Relationship between GFR, intact PTH, oxidized PTH, non-oxidized PTH as well as FGF23 in patients with CKD.

Fibroblast growth factor 23 (FGF23) and parathyroid hormone (PTH) are regulators of renal phosphate excretion and vitamin D metabolism. In chronic kidney disease (CKD), circulating FGF23 and PTH concentrations progressively increase as renal function declines. Oxidation of PTH at two methionine residues (positions 8 and 18) causes a loss of function. The impact of n-oxPTH and oxPTH on FGF23 synthesis, however, and how n-oxPTH and oxPTH concentrations are affected by CKD, is yet unknown. The effects of oxidized and non-oxidized PTH 1-34 on Fgf23 gene expression were analyzed in UMR106 osteoblast-like cells. Furthermore, we investigated the relationship between n-oxPTH and oxPTH, respectively, with FGF23 in two independent patients' cohorts (620 children with CKD and 600 kidney transplant recipients). While n-oxPTH stimulated Fgf23 mRNA synthesis in vitro, oxidation of PTH in particular at Met8 led to a markedly weaker stimulation of Fgf23. The effect was even stronger when both Met8 and Met18 were oxidized. In both clinical cohorts, n-oxPTH-but not oxPTH-was significantly associated with FGF23 concentrations, independent of known confounding factors. Moreover, with progressive deterioration of kidney function, intact PTH (iPTH) and oxPTH increased substantially, whereas n-oxPTH increased only moderately. In conclusion, n-oxPTH, but not oxPTH, stimulates Fgf23 gene expression. The increase in PTH with decreasing GFR is mainly due to an increase in oxPTH in more advanced stages of CKD.

[European Reference Networks : Consequences for healthcare in Germany]. / Europäische Referenznetzwerke : Konsequenzen für die Gesundheitsversorgung in Deutschland.

Starting in 2017, European Reference Networks (ERNs) for rare disease patients will be established in the European Union. ERNs will pool expertise in clinical centres and will establish cross-border exchange mechanisms in order to facilitate access to diagnosis and care. The integration of ERNs in the German healthcare system will pose a significant challenge. The main issues include: (i) competition between national and European interests in the conflict of national responsibility and intended cross-border availability of healthcare services, (ii) the lack of a funding concept, and (iii) the establishment of ERNs in EU member states in which implementation of national action plans for people with rare diseases is lagging behind. The lower implementation pace of the centre model that is part of the German action plan and the higher level of detail of the ERNs in terms of services and activities provided will likely lead to an appreciation that achieved patient benefits are attributed to ERNs.

Screening for NPHS2 mutations may help predict FSGS recurrence after transplantation.

Steroid-resistant focal segmental glomerulosclerosis (FSGS) often recurs after renal transplantation. In this international survey, we sought to identify genotype-phenotype correlations of recurrent FSGS. We surveyed 83 patients with childhood-onset primary FSGS who received at least one renal allograft and analyzed 53 of these patients for NPHS2 mutations. The mean age at diagnosis was 6.7 years, and the mean age at first renal transplantation was 13 years. FSGS recurred in 30 patients (36%) after a median of 13 days (range, 1.5 to 152 days). Twenty-three patients received a second kidney transplant, and FSGS recurred in 11 (48%) after a median of 16 days (range, 2.7 to 66 days). None of the 11 patients with homozygous or compound heterozygous NPHS2 mutations developed recurrent FSGS compared with 45% of patients without mutations. These data suggest that genetic testing for pathogenic mutations may be important for prognosis and treatment of FSGS both before and after transplantation.

CNDP1 genotype and renal survival in pediatric nephropathies.

BACKGROUND: The risk of developing type II diabetic nephropathy (DN) is lower in patients carrying the CNDP1 Mannheim polymorphism (homozygosity for the five leucine repeat), resulting in decreased activity of the histidine-dipeptide metabolizing enzyme carnosinase. The role of CNDP1 in other nephropathies is still unknown. METHODS: To evaluate the impact of the CNDP1 Mannheim allele on pediatric chronic kidney disease (CKD), we prospectively followed the long-term clinical outcome of 272 children with non-diabetic kidney disease (glomerulopathies n=32, non-glomerular kidney disease n=240). RESULTS: Renal failure progression was independent of CNDP1 genotype in the total cohort of CKD children. However, in patients with glomerulopathies, only 39% of patients homozygous for the CNDP1 Mannheim polymorphism attained the primary renal endpoint as compared to 77% of patients with any other CNDP1 genotype (p=0.06). CONCLUSIONS: Our findings in pediatric CKD patients suggest that the nephroprotective effect of the CNDP1 Mannheim variant is not restricted to patients with diabetic nephropathy.