Markers of progression and regression in diabetic nephropathy – from animal models to human disease

Progression and regression of renal fibrosis is observed in patients with diabetic nephropathy (DN). The underlying pathways, especially those that promote regression of fibrosis, remain poorly understood in part due to the fact that most rodent DN models only mirror the early features of human DN. Another obstacle for optimizing treatment strategies is that albuminuria, the current gold standard biomarker of renal damage in DN, often lacks sensitivity and specificity for identification of those patients with diabetes who are at risk of a rapid decline in renal function. A novel DN model, in which diabetes was induced with streptozotocin in Cyp1a1mRen2 rats and hypertension was generated by inducing renin transgene expression with dietary indole-3-carbinol (I-3-C), mimicked many of the key biochemical, pathological and transcriptomic changes observed in the kidney of patients with DN. Recently, the model was extended to include a ‘reversal phase’ in which glycaemia was tightly controlled and blood pressure normalized for eight weeks after an ‘injury phase’ of 28 weeks. The present study aims to employ this novel rodent model to examine pathways activated in the kidney during and following reversal of hyperglycaemia and hypertension and to identify new biomarkers that might complement albuminuria in assessing risk of renal deterioration in patients with diabetes. Methods Tissue and urinary specimen from the Cyp1a1mRen 2 model of DN were analysed by realtime-PCR, Western-Blot, ELISA and staining techniques including immunohistochemistry, immunofluorescence and zymography. To establish in-situ zymography a model of ureteric obstruction was used. Urinary peptidomic analysis as well as measurement of urinary exosomes and microparticles was performed in the model and in patients with DN utilizing liquid chromatography/tandem mass-spectrometry, nanoparticle tracking analysis (NTA) or flow cytometry. Results Tight control of blood glucose and blood pressure during an 8 week ‘reversal phase’ did not significantly reverse the degree of renal fibrosis accrued during a 28wk ‘injury phase’. However, it did result in a reduction in expression of genes encoding myofibroblast markers and extracellular matrix (ECM) proteins. Genes that were up-regulated during both injury and reversal phases were implicated in adaptive immunity, phagocytosis, lysosomal processing and degradative metalloproteinases (MMPs). Paradoxically MMP activity was massively reduced during both injury and reversal phases. This may be due to an elevated level of tissue inhibitor of metalloproteinase-1 (TIMP-1) protein in both phases. After separating TIMP1 from MMP in renal tissue homogenates from animals of both the injury and reversal phases using gel electrophoresis, MMP activity was restored above that of controls. For biomarker discovery peptidomic analysis was performed on urine from rats at baseline and during the injury and reversal phases of the Cyp1a1mRen2 model of DN and from patients with moderately advanced DN and from normal controls. The use of two different search and analyse tools (Maxquant, Progenesis QI) resulted in the discovery of significantly altered peptides in the urine in rodent and human DN. Further studies focused on peptides derived from those proteins for which the corresponding gene was similarly regulated in the DN model and in human DN. Urinary epidermal growth factor (uEGF) matched these criteria as the reduction of excretion during the injury phase in the DN model was paralleled by reduced EGF protein expression in renal tissue. Key biomarker candidates identified in the first two chapters were measured in urinary specimens of patients from the Edinburgh Type 2 Diabetes study (ET2DS) to test translational utility. MMP7 and other candidates, such as osteopontin or vascular endothelial growth factor (VEGF) were not of value in predicting renal outcomes. Reduced uEGF was significantly associated with increased mortality rate. In a subgroup of 642 study participants who were normoalbuminuric and had a preserved renal function at baseline, a lower uEGF to creatinine ratio was a risk factor for either developing an estimated glomerular filtration rate less than 60 ml/min per 1.73m2, rapid (over 5% per annum) decline in renal function or the combination of both. The latter remained significant after correction for other covariates. Addition of uEGF resulted in a marginal improvement in a model derived from traditional risk factors for predicting rapid decline and the composite end-point. Urinary microparticle (20nm-1000nm) analysis was established in the rodent DN model and translated to patients with DN. Total urinary exosomes (20nm-100nm) or exosomes derived from specific renal cell types including podocytes and tubular cells, increased during the injury phase in the Cyp1a1mRen2 model followed by a decrease after reversal phase. In a pilot study comprising participants with advanced chronic kidney disease, the urinary exosome concentration correlated with renal function. In the ET2DS an increased exosome concentration at baseline indicated a higher risk for renal deterioration during four years follow-up even after correction for baseline eGFR. Urinary microvesicles (100nm-1000nm) concentration increased during the injury phase in the DN model though correlation with renal function in humans was only significant if kidney-specific marker (podocalyxin) positive microvesicles were measured. Conclusion Normalisation of hyperglycaemia and hypertension in the DN model allows the study of genetic and protein regulation during the injury and reversal phases. ECM-production but not ECM-degradation genes are down-regulated during the reversal phase. The lack of reduction in ECM during the reversal phase might be caused by persistently reduced MMP activity due to the presence of TIMP-1. Targeting TIMP might be a treatment strategy to promote reduction of renal fibrosis. For the first time, the analysis of urinary peptidomics was integrated with previous transcriptomic findings in the Cyp1a1mRen2 model and patients with DN for biomarker discovery. The approach was validated using different analysis tools and successfully identified candidate markers which were increased or reduced in DN. Candidates included uEGF, which identified patients with DN who were at risk of a rapid decline of renal function. Though the marker requires further confirmation in other cohorts, it might be especially useful for patients with type 2 diabetes, in whom renal decline is often uncoupled from the development of albuminuria. Finally, the DN model helped to develop the methodology of microparticle analysis. For the first time a potential prognostic value of urinary exosome analysis in patients with diabetes has been demonstrated. Future work will include further optimisation of the methodologies, including labelling of microparticles with multiple antibodies and increasing study participant numbers

Rosiglitazone Affects Nitric Oxide Synthases and Improves Renal Outcome in a Rat Model of Severe Ischemia/Reperfusion Injury

Background. Nitric oxide (NO)-signal transduction plays an important role in renal ischemia/reperfusion (I/R) injury. NO produced by endothelial NO-synthase (eNOS) has protective functions whereas NO from inducible NO-synthase (iNOS) induces impairment. Rosiglitazone (RGZ), a peroxisome proliferator-activated receptor (PPAR)-γ agonist exerted beneficial effects after renal I/R injury, so we investigated whether this might be causally linked with NOS imbalance. Methods. RGZ (5 mg/kg) was administered i.p. to SD-rats (f) subjected to bilateral renal ischemia (60 min). Following 24 h of reperfusion, inulin- and PAH-clearance as well as PAH-net secretion were determined. Morphological alterations were graded by histopathological scoring. Plasma NOx-production was measured. eNOS and iNOS expression was analyzed by qPCR. Cleaved caspase 3 (CC3) was determined as an apoptosis indicator and ED1 as a marker of macrophage infiltration in renal tissue. Results. RGZ improves renal function after renal I/R injury (PAH-/inulin-clearance, PAH-net secretion) and reduces histomorphological injury. Additionally, RGZ reduces NOx plasma levels, ED-1 positive cell infiltration and CC3 expression. iNOS-mRNA is reduced whereas eNOS-mRNA is increased by RGZ. Conclusion. RGZ has protective properties after severe renal I/R injury. Alterations of the NO pathway regarding eNOS and iNOS could be an explanation of the underlying mechanism of RGZ protection in renal I/R injury

Optimized identification of advanced chronic kidney disease and absence of kidney disease by combining different electronic health data resources and by applying machine learning strategies

Automated identification of advanced chronic kidney disease (CKD ≥ III) and of no known kidney disease (NKD) can support both clinicians and researchers. We hypothesized that identification of CKD and NKD can be improved, by combining information from different electronic health record (EHR) resources, comprising laboratory values, discharge summaries and ICD-10 billing codes, compared to using each component alone. We included EHRs from 785 elderly multimorbid patients, hospitalized between 2010 and 2015, that were divided into a training and a test (n = 156) dataset. We used both the area under the receiver operating characteristic (AUROC) and under the precision-recall curve (AUCPR) with a 95% confidence interval for evaluation of different classification models. In the test dataset, the combination of EHR components as a simple classifier identified CKD ≥ III (AUROC 0.96[0.93–0.98]) and NKD (AUROC 0.94[0.91–0.97]) better than laboratory values (AUROC CKD 0.85[0.79–0.90], NKD 0.91[0.87–0.94]), discharge summaries (AUROC CKD 0.87[0.82–0.92], NKD 0.84[0.79–0.89]) or ICD-10 billing codes (AUROC CKD 0.85[0.80–0.91], NKD 0.77[0.72–0.83]) alone. Logistic regression and machine learning models improved recognition of CKD ≥ III compared to the simple classifier if only laboratory values were used (AUROC 0.96[0.92–0.99] vs. 0.86[0.81–0.91], p < 0.05) and improved recognition of NKD if information from previous hospital stays was used (AUROC 0.99[0.98–1.00] vs. 0.95[0.92–0.97]], p < 0.05). Depending on the availability of data, correct automated identification of CKD ≥ III and NKD from EHRs can be improved by generating classification models based on the combination of different EHR components

Association between age of cannabis initiation and gray matter covariance networks in recent onset psychosis

Cannabis use during adolescence is associated with an increased risk of developing psychosis. According to a current hypothesis, this results from detrimental effects of early cannabis use on brain maturation during this vulnerable period. However, studies investigating the interaction between early cannabis use and brain structural alterations hitherto reported inconclusive findings. We investigated effects of age of cannabis initiation on psychosis using data from the multicentric Personalized Prognostic Tools for Early Psychosis Management (PRONIA) and the Cannabis Induced Psychosis (CIP) studies, yielding a total sample of 102 clinically-relevant cannabis users with recent onset psychosis. GM covariance underlies shared maturational processes. Therefore, we performed source-based morphometry analysis with spatial constraints on structural brain networks showing significant alterations in schizophrenia in a previous multisite study, thus testing associations of these networks with the age of cannabis initiation and with confounding factors. Earlier cannabis initiation was associated with more severe positive symptoms in our cohort. Greater gray matter volume (GMV) in the previously identified cerebellar schizophrenia-related network had a significant association with early cannabis use, independent of several possibly confounding factors. Moreover, GMV in the cerebellar network was associated with lower volume in another network previously associated with schizophrenia, comprising the insula, superior temporal, and inferior frontal gyrus. These findings are in line with previous investigations in healthy cannabis users, and suggest that early initiation of cannabis perturbs the developmental trajectory of certain structural brain networks in a manner imparting risk for psychosis later in life

Pattern of predictive features of continued cannabis use in patients with recent-onset psychosis and clinical high-risk for psychosis.

Continued cannabis use (CCu) is an important predictor for poor long-term outcomes in psychosis and clinically high-risk patients, but no generalizable model has hitherto been tested for its ability to predict CCu in these vulnerable patient groups. In the current study, we investigated how structured clinical and cognitive assessments and structural magnetic resonance imaging (sMRI) contributed to the prediction of CCu in a group of 109 patients with recent-onset psychosis (ROP). We tested the generalizability of our predictors in 73 patients at clinical high-risk for psychosis (CHR). Here, CCu was defined as any cannabis consumption between baseline and 9-month follow-up, as assessed in structured interviews. All patients reported lifetime cannabis use at baseline. Data from clinical assessment alone correctly classified 73% (p  0.093), and their addition to the interview-based predictor via stacking did not improve prediction significantly, either in the ROP or CHR groups (ps > 0.065). Lower functioning, specific substance use patterns, urbanicity and a lack of other coping strategies contributed reliably to the prediction of CCu and might thus represent important factors for guiding preventative efforts. Our results suggest that it may be possible to identify by clinical measures those psychosis-spectrum patients at high risk for CCu, potentially allowing to improve clinical care through targeted interventions. However, our model needs further testing in larger samples including more diverse clinical populations before being transferred into clinical practice

Association between age of cannabis initiation and gray matter covariance networks in recent onset psychosis

Cannabis use during adolescence is associated with an increased risk of developing psychosis. According to a current hypothesis, this results from detrimental effects of early cannabis use on brain maturation during this vulnerable period. However, studies investigating the interaction between early cannabis use and brain structural alterations hitherto reported inconclusive findings. We investigated effects of age of cannabis initiation on psychosis using data from the multicentric Personalized Prognostic Tools for Early Psychosis Management (PRONIA) and the Cannabis Induced Psychosis (CIP) studies, yielding a total sample of 102 clinically-relevant cannabis users with recent onset psychosis. GM covariance underlies shared maturational processes. Therefore, we performed source-based morphometry analysis with spatial constraints on structural brain networks showing significant alterations in schizophrenia in a previous multisite study, thus testing associations of these networks with the age of cannabis initiation and with confounding factors. Earlier cannabis initiation was associated with more severe positive symptoms in our cohort. Greater gray matter volume (GMV) in the previously identified cerebellar schizophrenia-related network had a significant association with early cannabis use, independent of several possibly confounding factors. Moreover, GMV in the cerebellar network was associated with lower volume in another network previously associated with schizophrenia, comprising the insula, superior temporal, and inferior frontal gyrus. These findings are in line with previous investigations in healthy cannabis users, and suggest that early initiation of cannabis perturbs the developmental trajectory of certain structural brain networks in a manner imparting risk for psychosis later in life

Pattern of predictive features of continued cannabis use in patients with recent-onset psychosis and clinical high-risk for psychosis

Continued cannabis use (CCu) is an important predictor for poor long-term outcomes in psychosis and clinically high-risk patients, but no generalizable model has hitherto been tested for its ability to predict CCu in these vulnerable patient groups. In the current study, we investigated how structured clinical and cognitive assessments and structural magnetic resonance imaging (sMRI) contributed to the prediction of CCu in a group of 109 patients with recent-onset psychosis (ROP). We tested the generalizability of our predictors in 73 patients at clinical high-risk for psychosis (CHR). Here, CCu was defined as any cannabis consumption between baseline and 9-month follow-up, as assessed in structured interviews. All patients reported lifetime cannabis use at baseline. Data from clinical assessment alone correctly classified 73% (p 0.093), and their addition to the interview-based predictor via stacking did not improve prediction significantly, either in the ROP or CHR groups (ps > 0.065). Lower functioning, specific substance use patterns, urbanicity and a lack of other coping strategies contributed reliably to the prediction of CCu and might thus represent important factors for guiding preventative efforts. Our results suggest that it may be possible to identify by clinical measures those psychosis-spectrum patients at high risk for CCu, potentially allowing to improve clinical care through targeted interventions. However, our model needs further testing in larger samples including more diverse clinical populations before being transferred into clinical practice.</p

An update on the use of animal models in diabetic nephropathy research

In the current review, we discuss limitations and recent advances in animal models of diabetic nephropathy (DN). As in human disease, genetic factors may determine disease severity with the murine FVB and DBA/2J strains being more susceptible to DN than C57BL/6J mice. On the black and tan, brachyuric (BTBR) background, leptin deficient (ob/ob) mice develop many of the pathological features of human DN. Hypertension synergises with hyperglycemia to promote nephropathy in rodents. Moderately hypertensive endothelial nitric oxide synthase (eNOS(−/−)) deficient diabetic mice develop hyaline arteriosclerosis and nodular glomerulosclerosis and induction of renin-dependent hypertension in diabetic Cyp1a1mRen2 rats mimics moderately severe human DN. In addition, diabetic eNOS(−/−) mice and Cyp1a1mRen2 rats recapitulate many of the molecular pathways activated in the human diabetic kidney. However, no model exhibits all the features of human DN; therefore, researchers should consider biochemical, pathological, and transcriptomic data in selecting the most appropriate model to study their molecules and pathways of interest

Effect of rosiglitazone in an animal model of ischemic acute renal failure

Diese Arbeit befasst sich mit dem NO-Stoffwechsel und der Wirkung von Rosiglitazon (RGZ) im ischämischen akuten Nierenversagen (iANV). Im Rattenmodell wurde mittels 60-minütigem Clamping beider Aa. renales ein iANV induziert. Die Unterteilung erfolgte in die Gruppen mit Gefäßclamping jeweils ohne bzw. mit Gabe von RGZ (Clamp+NaCl bzw. Clamp+RGZ) sowie in die entsprechenden Gruppen mit Scheinoperation (Sham+NaCl bzw. Sham+RGZ). 24 Stunden nach dem Eingriff wurde photometrisch die Inulin- und PAH-Clearance bestimmt. Die Expression der Enzyme, Proteine und Metabolite des NO-Stoffwechsels wurde mittels Western-Blot, real time-PCR aus Nierenhomogenisaten oder Flüssig¬chromato¬graphie mit Massenspektrometrie-Kopplung (LC-MS/MS) aus Serumproben quantitativ bestimmt. In der unbehandelten Clamp-Gruppe zeigte sich ein deutlicher Abfall (90%) der Inulin- und PAH-Clearance und PAH-Nettosekretion. Die Gabe von RGZ besserte die Inulin- und PAH-Clearance sowie die PAH-Nettosekretion. Die Applikation von RGZ im iANV bewirkte keine aktivitätssteigernde Phosphorylierung der endothelialen NO-Synthase (eNOS) an Serine 1177. An eNOS Serine 633 nahm durch RGZ die Phosphorylierung ab. Auch das, an vielen Signalkaskaden beteiligte, Akt zeigte keine vermehrte Aktivierung. Die Gesamtexpression der eNOS-mRNA wurde durch RGZ im iANV signifikant geringer (auf 60% des Ausgangswertes) vermindert als in unbehandelten Tieren (20% des Ausgangswertes). Im iANV stieg die Expression der induzierbaren NO-Synthase (iNOS) - mRNA um das vierfache an, dieser Anstieg wurde durch Gabe von RGZ halbiert. Der verminderte Anstieg von iNOS kann als Erklärung für den Anstieg von eNOS dienen. Der Anstieg von ED-1 als Marker der Inflammationsreaktion sowie der Anstieg der Cleaved caspase 3 als Marker der Apoptosereaktion im iANV konnte nach der Applikation von RGZ nicht mehr nachgewiesen werden. Insgesamt schienen Inflammationsreaktion und Apoptose keinen signifikanten Einfluss auf die funktionellen Parameter im iANV zu besitzen. Das L-Argininderivat „Asymmetrisches Dimethylarginin“ (ADMA), das eNOS kompetitiv hemmt, stieg im iANV in der Clamp+NaCl und in der Clamp+RGZ Gruppe um ungefähr 20% an. Das an der Synthese von ADMA beteiligte Enzym PRMT 1 (Proteinargininmethyltransferase) und das ADMA-abbauende Enzym DDAH II (Dimethylarginindiaminohydrolase) wurden im iANV nicht reguliert. DDAH I, ein funktionsgleiches Isomer von DDAH II, zeigte im iANV eine Herabregulation um 20%. Diese Herabregulation könnte den Anstieg von Serum-ADMA im iANV erklären. Die Applikation von RGZ hatte weder auf ADMA noch auf DDAH einen regulatorischen Effekt. Die Halbierung der Expression von PRMT 1 durch RGZ hatte keinen Einfluss auf den ADMA-Serumspiegel. L-Arginin (L-Arg) stieg mit 60% im iANV deutlich stärker an als ADMA und könnte den Anstieg von ADMA kompensieren. Der Anstieg von L-Arg war von RGZ unabhängig. Der Quotient aus L-Arg und ADMA stieg in unbehandelten Tieren im iANV signifikant an, unter der Gabe von RGZ jedoch nicht. Dieser fehlende Anstieg wirkte sich nicht wesentlich auf die Produktion von NO aus. Folglich stellen sowohl ADMA als auch der L-Arg/ADMA Quotient keine Erklärung für die unzureichende funktionelle Wirkung einer Expressionssteigerung von eNOS unter RGZ im iANV dar. „Symmetrisches Dimethylarginin“ (SDMA) inhibiert als Isomer von ADMA die Aufnahme von L-Arg in die Zelle kompetitiv. SDMA zeigte im iANV einen Anstieg um fast 400 % im Vergleich zu den Shamtieren. SDMA wurde durch die Gabe von RGZ nicht reguliert. Hieraus wurde die Hypothese abgeleitet, dass der erhöhte SDMA-Spiegel den transzellulären L-Arg-Transport blockiert. Dies kann den Serumanstieg von L-Arg im iANV erklären und würde zu einem intrazellulären Mangel an L-Arg führen. Die durch RGZ bewirkte Steigerung der Expression von eNOS bliebe ineffektiv, da durch den Substratmangel die Produktion von NO nicht adäquat ansteigen könnte. Das L-Arg-Paradox im iANV beschreibt die Tatsache, dass die Applikation von L-Arg im iANV zu einer Mehrproduktion von NO durch eNOS führt, obwohl der Serumspiegel von L-Arg bereits vor Applikation klar über dem Sättigungsbereich von eNOS liegt. Da der Anstieg von ADMA im iANV durch den deutlich höheren Anstieg von L-Arg überkompensiert wird, scheint ADMA als Erklärung des Paradoxes nicht hinreichend. Der deutliche Anstieg von SDMA im iANV hingegen könnte über eine Blockade des L-Arg-Transporters zu einem intrazellulären Mangel an L-Arg führen. Diese kompetitive Blockade könnte durch die Applikation von L-Arg aufgehoben werden. Somit wäre SDMA eine Erklärung für das L-Arg Paradox. Zusammenfassend wurde in dieser Arbeit gezeigt, dass der starke Anstieg von SDMA möglicherweise dem protektiven Effekt von RGZ im iANV entgegenwirkt. Außerdem konnte mit dem Anstieg von SDMA ein neuer Erklärungsansatz des L-Arg-Paradoxes im iANV aufgezeigt werden.The protective effect of PPAR-gamma agonists in renal I/R-injury has already been shown. Here the influence of the PPAR-gamma agonist Rosiglitazone (RGZ) on the NO-pathway which plays an important role in the pathogenesis of and recovery from renal ischemia/reperfusion (I/R)-injury is investigated. Asymmetric and symmetric dimethylarginine (ADMA/SDMA) are structurally similar to L-arginine (L-Arg). ADMA is released from PRMT1 (Proteinargininmethyltransferase) and competitively inhibits eNOS activity. SDMA impairs cellular L-Arg transport. Both, SDMA and ADMA are eliminated by renal excretion while ADMA is additionally metabolized by DDAH 1 / 2 (Dimethylarginindiaminohydrolase). CD rats, subjected to bilateral I/R injury (60min) were administered RGZ. Sham served as control. 24 hours after reperfusion clearances were determined photometrically. The kidneys were removed. Measurements in the homogenisate of the renal cortex were made by qPRC, Western-Blot and immunohistochemistry. Serum was analyzed by LC-MS/MS. I/R-injury caused a significant decrease in inulin-/PAH-clearance (5%/3% vs. sham). RGZ resulted in an improvement of renal function (12% vs. sham). RGZ did not induce a phosphorylation of eNOS at Serine 1179. RGZ reduced phosphorylation of eNOS at Serine 633 (50% vs. sham). The phosphorylation of akt, which is involved in multiple signalling pathways, remained unchanged. RGZ significantly attenuated the decrease of eNOS-mRNA in I/R-injury (from 20% to 60% vs. sham). It remains unsolved why distinct effect of RGZ on eNOS evoked only an unexpected small functional amelioration after renal I/R-injury. I/R-injury enhanced the expression of iNOS-mRNA. Moreover CC3 and ED-1 were significantly increased. RGZ attenuated the increase of iNOS expression significantly (from 400% to 170% vs. sham). The enhanced expression of CC3 and ED1 was almost completely reversed by RGZ. Serum-levels of ADMA (+19%), SDMA (+145%) and L-Arg (+97%) were significantly elevated in clamping group compared to sham. RGZ had no effect on ADMA, SDMA and L-Arg levels. The L-Arg/ADMA ratio increased (+83%) in I/R-injury. This effect was abolished by RGZ. PRMT1 remained unchanged in the clamping group. However, the application of RGZ caused a significant down-regulation of PRMT1 (-50%) in sham and clamping group without an influence on ADMA level. Expression of DDAH 2 remained unchanged, DDAH 1 expression showed a down-regulation in the clamping-group. This down-regulation could explain the rise of ADMA serum-levels. RGZ had no effect on DDAH 1/2 regulations. Both, the clear increase of L-Arg and the small rise in ADMA levels suggest that ADMA has no major role in the inhibition of eNOS activity. However, the distinct rise of SDMA after I/R-injury which is not influenced by RGZ could cause an intracellular lack of the NO-substrate L-Arg. Thus, one hypothizes that despite increased eNOS expression by RGZ the NO-production remains heavily impaired due to the intracellular lack of L-Arg which results from the SDMA-dependent regulation. This additionally might explain the only small effect of RGZ on renal function after I/R-injury. The L-Arginin-paradox describes the improvement of renal function during I/R-injury by adding L-Arg although the endothelial NO-synthase´s (eNOS) KM for the L-Arg substrate is already sufficient. SDMA could cause the rise of L-Arg serum-level and the intracellular lack of the substrate by blocking the L-Arg-transporters. This blockade could be overcome by the additional application of L-Arg. So the changes in serum SDMA level might moreover be a new explanation of the L-Arg-paradox