural point of view, for the most active compound identified (4j).

H- ras deletion protects against angiotensin II-induced arterial hypertension and cardiac remodeling through protein kinase G-Iß pathway activation.

Ras proteins regulate cell survival, growth, differentiation, blood pressure, and fibrosis in some organs. We have demonstrated that H- ras gene deletion produces mice hypotension via a soluble guanylate cyclase-protein kinase G (PKG)-dependent mechanism. In this study, we analyzed the consequences of H- ras deletion on cardiac remodeling induced by continuous angiotensin II (AngII) infusion and the molecular mechanisms implied. Left ventricular posterior wall thickness and mass and cardiomyocyte cross-sectional area were similar between AngII-treated H-Ras knockout (H -ras-/-) and control wild-type (H -ras+/+) mice, as were extracellular matrix protein expression. Increased cardiac PKG-Iß protein expression in H -ras-/- mice suggests the involvement of this protein in heart protection. Ex vivo experiments on cardiac explants could support this mechanism, as PKG blockade blunted protection against AngII-induced cardiac hypertrophy and fibrosis markers in H -ras-/- mice. Genetic modulation studies in cardiomyocytes and cardiac and embryonic fibroblasts revealed that the lack of H-Ras down-regulates the B-RAF/MEK/ERK pathway, which induces the glycogen synthase kinase-3ß-dependent activation of the transcription factor, cAMP response element-binding protein, which is responsible for PKG-Iß overexpression in H -ras-/- mouse embryonic fibroblasts. This study demonstrates that H- ras deletion protects against AngII-induced cardiac remodeling, possibly via a mechanism in which PKG-Iß overexpression could play a partial role, and points to H-Ras and/or downstream proteins as potential therapeutic targets in cardiovascular disease.-Martín-Sánchez, P., Luengo, A., Griera, M., Orea, M. J., López-Olañeta, M., Chiloeches, A., Lara-Pezzi, E., de Frutos, S., Rodríguez-Puyol, M., Calleros, L., Rodríguez-Puyol, D. H- ras deletion protects against angiotensin II-induced arterial hypertension and cardiac remodeling through protein kinase G-Iß pathway activation.

Integrin linked kinase regulates the transcription of AQP2 by NFATC3.

Two processes are associated with progressive loss of renal function: 1) decreased aquaporin-2 (AQP2) expression and urinary concentrating capacity (Nephrogenic Diabetes Insipidus, NDI); and 2) changes in extracellular matrix (ECM) composition, e.g. increased collagen I (Col I) deposition, characteristic of tubule-interstitial fibrosis. AQP2 expression is regulated by both the ECM-to-intracellular scaffold protein integrin-linked kinase (ILK) by NFATc/AP1 and other transcription factors. In the present work, we used in vivo and in vitro approaches to examine ILK participation in NFATc3/AP-1-mediated increases in AQP2 gene expression. Both NFATc3 knock-out mice and ILK conditional-knockdown mice (cKD-ILK) display symptoms of NDI (polyuria and reduced AQP2 expression). NFATc3 is upregulated in the renal medulla tubular cells of cKD-ILK mice but with reduced nuclear localization. Inner medullary collecting duct mIMCD3 cells were subjected to ILK depletion and transfected with reporter plasmids. Pharmacological activators or inhibitors determined the effect of ILK activity on NFATc/AP-1-dependent increases in transcription of AQP2. Finally, mIMCD3 cultured on Col I showed reduced activity of the ILK/GSK3ß/NFATc/AQP2 axis, suggesting this pathway is a potential target for therapeutic treatment of NDI.

Peripheral insulin resistance in ILK-depleted mice by reduction of GLUT4 expression.

The development of insulin resistance is characterized by the impairment of glucose uptake mediated by glucose transporter 4 (GLUT4). Extracellular matrix changes are induced when the metabolic dysregulation is sustained. The present work was devoted to analyze the possible link between the extracellular-to-intracellular mediator integrin-linked kinase (ILK) and the peripheral tissue modification that leads to glucose homeostasis impairment. Mice with general depletion of ILK in adulthood (cKD-ILK) maintained in a chow diet exhibited increased glycemia and insulinemia concurrently with a reduction of the expression and membrane presence of GLUT4 in the insulin-sensitive peripheral tissues compared with their wild-type littermates (WT). Tolerance tests and insulin sensitivity indexes confirmed the insulin resistance in cKD-ILK, suggesting a similar stage to prediabetes in humans. Under randomly fed conditions, no differences between cKD-ILK and WT were observed in the expression of insulin receptor (IR-B) and its substrate IRS-1 expressions. The IR-B isoform phosphorylated at tyrosines 1150/1151 was increased, but the AKT phosphorylation in serine 473 was reduced in cKD-ILK tissues. Similarly, ILK-blocked myotubes reduced their GLUT4 promoter activity and GLUT4 expression levels. On the other hand, the glucose uptake capacity in response to exogenous insulin was impaired when ILK was blocked in vivo and in vitro, although IR/IRS/AKT phosphorylation states were increased but not different between groups. We conclude that ILK depletion modifies the transcription of GLUT4, which results in reduced peripheral insulin sensitivity and glucose uptake, suggesting ILK as a molecular target and a prognostic biomarker of insulin resistance.

Markers of endothelial damage in patients with chronic kidney disease on hemodialysis.

Patients with Stage 5 chronic kidney disease who are on hemodialysis (HD) remain in a chronic inflammatory state, characterized by the accumulation of uremic toxins that induce endothelial damage and cardiovascular disease (CVD). Our aim was to examine microvesicles (MVs), monocyte subpopulations, and angiopoietins (Ang) to identify prognostic markers in HD patients with or without diabetes mellitus (DM). A total of 160 prevalent HD patients from 10 centers across Spain were obtained from the Biobank of the Nephrology Renal Network (Madrid, Spain): 80 patients with DM and 80 patients without DM who were matched for clinical and demographic criteria. MVs from plasma and several monocyte subpopulations (CD142+/CD16+, CD14+/CD162+) were analyzed by flow cytometry, and the plasma concentrations of Ang1 and Ang2 were quantified by ELISA. Data on CVD were gathered over the 5.5 yr after these samples were obtained. MV level, monocyte subpopulations (CD14+/CD162+ and CD142+/CD16+), and Ang2-to-Ang1 ratios increased in HD patients with DM compared with non-DM patients. Moreover, MV level above the median (264 MVs/µl) was associated independently with greater mortality. MVs, monocyte subpopulations, and Ang2-to-Ang1 ratio can be used as predictors for CVD. In addition, MV level has a potential predictive value in the prevention of CVD in HD patients. These parameters undergo more extensive changes in patients with DM.

Experimental and DFT characterization, antioxidant and anticancer activities of a Cu(II)-irbesartan complex: structure-antihypertensive activity relationships in Cu(II)-sartan complexes.

The coordination compound of the antihypertensive ligand irbesartan (irb) with copper(II) (CuIrb) was synthesized and characterized by FTIR, FT-Raman, UV-visible, reflectance and EPR spectroscopies. Experimental evidence allowed the implementation of structural and vibrational studies by theoretical calculations made in the light of the density functional theory (DFT). This compound was designed to induce structural modifications on the ligand. No antioxidant effects were displayed by both compounds, though CuIrb behaved as a weak 1,1-diphenyl-2-picrylhydrazyl radical (DPPH(·)) scavenger (IC50 = 425 µM). The measurements of the contractile capacity on human mesangial cell lines showed that CuIrb improved the antihypertensive effects of the parent medication. In vitro cell growth inhibition against prostate cancer cell lines (LNCaP and DU 145) was measured for CuIrb, irbesartan and copper(II). These cell lines have been selected since the angiotensin II type 1 (AT1) receptor (that was blocked by the angiotensin receptor blockers, ARB) has been identified in them. The complex exerted anticancer behavior (at 100 µM) improving the activity of the ligand. Flow cytometry determinations were used to determine late apoptotic mechanisms of cell death. Experimental and DFT characterization of an irbesartan copper(II) complex has been performed. The complex exhibits low scavenging activity against DPPH(·) and significant growth inhibition of LNCaP and DU 145 prostate cancer cell lines. Flow cytometry determinations were used to determine late apoptotic mechanisms of cell death. This compound improved the antihypertensive effect of irbesartan. This effect was observed earlier for the mononuclear Cu-candesartan complex, but not in structurally modified sartans forming dinuclear or octanuclear Cu-sartan compounds.

Effect of uraemia on endothelial cell damage is mediated by the integrin linked kinase pathway.

KEY POINTS: Patients with chronic kidney disease have a higher risk of developing cardiovascular diseases than the general population. Their vascular endothelium is dysfunctional, among other things, because it is permanently exposed to uraemic toxins, several of which have poor clearance by conventional dialysis. Recent studies have demonstrated the important role of integrin-linked kinase (ILK) in the maintenance of endothelial integrity and in this study we investigate the involvement of ILK in the mechanism underlying vascular endothelial damage that occurs in uraemia. For the first time, we demonstrate the implication of ILK in the protection against endothelial cell damage (inhibition of proliferation, toxicity, oxidative stress and programed cell death) induced by uraemic serum from chronic kidney disease patients and uraemic toxins. This molecular mechanism may have clinical relevance because it highlights the importance of maintaining high levels of ILK activity to help preserve endothelial integrity, at least in early stages of chronic kidney disease. ABSTRACT: Patients with chronic kidney disease (CKD) have a higher risk of developing cardiovascular diseases. Their vascular endothelium is dysfunctional, among other things, because it is permanently exposed to uraemic toxins, several of which, mostly protein-bound compounds such as indoxyl sulfate (IS) and p-cresyl sulphate, having poor clearance by conventional dialysis, induce endothelial toxicity. However, the molecular mechanism by which uraemic toxins regulate early stages of endothelial dysfunction remains unclear. Recent studies have demonstrated the important role of integrin-linked kinase (ILK) in the maintenance of endothelial integrity. In this study, we investigate the involvement of ILK in the mechanism underlying vascular endothelial damage that occurs in uraemia. First, we show that incubation of EA.hy926 cells with human uraemic serum from CKD patients upregulates ILK activity. This ILK activation also occurs when the cells are exposed to IS (25-100 µg ml(-1)), p-cresol (10-100 µg ml(-1)) or both combined, compared to human serum control. Next, we observed that high doses of both toxins together induce a slight decrease in cell proliferation and increase apoptosis and reactive oxygen species production. Interestingly, these toxic effects displayed a strong increase when the ILK protein is knocked down by small interfering RNA, even at low doses of uraemic toxins. Abrogation of AKT has demonstrated the ILK/AKT signalling pathway involved in these processes. This study has demonstrated the implication of ILK in the protection against endothelial cell damage induced by uraemic toxins, a molecular mechanism that could play a protective role in the early stages of endothelial dysfunction observed in uraemic patients.

Impacto de la implementación de la norma ISO 9001: 2008 en el proceso de cesión de muestras del biobanco Red de Investigación Renal española / Impact of implementing ISO 9001: 2008 standard on the Spanish Renal Research Network biobank sample transfer process

Antecedentes: La certificación de biobancos según la norma ISO 9001:2008 pretende mejorar la gestión de los procesos realizados en estos con dos objetivos: la satisfacción del cliente y la mejora continua. En este trabajo se presenta el impacto de la certificación ISO 9001:2008 sobre los procesos de cesión de muestras de un biobanco español especializado en muestras de pacientes renales y con un gran aumento del número de estas entre los años 2009 (12 582 viales) y 2010 (37 042 viales). Métodos: El biobanco de la Red de Investigación Renal española (REDinREN) situado en la Universidad de Alcalá ha puesto en marcha la norma ISO 9001:2008 para la gestión eficaz del material humano cedido a los centros de investigación. Se han analizado mediante encuestas dos períodos en el proceso «cesión de muestras». Durante el primer período, entre las fechas 1-10-12 y 26-11-12 (8 semanas), se han realizado cambios mínimos para corregir errores puntuales. En el segundo período, entre las fechas 7-01-13 y 18-02-13 (6 semanas), se han realizado acciones correctivas generales. Resultados: La identificación de inconvenientes y la puesta en marcha de acciones correctivas para la certificación permitieron: reducir el 70 % del tiempo de ejecución del proceso, aumentar significativamente (200 %) el número de muestras procesadas y mejorar un 25 % el proceso. El aumento del número de muestras procesadas estuvo directamente relacionado con la mejora del proceso. Conclusión: La certificación de la norma ISO 9001:2008, obtenida en julio de 2013, permitió la mejora de los procesos del biobanco REDinREN, aumentando la calidad y la satisfacción del cliente (AU)

Background: Biobank certification ISO 9001:2008 aims to improve the management of processes performed. This has two objectives: customer satisfaction and continuous improvement. This paper presents the impact of certification ISO 9001:2008 on the sample transfer process in a Spanish biobank specialising in kidney patient samples. The biobank experienced a large increase in the number of samples between 2009 (12,582 vials) and 2010 (37,042 vials). Methods: The biobank of the Spanish Renal Research Network (REDinREN), located at the University of Alcalá, has implemented ISO standard 9001:2008 for the effective management of human material given to research centres. Using surveys, we analysed two periods in the "sample transfer" process. During the first period between 1-10-12 and 26-11-12 (8 weeks), minimal changes were made to correct isolated errors. In the second period, between 7-01-13 and 18-02-13 (6 weeks), we carried out general corrective actions. Results: The identification of problems and implementation of corrective actions for certification allowed: a 70% reduction in the process execution time, a significant increase (200%) in the number of samples processed and a 25% improvement in the process. The increase in the number of samples processed was directly related to process improvement. Conclusion: The certification of ISO standard 9001:2008, obtained in July 2013, allowed an improvement of the REDinREN biobank processes to be achieved, which increased quality and customer satisfaction (AU)

Hyperosmolarity induced by high glucose promotes senescence in human glomerular mesangial cells.

Hyperglycemia is involved in the diabetic complication of different organs and can elevate serum osmolarity. Here, we tested whether hyperosmolarity promoted by high glucose levels induces cellular senescence in renal cells. We treated Wistar rats with streptozotocin to induce diabetes or with consecutive daily injections of mannitol to increase serum osmolarity and analyzed p53 and p16 genes in renal cortex by immunohistochemistry. Both diabetic and mannitol treated rats showed a significant increase in serum osmolarity, without significant signs of renal dysfunction, but associated with increased staining for p53 and p16 in the renal cortex. An increase in p53 and p16 expression was also found in renal cortex slices and glomeruli isolated from healthy rats, which were later treated with 30 mM glucose or mannitol. Intracellular mechanisms involved were analyzed in cultured human glomerular mesangial cells treated with 30 mM glucose or mannitol. After treatments, cells showed increased p53, p21 and p16 expression and elevated senescence-associated ß-galactosidase activity. Senescence was prevented when myo-inositol was added before treatment. High glucose or mannitol induced constitutive activation of Ras and ERK pathways which, in turn, were activated by oxidative stress. In summary, hyperosmolarity induced renal senescence, particularly in glomerular mesangial cells, increasing oxidative stress, which constitutively activated Ras-ERK 1/2 pathway. Cellular senescence could contribute to the organ dysfunction associated with diabetes.

Impact of implementing ISO 9001:2008 standard on the Spanish Renal Research Network biobank sample transfer process.

BACKGROUND: Biobank certification ISO 9001:2008 aims to improve the management of processes performed. This has two objectives: customer satisfaction and continuous improvement. This paper presents the impact of certification ISO 9001:2008 on the sample transfer process in a Spanish biobank specialising in kidney patient samples. The biobank experienced a large increase in the number of samples between 2009 (12,582 vials) and 2010 (37,042 vials). METHODS: The biobank of the Spanish Renal Research Network (REDinREN), located at the University of Alcalá, has implemented ISO standard 9001:2008 for the effective management of human material given to research centres. Using surveys, we analysed two periods in the “sample transfer” process. During the first period between 1-10-12 and 26-11-12 (8 weeks), minimal changes were made to correct isolated errors. In the second period, between 7-01-13 and 18-02-13 (6 weeks), we carried out general corrective actions. RESULTS: The identification of problems and implementation of corrective actions for certification allowed: a 70% reduction in the process execution time, a significant increase (200%) in the number of samples processed and a 25% improvement in the process. The increase in the number of samples processed was directly related to process improvement. CONCLUSION: The certification of ISO standard 9001:2008, obtained in July 2013, allowed an improvement of the REDinREN biobank processes to be achieved, which increased quality and customer satisfaction.