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A pilot study conducted in the Czech Republic relating to the molecular analysis of the RET and GDNF genes in patients with cakut, predominantly unilateral renal agenesis

Publikace na 1. lékařská fakulta, Fakulta tělesné výchovy a sportu, 2. lékařská fakulta |
2015

Tento text není v aktuálním jazyce dostupný. Zobrazuje se verze "en".Abstrakt

Renal anomalies are quite a common medical condition thought to be genetically influenced. The subject of this work was to conduct molecular genetic analysis of two human renal agenesis causing candidate genes encoding the RET receptor thyrosin kinase and GDNF neutrophic factor.

The mutational analysis of twenty RET exons and three GDNF exons in twenty patients diagnosed with unilateral renal agenesis was carried out. Furthermore, copy number changes in both genes were investigated.

The aim of this work was to identify potential mutations of RET/GDNF genes and thus to prove their association with renal agenesis. In this group of patients, no known pathogenic mutations were discovered, only three known single nucleotide polymorphisms of the RET gene were detected.

Polymorphism rs1800860 (GCG-GCA, Ala432) was detected in 11/20 patients, two of them in a homozygous state. Polymorphism rs1800861 (CTT-CTG, Leu769) was identified in 6/20 patients, where one patient was a homozygote for the minor allele G.

Polymorphism rs1800863 (TCC-TCG, Ser904) was detected in 5/20 patients, always in heterozygous combinations. All these polymorphisms are common ones with the minor allele frequency in population higher than 10%.

Results of this study did not confirm an increased incidence of RET and GDNF mutations in patients diagnosed with renal agenesis and thus the association of these genes with renal agenesis cannot be proved. Nevertheless, with regard to a limited size of the patient group, the association between RET/GDNF signal complex and renal agenesis cannot be excluded.

Submitted paper is a pilot study of patients with CAKUT in the Czech Republic, we intend to continue collecting samples and examine more genes relating to these anomalies.