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5. Cardiovascular complications in CKD 5D (1)

Author

Kuo, K.-L., primary, Hung, S.-C., additional, Tarng, D.-C., additional, Selim, G., additional, Stojceva-Taneva, O., additional, Tozija, L., additional, Gelev, S., additional, Stojcev, N., additional, Dzekova, P., additional, Trajcevska, L., additional, Severova, G., additional, Pavleska, S., additional, Sikole, A., additional, Combe, C., additional, Thumma, J., additional, Gillespie, B., additional, De Sequera, P., additional, Yamamoto, H., additional, Robinson, B., additional, Matsushita, Y., additional, Tasaki, H., additional, Tohara, Y., additional, Yamauchi, E., additional, Matsuoka, K., additional, Arizono, K., additional, Bellasi, A., additional, Ferramosca, E., additional, Ratti, C., additional, Block, G., additional, Raggi, P., additional, Drozdz, M., additional, Krasniak, A., additional, Chmiel, G., additional, Podolec, P., additional, Pasowicz, M., additional, Tracz, W., additional, Kowalczyk-Michalek, M., additional, Sulowicz, W., additional, Kalantzi, K., additional, Korantzopoulos, P., additional, Bechlioulis, A., additional, Vlachopanou, A., additional, Foulidis, V., additional, Pagiati, E., additional, Nikolopoulos, P., additional, Gouva, C., additional, Arroyave, I., additional, Rodelo, J., additional, Cardona, M., additional, Garcia, A., additional, Henao, J., additional, Mejia, G., additional, Rico, J., additional, Arbelaez, M., additional, Fujimori, A., additional, Okada, S., additional, Yamamoto, K., additional, Okamoto, S., additional, Kamiura, N., additional, Sakai, M., additional, Tanikake, M., additional, Kutlay, S., additional, Sengul, S., additional, Keven, K., additional, Nergizoglu, G., additional, Erturk, S., additional, Ates, K., additional, Duman, N., additional, Karatan, O., additional, Erbay, B., additional, Sameiro-Faria, M., additional, Costa, E., additional, Rocha-Pereira, P., additional, Borges, A., additional, Nascimento, H., additional, Mendonca, D., additional, Amado, L., additional, Reis, F., additional, Miranda, V., additional, Quintanilha, A., additional, Belo, L., additional, Santos-Silva, A., additional, Oh, J. S., additional, Kim, S. M., additional, Sin, Y. H., additional, Kim, J. K., additional, Ishihara, M., additional, Otsubo, S., additional, Kimata, N., additional, Akiba, T., additional, Nitta, K., additional, Kim, K. M., additional, Baek, C. H., additional, Kim, S. B., additional, Testa, A., additional, Sanguedolce, M. C., additional, Spoto, B., additional, Mallamaci, F., additional, Malatino, L., additional, Tripepi, G., additional, Zoccali, C., additional, Lee, J. E., additional, Moon, S. J., additional, Kim, J.-K., additional, An, H. R., additional, Ha, S. K., additional, Pakr, H. C., additional, Bahlmann, F. H., additional, Becker, E., additional, Sperber, V., additional, Triem, S., additional, Noll, C., additional, Zewinger, S., additional, Fliser, D., additional, Laufs, U., additional, Thijssen, S., additional, Usvyat, L. A., additional, Raimann, J. G., additional, Balter, P., additional, Kotanko, P., additional, Levin, N. W., additional, Hornum, M., additional, Bay, J. T., additional, Clausen, P., additional, Melchior Hansen, J., additional, Mathiesen, E. R., additional, Feldt-Rasmussen, B., additional, Garred, P., additional, Sural, S., additional, Panja, C. S., additional, Bhattacharya, S. K., additional, Cernaro, V., additional, Lacquaniti, A., additional, Lorenzano, G., additional, Romeo, A., additional, Donato, V., additional, Buemi, M., additional, Usvyat, L., additional, Rogus, J., additional, Lacson, E., additional, Robinson, B. M., additional, Karaboyas, A., additional, Sen, A., additional, Hecking, M., additional, Mendelssohn, D., additional, Jadoul, M., additional, Kawanishi, H., additional, Saran, R., additional, Kolarz, M., additional, Undas, A., additional, Wyroslak, J., additional, Malyszko, J., additional, Klejna, K., additional, Naumnik, B., additional, Koc-Zurawska, E., additional, Mysliwiec, M., additional, Piecha, G., additional, Kuczera, P., additional, Adamczak, M., additional, Fedorova, O. V., additional, Bagrov, A. Y., additional, Wiecek, A., additional, Gungor, O., additional, Kircelli, F., additional, Asci, G., additional, Carrero, J. J., additional, Tatar, E., additional, Demirci, M., additional, Toz, H., additional, Ozkahya, M., additional, Ok, E., additional, Bansal, V., additional, Shareain, K., additional, Hoppensteadt, D., additional, Litinas, E., additional, Fareed, J., additional, Kim, M.-J., additional, Lee, S. W., additional, Song, J. H., additional, Kweon, J., additional, Kim, W. H., additional, Sasaki, K., additional, Yasuda, K., additional, Hatanaka, M., additional, Hayashi, T., additional, Katsipi, I., additional, Tatsiopoulos, A., additional, Papanikolaou, P., additional, Doulgerakis, C., additional, Kollia, K., additional, Kardouli, E., additional, Asmanis, E., additional, Gennadiou, M., additional, Kyriazis, J., additional, Panizo, S., additional, Barrio-Vazquez, S., additional, Carrillo-Lopez, N., additional, Fernandez-Vazquez, A., additional, Braga, S., additional, Rodriguez-Rebollar, A., additional, Naves-Diaz, M., additional, Cannata-Andia, J. B., additional, Nikodimopoulou, M., additional, Liakos, S., additional, and Kapoulas, S., additional

Published
2011
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8. Reply to: Apolipoprotein C3 induces inflammasome activation only in its delipidated form.

Author

Zewinger S, Reiser J, Jankowski V, Alansary D, Hahm E, Triem S, Klug M, Schunk SJ, Schmit D, Kramann R, Körbel C, Ampofo E, Laschke MW, Selejan SR, Paschen A, Herter T, Gaul S, Silbernagel G, Sester M, Sester U, Aßmann G, Bals R, Kostner G, Jahnen-Dechent W, Menger MD, Rohrer L, März W, Böhm M, Jankowski J, Kopf M, Latz E, Niemeyer BA, Fliser D, Laufs U, and Speer T

Subjects
Apolipoprotein C-III, Inflammasomes, NLR Family, Pyrin Domain-Containing 3 Protein
Published
2023
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9. Guanidinylated Apolipoprotein C3 (ApoC3) Associates with Kidney and Vascular Injury.

Author

Schunk SJ, Hermann J, Sarakpi T, Triem S, Lellig M, Hahm E, Zewinger S, Schmit D, Becker E, Möllmann J, Lehrke M, Kramann R, Boor P, Lipp P, Laufs U, März W, Reiser J, Jankowski J, Fliser D, Speer T, and Jankowski V

Subjects
Humans, Mice, Animals, Apolipoprotein C-III metabolism, Proteomics, Disease Models, Animal, Kidney metabolism, Fibrosis, Vascular System Injuries, Cardiovascular Diseases, Renal Insufficiency, Chronic
Abstract

Background: Coexistent CKD and cardiovascular diseases are highly prevalent in Western populations and account for substantial mortality. We recently found that apolipoprotein C-3 (ApoC3), a major constituent of triglyceride-rich lipoproteins, induces sterile systemic inflammation by activating the NOD-like receptor protein-3 (NLRP3) inflammasome in human monocytes via an alternative pathway., Methods: To identify posttranslational modifications of ApoC3 in patients with CKD, we used mass spectrometry to analyze ApoC3 from such patients and from healthy individuals. We determined the effects of posttranslationally modified ApoC3 on monocyte inflammatory response in vitro, as well as in humanized mice subjected to unilateral ureter ligation (a kidney fibrosis model) and in a humanized mouse model for vascular injury and regeneration. Finally, we conducted a prospective observational trial of 543 patients with CKD to explore the association of posttranslationally modified ApoC3 with renal and cardiovascular events in such patients., Results: We identified significant posttranslational guanidinylation of ApoC3 (gApoC3) in patients with CKD. We also found that mechanistically, guanidine and urea induce guanidinylation of ApoC3. A 2D-proteomic analysis revealed that gApoC3 accumulated in kidneys and plasma in a CKD mouse model (mice fed an adenine-rich diet). In addition, gApoC3 augmented the proinflammatory effects of ApoC3 in monocytes in vitro . In humanized mice, gApoC3 promoted kidney tissue fibrosis and impeded vascular regeneration. In CKD patients, higher gApoC3 plasma levels (as determined by mass spectrometry) were associated with increased mortality as well as with renal and cardiovascular events., Conclusions: Guanidinylation of ApoC3 represents a novel pathogenic mechanism in CKD and CKD-associated vascular injury, pointing to gApoC3 as a potential therapeutic target., (Copyright © 2021 by the American Society of Nephrology.)

Published
2021
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10. Measurement of urinary Dickkopf-3 uncovered silent progressive kidney injury in patients with chronic obstructive pulmonary disease.

Author

Schunk SJ, Beisswenger C, Ritzmann F, Herr C, Wagner M, Triem S, Hütter G, Schmit D, Zewinger S, Sarakpi T, Honecker A, Mahadevan P, Boor P, Wagenpfeil S, Jörres R, Watz H, Welte T, Vogelmeier CF, Gröne HJ, Fliser D, Speer T, and Bals R

Subjects
Animals, Disease Progression, Glomerular Filtration Rate, Humans, Kidney, Mice, Prospective Studies, Pulmonary Disease, Chronic Obstructive diagnosis, Renal Insufficiency, Chronic diagnosis
Abstract

Chronic kidney disease (CKD) represents a global public health problem with high disease related morbidity and mortality. Since CKD etiology is heterogeneous, early recognition of patients at risk for progressive kidney injury is important. Here, we evaluated the tubular epithelial derived glycoprotein dickkopf-3 (DKK3) as a urinary marker for the identification of progressive kidney injury in a non-CKD cohort of patients with chronic obstructive pulmonary disease (COPD) and in an experimental model. In COSYCONET, a prospective multicenter trial comprising 2,314 patients with stable COPD (follow-up 37.1 months), baseline urinary DKK3, proteinuria and estimated glomerular filtration rate (eGFR) were tested for their association with the risk of declining eGFR and the COPD marker, forced expiratory volume in one second. Baseline urinary DKK3 but not proteinuria or eGFR identified patients with a significantly higher risk for over a 10% (odds ratio: 1.54, 95% confidence interval: 1.13-2.08) and over a 20% (2.59: 1.28-5.25) decline of eGFR during follow-up. In particular, DKK3 was associated with a significantly higher risk for declining eGFR in patients with eGFR over 90 ml/min/1.73m 2 and proteinuria under 30 mg/g. DKK3 was also associated with declining COPD marker (2.90: 1.70-4.68). The impact of DKK3 was further explored in wild-type and Dkk3-/- mice subjected to cigarette smoke-induced lung injury combined with a CKD model. In this model, genetic abrogation of DKK3 resulted in reduced pulmonary inflammation and preserved kidney function. Thus, our data highlight urinary DKK3 as a possible marker for early identification of patients with silent progressive CKD and for adverse outcomes in patients with COPD., (Copyright © 2021 International Society of Nephrology. Published by Elsevier Inc. All rights reserved.)

Published
2021
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11. Interleukin-1α Is a Central Regulator of Leukocyte-Endothelial Adhesion in Myocardial Infarction and in Chronic Kidney Disease.

Author

Schunk SJ, Triem S, Schmit D, Zewinger S, Sarakpi T, Becker E, Hütter G, Wrublewsky S, Küting F, Hohl M, Alansary D, Prates Roma L, Lipp P, Möllmann J, Lehrke M, Laschke MW, Menger MD, Kramann R, Boor P, Jahnen-Dechent W, März W, Böhm M, Laufs U, Niemeyer BA, Fliser D, Ampofo E, and Speer T

Subjects
Animals, Cell Adhesion drug effects, Endothelium metabolism, Humans, Inflammation drug therapy, Inflammation metabolism, Interleukin-1alpha pharmacology, Mice, Monocytes metabolism, Myocardial Infarction metabolism, Neutrophils metabolism, Renal Insufficiency, Chronic metabolism, Vascular Cell Adhesion Molecule-1 metabolism, Cell Adhesion physiology, Endothelial Cells metabolism, Interleukin-1alpha metabolism, Myocardial Infarction drug therapy, Renal Insufficiency, Chronic drug therapy
Abstract

Background: Cardiovascular diseases and chronic kidney disease (CKD) are highly prevalent, aggravate each other, and account for substantial mortality. Both conditions are characterized by activation of the innate immune system. The alarmin interleukin-1α (IL-1α) is expressed in a variety of cell types promoting (sterile) systemic inflammation. The aim of the present study was to examine the role of IL-1α in mediating inflammation in the setting of acute myocardial infarction (AMI) and CKD., Methods: We assessed the expression of IL-1α on the surface of monocytes from patients with AMI and patients with CKD and determined its association with atherosclerotic cardiovascular disease events during follow-up in an explorative clinical study. Furthermore, we assessed the inflammatory effects of IL-1α in several organ injury models in Il1a -/ - and Il1b -/ - mice and investigated the underlying mechanisms in vitro in monocytes and endothelial cells., Results: IL-1α is strongly expressed on the surface of monocytes from patients with AMI and CKD compared with healthy controls. Higher IL-1α surface expression on monocytes from patients with AMI and CKD was associated with a higher risk for atherosclerotic cardiovascular disease events, which underlines the clinical relevance of IL-1α. In mice, IL-1α, but not IL-1β, mediates leukocyte-endothelial adhesion as determined by intravital microscopy. IL-1α promotes accumulation of macrophages and neutrophils in inflamed tissue in vivo. Furthermore, IL-1α on monocytes stimulates their homing at sites of vascular injury. A variety of stimuli such as free fatty acids or oxalate crystals induce IL-1α surface expression and release by monocytes, which then mediates their adhesion to the endothelium via IL-1 receptor-1. IL-1α also promotes expression of the VCAM-1 (vascular cell adhesion molecule-1) on endothelial cells, thereby fostering the adhesion of circulating leukocytes. IL-1α induces inflammatory injury after experimental AMI, and abrogation of IL-1α prevents the development of CKD in oxalate or adenine-fed mice., Conclusions: IL-1α represents a key mediator of leukocyte-endothelial adhesion and inflammation in AMI and CKD. Inhibition of IL-1α may serve as a novel anti-inflammatory treatment strategy.

Published
2021
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12. Genetically determined NLRP3 inflammasome activation associates with systemic inflammation and cardiovascular mortality.

Author

Schunk SJ, Kleber ME, März W, Pang S, Zewinger S, Triem S, Ege P, Reichert MC, Krawczyk M, Weber SN, Jaumann I, Schmit D, Sarakpi T, Wagenpfeil S, Kramann R, Boerwinkle E, Ballantyne CM, Grove ML, Tragante V, Pilbrow AP, Richards AM, Cameron VA, Doughty RN, Dubé MP, Tardif JC, Feroz-Zada Y, Sun M, Liu C, Ko YA, Quyyumi AA, Hartiala JA, Tang WHW, Hazen SL, Allayee H, McDonough CW, Gong Y, Cooper-DeHoff RM, Johnson JA, Scholz M, Teren A, Burkhardt R, Martinsson A, Smith JG, Wallentin L, James SK, Eriksson N, White H, Held C, Waterworth D, Trompet S, Jukema JW, Ford I, Stott DJ, Sattar N, Cresci S, Spertus JA, Campbell H, Tierling S, Walter J, Ampofo E, Niemeyer BA, Lipp P, Schunkert H, Böhm M, Koenig W, Fliser D, Laufs U, and Speer T

Subjects
Humans, Leukocytes, Mononuclear, Cardiovascular Diseases mortality, Inflammasomes genetics, Inflammation genetics, NLR Family, Pyrin Domain-Containing 3 Protein genetics
Abstract

Aims: Inflammation plays an important role in cardiovascular disease (CVD) development. The NOD-like receptor protein-3 (NLRP3) inflammasome contributes to the development of atherosclerosis in animal models. Components of the NLRP3 inflammasome pathway such as interleukin-1β can therapeutically be targeted. Associations of genetically determined inflammasome-mediated systemic inflammation with CVD and mortality in humans are unknown., Methods and Results: We explored the association of genetic NLRP3 variants with prevalent CVD and cardiovascular mortality in 538 167 subjects on the individual participant level in an explorative gene-centric approach without performing multiple testing. Functional relevance of single-nucleotide polymorphisms on NLRP3 inflammasome activation has been evaluated in monocyte-enriched peripheral blood mononuclear cells (PBMCs). Genetic analyses identified the highly prevalent (minor allele frequency 39.9%) intronic NLRP3 variant rs10754555 to affect NLRP3 gene expression. rs10754555 carriers showed significantly higher C-reactive protein and serum amyloid A plasma levels. Carriers of the G allele showed higher NLRP3 inflammasome activation in isolated human PBMCs. In carriers of the rs10754555 variant, the prevalence of coronary artery disease was significantly higher as compared to non-carriers with a significant interaction between rs10754555 and age. Importantly, rs10754555 carriers had significantly higher risk for cardiovascular mortality during follow-up. Inflammasome inducers (e.g. urate, triglycerides, apolipoprotein C3) modulated the association between rs10754555 and mortality., Conclusion: The NLRP3 intronic variant rs10754555 is associated with increased systemic inflammation, inflammasome activation, prevalent coronary artery disease, and mortality. This study provides evidence for a substantial role of genetically driven systemic inflammation in CVD and highlights the NLRP3 inflammasome as a therapeutic target., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2021. For permissions, please email: journals.permissions@oup.com.)

Published
2021
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13. Apolipoprotein C3 induces inflammation and organ damage by alternative inflammasome activation.

Author

Zewinger S, Reiser J, Jankowski V, Alansary D, Hahm E, Triem S, Klug M, Schunk SJ, Schmit D, Kramann R, Körbel C, Ampofo E, Laschke MW, Selejan SR, Paschen A, Herter T, Schuster S, Silbernagel G, Sester M, Sester U, Aßmann G, Bals R, Kostner G, Jahnen-Dechent W, Menger MD, Rohrer L, März W, Böhm M, Jankowski J, Kopf M, Latz E, Niemeyer BA, Fliser D, Laufs U, and Speer T

Subjects
Acute Kidney Injury pathology, Adaptor Proteins, Signal Transducing, Animals, Apolipoprotein C-III genetics, Cell Line, Disease Models, Animal, HEK293 Cells, Humans, Inflammasomes immunology, Inflammation genetics, Inflammation immunology, Kidney Diseases pathology, Membrane Proteins, Mice, Mice, Inbred C57BL, Mice, Inbred NOD, Mice, Knockout, Reactive Oxygen Species metabolism, Toll-Like Receptor 2 metabolism, Toll-Like Receptor 4 metabolism, Acute Kidney Injury immunology, Apolipoprotein C-III immunology, Caspase 8 metabolism, Kidney Diseases immunology, Monocytes immunology, NLR Family, Pyrin Domain-Containing 3 Protein immunology
Abstract

NLRP3-inflammasome-driven inflammation is involved in the pathogenesis of a variety of diseases. Identification of endogenous inflammasome activators is essential for the development of new anti-inflammatory treatment strategies. Here, we identified that apolipoprotein C3 (ApoC3) activates the NLRP3 inflammasome in human monocytes by inducing an alternative NLRP3 inflammasome via caspase-8 and dimerization of Toll-like receptors 2 and 4. Alternative inflammasome activation in human monocytes is mediated by the Toll-like receptor adapter protein SCIMP. This triggers Lyn/Syk-dependent calcium entry and the production of reactive oxygen species, leading to activation of caspase-8. In humanized mouse models, ApoC3 activated human monocytes in vivo to impede endothelial regeneration and promote kidney injury in an NLRP3- and caspase-8-dependent manner. These data provide new insights into the regulation of the NLRP3 inflammasome and the pathophysiological role of triglyceride-rich lipoproteins containing ApoC3. Targeting ApoC3 might prevent organ damage and provide an anti-inflammatory treatment for vascular and kidney diseases.

Published
2020
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14. Association between urinary dickkopf-3, acute kidney injury, and subsequent loss of kidney function in patients undergoing cardiac surgery: an observational cohort study.

Author

Schunk SJ, Zarbock A, Meersch M, Küllmar M, Kellum JA, Schmit D, Wagner M, Triem S, Wagenpfeil S, Gröne HJ, Schäfers HJ, Fliser D, Speer T, and Zewinger S

Subjects
Acute Kidney Injury etiology, Acute Kidney Injury urine, Adaptor Proteins, Signal Transducing, Aged, Aged, 80 and over, Chemokines, Creatinine urine, Elective Surgical Procedures adverse effects, Female, Glomerular Filtration Rate, Humans, Male, Middle Aged, Postoperative Complications physiopathology, Postoperative Complications urine, Prospective Studies, Acute Kidney Injury physiopathology, Biomarkers urine, Cardiac Surgical Procedures adverse effects, Intercellular Signaling Peptides and Proteins urine
Abstract

Background: Cardiac surgery is associated with a high risk of postoperative acute kidney injury (AKI) and subsequent loss of kidney function. We explored the clinical utility of urinary dickkopf-3 (DKK3), a renal tubular stress marker, for preoperative identification of patients at risk for AKI and subsequent kidney function loss., Methods: This observational cohort study included patients who had cardiac surgery in a derivation cohort and those who had cardiac surgery in a validation cohort (RenalRIP trial). The study comprised consecutive patients who had elective cardiac surgery at the Saarland University Medical Centre (Homburg, Germany; derivation cohort) and those undergoing elective cardiac surgery (selected on the basis of a Cleveland Clinical Foundation score of 6 or higher) who were enrolled in the prospective RenalRIP multicentre trial (validation cohort) and who were randomly assigned to remote ischaemic preconditioning or a sham procedure. The association between the ratio of preoperative urinary concentrations of DKK3 to creatinine (DKK3:creatinine) and postoperative AKI, defined according to the Kidney Disease Improving Global Outcomes criteria, and subsequent kidney function loss, as determined by estimated glomerular filtration rate, was assessed., Findings: In the 733 patient in the derivation cohort, urinary concentrations of DKK3 to creatinine that were higher than 471 pg/mg were associated with significantly increased risk for AKI (odds ratio [OR] 1·65, 95% CI 1·10-2·47, p=0·015), independent of baseline kidney function. Compared with clinical and other laboratory measurements, urinary concentrations of DKK3:creatinine significantly improved AKI prediction (net reclassification improvement 0·32, 95% CI 0·23-0·42, p<0·0001). High urinary DKK3:creatinine concentrations were independently associated with significantly lower kidney function at hospital discharge and after a median follow-up of 820 days (IQR 733-910). In the RenalRIP trial, preoperative urinary DKK3:creatinine concentrations higher than 471 pg/mg were associated with a significantly higher risk for AKI (OR 1·94, 95% CI 1·08-3·47, p=0·026), persistent renal dysfunction (OR 6·67, 1·67-26·61, p=0·0072), and dialysis dependency (OR 13·57, 1·50-122·77, p=0·020) after 90 days compared with DKK3:creatinine concentrations of 471 pg/mg or less. Urinary DKK3:creatinine concentrations higher than 471 pg/mg were associated with significantly higher risk for AKI (OR 2·79, 95% CI 1·45-5·37) and persistent renal dysfunction (OR 3·82, 1·32-11·05) only in patients having a sham procedure, but not remote ischaemic preconditioning (AKI OR 1·35, 0·76-2·39 and persistent renal dysfunction OR 1·05, 0·12-9·45)., Interpretation: Preoperative urinary DKK3 is an independent predictor for postoperative AKI and for subsequent loss of kidney function. Urinary DKK3 might aid in the identification of patients in whom preventive treatment strategies are effective., Funding: No study funding., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2019
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15. Dickkopf-3 (DKK3) in Urine Identifies Patients with Short-Term Risk of eGFR Loss.

Author

Zewinger S, Rauen T, Rudnicki M, Federico G, Wagner M, Triem S, Schunk SJ, Petrakis I, Schmit D, Wagenpfeil S, Heine GH, Mayer G, Floege J, Fliser D, Gröne HJ, and Speer T

Subjects
Adaptor Proteins, Signal Transducing, Adult, Aged, Aged, 80 and over, Albuminuria urine, Biomarkers urine, Chemokines, Cohort Studies, Creatinine urine, Disease Progression, Female, Glomerulonephritis, IGA urine, Humans, Kidney pathology, Male, Middle Aged, Prospective Studies, Renal Insufficiency, Chronic etiology, Renal Insufficiency, Chronic pathology, Risk Factors, Time Factors, Glomerular Filtration Rate physiology, Intercellular Signaling Peptides and Proteins urine, Renal Insufficiency, Chronic urine
Abstract

Background: The individual course of CKD may vary, and improved methods for identifying which patients will experience short-term eGFR loss are needed. Assessing urinary Dickkopf-3 (DKK3), a stress-induced tubular epithelia-derived profibrotic glycoprotein, may provide information about ongoing tubulointerstitial fibrosis and short-term eGFR loss., Methods: To investigate urinary DKK3's potential as a biomarker of short-term eGFR loss (over 12 months), we prospectively assessed eGFR and urinary DKK3 levels in patients with CKD of various etiologies at baseline and annual follow-ups. We also measured urinary DKK3 in a general population sample and patients with diagnostic kidney biopsies or IgA nephropathy under treatment., Results: Median urinary DKK3-to-creatinine concentration at baseline was significantly higher in patients with CKD than the general population sample (431 versus 33 pg/mg). In the CKD cohort, having a urinary DKK3-to-creatinine level >4000 pg/mg was independently and significantly associated after multiple adjustments with mean annual decline in eGFR of 7.6% over 12 months. Urinary DKK3 significantly improved prediction of kidney function decline compared with eGFR or albuminuria alone. Urinary DKK3-to-creatinine levels were related to the extent of tubulointerstitial fibrosis in kidney biopsies. In patients with IgA nephropathy, a rise in urinary DKK3 was associated with significant eGFR decline within 6 months, whereas stable or decreasing urinary DKK3 indicated a more favorable course., Conclusions: Urinary DKK3 levels identify patients at high risk for eGFR decline over the next 12 months regardless of the cause of kidney injury and beyond established biomarkers, potentially providing a tool to monitor CKD progression and assess effects of interventions., (Copyright © 2018 by the American Society of Nephrology.)

Published
2018
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16. Relations between lipoprotein(a) concentrations, LPA genetic variants, and the risk of mortality in patients with established coronary heart disease: a molecular and genetic association study.

Author

Zewinger S, Kleber ME, Tragante V, McCubrey RO, Schmidt AF, Direk K, Laufs U, Werner C, Koenig W, Rothenbacher D, Mons U, Breitling LP, Brenner H, Jennings RT, Petrakis I, Triem S, Klug M, Filips A, Blankenberg S, Waldeyer C, Sinning C, Schnabel RB, Lackner KJ, Vlachopoulou E, Nygård O, Svingen GFT, Pedersen ER, Tell GS, Sinisalo J, Nieminen MS, Laaksonen R, Trompet S, Smit RAJ, Sattar N, Jukema JW, Groesdonk HV, Delgado G, Stojakovic T, Pilbrow AP, Cameron VA, Richards AM, Doughty RN, Gong Y, Cooper-DeHoff R, Johnson J, Scholz M, Beutner F, Thiery J, Smith JG, Vilmundarson RO, McPherson R, Stewart AFR, Cresci S, Lenzini PA, Spertus JA, Olivieri O, Girelli D, Martinelli NI, Leiherer A, Saely CH, Drexel H, Mündlein A, Braund PS, Nelson CP, Samani NJ, Kofink D, Hoefer IE, Pasterkamp G, Quyyumi AA, Ko YA, Hartiala JA, Allayee H, Tang WHW, Hazen SL, Eriksson N, Held C, Hagström E, Wallentin L, Åkerblom A, Siegbahn A, Karp I, Labos C, Pilote L, Engert JC, Brophy JM, Thanassoulis G, Bogaty P, Szczeklik W, Kaczor M, Sanak M, Virani SS, Ballantyne CM, Lee VV, Boerwinkle E, Holmes MV, Horne BD, Hingorani A, Asselbergs FW, Patel RS, Krämer BK, Scharnagl H, Fliser D, März W, and Speer T

Subjects
Cohort Studies, Coronary Disease blood, Coronary Disease epidemiology, Coronary Disease genetics, Europe epidemiology, Female, Humans, Male, Middle Aged, Prognosis, Risk Factors, Survival Rate, Biomarkers blood, Coronary Disease mortality, Genetic Association Studies, Lipoprotein(a) blood, Lipoprotein(a) genetics, Polymorphism, Single Nucleotide
Abstract

Background: Lipoprotein(a) concentrations in plasma are associated with cardiovascular risk in the general population. Whether lipoprotein(a) concentrations or LPA genetic variants predict long-term mortality in patients with established coronary heart disease remains less clear., Methods: We obtained data from 3313 patients with established coronary heart disease in the Ludwigshafen Risk and Cardiovascular Health (LURIC) study. We tested associations of tertiles of lipoprotein(a) concentration in plasma and two LPA single-nucleotide polymorphisms ([SNPs] rs10455872 and rs3798220) with all-cause mortality and cardiovascular mortality by Cox regression analysis and with severity of disease by generalised linear modelling, with and without adjustment for age, sex, diabetes diagnosis, systolic blood pressure, BMI, smoking status, estimated glomerular filtration rate, LDL-cholesterol concentration, and use of lipid-lowering therapy. Results for plasma lipoprotein(a) concentrations were validated in five independent studies involving 10 195 patients with established coronary heart disease. Results for genetic associations were replicated through large-scale collaborative analysis in the GENIUS-CHD consortium, comprising 106 353 patients with established coronary heart disease and 19 332 deaths in 22 studies or cohorts., Findings: The median follow-up was 9·9 years. Increased severity of coronary heart disease was associated with lipoprotein(a) concentrations in plasma in the highest tertile (adjusted hazard radio [HR] 1·44, 95% CI 1·14-1·83) and the presence of either LPA SNP (1·88, 1·40-2·53). No associations were found in LURIC with all-cause mortality (highest tertile of lipoprotein(a) concentration in plasma 0·95, 0·81-1·11 and either LPA SNP 1·10, 0·92-1·31) or cardiovascular mortality (0·99, 0·81-1·2 and 1·13, 0·90-1·40, respectively) or in the validation studies., Interpretation: In patients with prevalent coronary heart disease, lipoprotein(a) concentrations and genetic variants showed no associations with mortality. We conclude that these variables are not useful risk factors to measure to predict progression to death after coronary heart disease is established., Funding: Seventh Framework Programme for Research and Technical Development (AtheroRemo and RiskyCAD), INTERREG IV Oberrhein Programme, Deutsche Nierenstiftung, Else-Kroener Fresenius Foundation, Deutsche Stiftung für Herzforschung, Deutsche Forschungsgemeinschaft, Saarland University, German Federal Ministry of Education and Research, Willy Robert Pitzer Foundation, and Waldburg-Zeil Clinics Isny., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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17. Symmetric dimethylarginine, high-density lipoproteins and cardiovascular disease.

Author

Zewinger S, Kleber ME, Rohrer L, Lehmann M, Triem S, Jennings RT, Petrakis I, Dressel A, Lepper PM, Scharnagl H, Ritsch A, Thorand B, Heier M, Meisinger C, de Las Heras Gala T, Koenig W, Wagenpfeil S, Schwedhelm E, Böger RH, Laufs U, von Eckardstein A, Landmesser U, Lüscher TF, Fliser D, März W, Meinitzer A, and Speer T

Subjects
Aged, Arginine metabolism, Biomarkers metabolism, Cardiovascular Diseases mortality, Female, Glomerular Filtration Rate physiology, Humans, Male, Middle Aged, Prognosis, Renal Insufficiency, Chronic complications, Risk Factors, Arginine analogs & derivatives, Cardiovascular Diseases etiology, Lipoproteins, HDL metabolism, Renal Insufficiency, Chronic mortality
Abstract

Aims: The vascular effects of high-density lipoproteins (HDL) differ under certain clinical conditions. The composition of HDL is modified in patients with chronic kidney disease (CKD). As a consequence, uremic HDL induces endothelial dysfunction. We have previously shown that accumulation of symmetric dimethylarginine (SDMA) in HDL causes these adverse effects of HDL in CKD. The aim of the study is to determine the impact of the accumulation of SDMA on the association between HDL and mortality., Methods and Results: Mortality, renal function, serum SDMA and HDL-cholesterol (HDL-C) were assessed in the LURIC study including 3310 subjects undergoing coronary angiography. All-cause mortality was 30.0% during median follow-up of 9.9 years. Serum SDMA levels significantly predicted all-cause and cardiovascular mortality, and were significantly correlated with SDMA accumulation in HDL. Notably, higher serum SDMA was independently associated with lower cholesterol efflux (P = 0.004) as a measure of HDL functionality. In subjects with low SDMA levels, higher HDL-C was associated with significantly lower mortality. In contrast, in subjects with high SDMA, HDL-C was associated with higher mortality. These findings were confirmed in 1424 participants of the MONICA/KORA S3 cohort. Of note, we derived an algorithm allowing for calculation of biologically effective HDL-C' based on measured HDL-C and SDMA. We corroborated these clinical findings with invitro evidence showing that SDMA accumulation abolishes the anti-inflammatory and regenerative properties of HDL., Conclusion: The data identify SDMA as a marker of HDL dysfunction. These findings highlight on the pivotal role of SDMA accumulation in HDL as a mediator of pre-mature cardiovascular disease in patients with CKD., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author 2017. For permissions, please email: journals.permissions@oup.com.)

Published
2017
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18. Serum amyloid A: high-density lipoproteins interaction and cardiovascular risk.

Author

Zewinger S, Drechsler C, Kleber ME, Dressel A, Riffel J, Triem S, Lehmann M, Kopecky C, Säemann MD, Lepper PM, Silbernagel G, Scharnagl H, Ritsch A, Thorand B, de las Heras Gala T, Wagenpfeil S, Koenig W, Peters A, Laufs U, Wanner C, Fliser D, Speer T, and März W

Subjects
Acute Coronary Syndrome mortality, Adult, Aged, Aorta metabolism, Biomarkers metabolism, Cardiovascular Diseases blood, Cause of Death, Cells, Cultured, Diabetes Mellitus, Type 2 mortality, Diabetic Nephropathies mortality, Endothelium, Vascular metabolism, Female, Humans, Kidney Failure, Chronic mortality, Male, Middle Aged, Nitric Oxide biosynthesis, Prognosis, Prospective Studies, Reactive Oxygen Species metabolism, Renal Dialysis mortality, Risk Factors, Serum Amyloid A Protein physiology, Vascular Cell Adhesion Molecule-1 metabolism, Cardiovascular Diseases mortality, Cholesterol, HDL metabolism, Serum Amyloid A Protein metabolism
Abstract

Aims: High-density lipoproteins (HDLs) are considered as anti-atherogenic. Recent experimental findings suggest that their biological properties can be modified in certain clinical conditions by accumulation of serum amyloid A (SAA). The effect of SAA on the association between HDL-cholesterol (HDL-C) and cardiovascular outcome remains unknown., Methods and Results: We examined the association of SAA and HDL-C with mortality in the Ludwigshafen Risk and Cardiovascular Health (LURIC) study, which included 3310 patients undergoing coronary angiography. To validate our findings, we analysed 1255 participants of the German Diabetes and Dialysis study (4D) and 4027 participants of the Cooperative Health Research in the Region of Augsburg (KORA) S4 study. In LURIC, SAA concentrations predicted all-cause and cardiovascular mortality. In patients with low SAA, higher HDL-C was associated with lower all-cause and cardiovascular mortality. In contrast, in patients with high SAA, higher HDL-C was associated with increased all-cause and cardiovascular mortality, indicating that SAA indeed modifies the beneficial properties of HDL. We complemented these clinical observations by in vitro experiments, in which SAA impaired vascular functions of HDL. We further derived a formula for the simple calculation of the amount of biologically 'effective' HDL-C based on measured HDL-C and SAA from the LURIC study. In 4D and KORA S4 studies, we found that measured HDL-C was not associated with clinical outcomes, whereas calculated 'effective' HDL-C significantly predicted better outcome., Conclusion: The acute-phase protein SAA modifies the biological effects of HDL-C in several clinical conditions. The concomitant measurement of SAA is a simple, useful, and clinically applicable surrogate for the vascular functionality of HDL., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author 2015. For permissions please email: journals.permissions@oup.com.)

Published
2015
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19. Carbamylated low-density lipoprotein induces endothelial dysfunction.

Author

Speer T, Owala FO, Holy EW, Zewinger S, Frenzel FL, Stähli BE, Razavi M, Triem S, Cvija H, Rohrer L, Seiler S, Heine GH, Jankowski V, Jankowski J, Camici GG, Akhmedov A, Fliser D, Lüscher TF, and Tanner FC

Subjects
Acetylcholine pharmacology, Analysis of Variance, Animals, Aorta physiology, Cardiovascular Diseases physiopathology, Enzyme Inhibitors pharmacology, Healthy Volunteers, Humans, In Vitro Techniques, Lipoproteins, LDL metabolism, Lipoproteins, LDL pharmacology, Mice, Inbred C57BL, Mice, Transgenic, Nitric Oxide Synthase Type III metabolism, Onium Compounds pharmacology, Reactive Oxygen Species metabolism, Renal Insufficiency, Chronic metabolism, Renal Insufficiency, Chronic physiopathology, Scavenger Receptors, Class E metabolism, Vasodilation drug effects, Vasodilator Agents pharmacology, Endothelium, Vascular physiopathology, Lipoproteins, LDL physiology
Abstract

Aims: Cardiovascular events remain the leading cause of death in Western world. Atherosclerosis is the most common underlying complication driven by low-density lipoproteins (LDL) disturbing vascular integrity. Carbamylation of lysine residues, occurring primarily in the presence of chronic kidney disease (CKD), may affect functional properties of lipoproteins; however, its effect on endothelial function is unknown., Methods and Results: Low-density lipoprotein from healthy donors was isolated and carbamylated. Vascular reactivity after treatment with native LDL (nLDL) or carbamylated LDL (cLDL) was examined in organ chambers for isometric tension recording using aortic rings of wild-type or lectin-like-oxidized LDL receptor-1 (LOX-1) transgenic mice. Reactive oxygen species (ROS) and nitric oxide (NO) production were determined using electron spin resonance spectroscopy. The effect of LDL-carbamyl-lysine levels on cardiovascular outcomes was determined in patients with CKD during a median follow-up of 4.7 years. Carbamylated LDL impaired endothelium-dependent relaxation to acetylcholine or calcium-ionophore A23187, but not endothelium-independent relaxation to sodium nitroprusside. In contrast, nLDL had no effect. Carbamylated LDL enhanced aortic ROS production by activating NADPH-oxidase. Carbamylated LDL stimulated endothelial NO synthase (eNOS) uncoupling at least partially by promoting S-glutathionylation of eNOS. Carbamylated LDL-induced endothelial dysfunction was enhanced in LOX-1 transgenic mice. In patients with CKD, LDL-carbamyl-lysine levels were significant predictors for cardiovascular events and all-cause mortality., Conclusions: Carbamylation of LDL induces endothelial dysfunction via LOX-1 activation and increased ROS production leading to eNOS uncoupling. This indicates a novel mechanism in the pathogenesis of atherosclerotic disease which may be pathogenic and prognostic in patients with CKD and high plasma levels of cLDL., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author 2014. For permissions please email: journals.permissions@oup.com.)

Published
2014
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