MODY3, renal cysts, and Dandy-Walker variants with a microdeletion spanning the HNF1A gene.

MODY3, renal cysts, and Dandy-Walker variants with a microdeletion spanning the HNF1A gene. Clin Nephrol. 2017 Aug 02;: Authors: Matsukura H, Nagamori M, Miya K, Yorifuji T Abstract Heterozygous hepatocyte nuclear factor-1-α gene (HNF1A) mutations are the most common cause of maturity-onset diabetes of the young (MODY), but they rarely involve extrahepatic manifestations. Renal cysts and diabetes syndrome can be caused by HNF1B mutations. No association between MODY3 and Dandy-Walker variants (DWV) has been reported. HNF1A mutations might be responsible for renal malformations. In a Japanese girl with glycosuria, developmental delay, mental retardation, renal cysts, and DWV, the HNF1B gene had no mutations. Array comparative genomic hybridization analysis identified a de-novo interstitial 12q24.22-q24.31 deletion of 5.6 Mb encompassing the HNF1A gene, which is compatible with a diagnosis of MODY3. The variety of phenotypes suggests a novel microdeletion syndrome spanning the HNF1A gene. Because HNF1B functions as an HNF1A/HNF1B heterodimer, haploinsufficient HNF1A interacts with a certain HNF1B haplotype. The resulting truncated heterodimer might engender renal cysts. More patients with well-defined deletion within 12q.24.31 must be evaluated to produce a detailed genotype-phenotype correlation and to elucidate this emerging microdeletion syndrome.
. PMID: 28766492 [PubMed - as supplied by publisher]
Source: Clinical Nephrology - Category: Urology & Nephrology Authors: Tags: Clin Nephrol Source Type: research