Since identification of the genes mutated in patients with Autosomal Dominant Polycystic Kidney Disease, PKD1 and PKD2, a large number of different germ line mutations in both genes have been found by conventional PCR-based mutation detection methods.
Screening of the PKD1 duplicated region reveals multiple single nucleotide polymorphisms and a de novo mutation in Hellenic polycystic kidney disease families.
Restoring these miRs by injection of precursors influenced the reduced size of cysts in Pkd1 conditional knockout mice. miR-192 and -194 may act as potential therapeutic targets to control the expansion and progression of cysts in patients with ADPKD.-Kim, D. Y., Woo, Y. M., Lee, S., Oh, S., Shin, Y., Shin, J.-O., Park, E. Y., Ko, J. Y., Lee, E. J., Bok, J., Yoo, K. H., Park, J. H. Impact of miR-192 and miR-194 on cyst enlargement through EMT in autosomal dominant polycystic kidney disease.
Pharmacological inhibition of HDAC activity has been found to reduce the progression of cyst formation and slow the decline of kidney function in Pkd1 conditional knockout mice and Pkd2 knockout mice, respectively, implicating the potential clinical application of HDAC inhibitors on ADPKD.
Our clinical analysis, yet based only on a limited number of PKD2 subjects, does not definitely support the concept of a milder phenotype and prognosis in PKD2 versus PKD1 patients, in terms of mean age of diagnosis (29 vs. 29 years), mean age at onset of arterial hypertension (33 vs. 33 years), more favourable renal function or ultrasound findings.