Markus Draaken scite author profile

Urinary bladder malformations associated with bladder outlet obstruction are a frequent cause of progressive renal failure in children. We here describe a muscarinic acetylcholine receptor M3 (CHRM3) (1q41-q44) homozygous frameshift mutation in familial congenital bladder malformation associated with a prune-belly-like syndrome, defining an isolated gene defect underlying this sometimes devastating disease. CHRM3 encodes the M3 muscarinic acetylcholine receptor, which we show is present in developing renal epithelia and bladder muscle. These observations may imply that M3 has a role beyond its known contribution to detrusor contractions. This Mendelian disease caused by a muscarinic acetylcholine receptor mutation strikingly phenocopies Chrm3 null mutant mice.

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Whole-exome resequencing reveals recessive mutations in TRAP1 in individuals with CAKUT and VACTERL association

Saisawat

Kohl

Hilger

et al. 2014

Kidney International

107

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Congenital abnormalities of the kidney and urinary tract (CAKUT) account for approximately half of children with chronic kidney disease and they are the most frequent cause of end-stage renal disease in children in the US. However, its genetic etiology remains mostly elusive. VACTERL association is a rare disorder that involves congenital abnormalities in multiple organs including the kidney and urinary tract in up to 60% of the cases. By homozygosity mapping and whole exome resequencing combined with high-throughput mutation analysis by array-based multiplex PCR and next-generation sequencing, we identified recessive mutations in the gene TNF receptor-associated protein 1 (TRAP1) in two families with isolated CAKUT and three families with VACTERL association. TRAP1 is a heat shock protein 90-related mitochondrial chaperone possibly involved in antiapoptotic and endoplasmic reticulum-stress signaling. Trap1 is expressed in renal epithelia of developing mouse kidney E13.5 and in the kidney of adult rats, most prominently in proximal tubules and in thick medullary ascending limbs of Henle’s loop. Thus, we identified mutations in TRAP1 as highly likely causing CAKUT or CAKUT in VACTERL association.

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Deep intronicAPCmutations explain a substantial proportion of patients with familial or early-onset adenomatous polyposis

et al. 2012

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To uncover pathogenic deep intronic variants in patients with colorectal adenomatous polyposis, in whom no germline mutation in the APC or MUTYH genes can be identified by routine diagnostics, we performed a systematic APC messenger RNA analysis in 125 unrelated mutation-negative cases. Overall, we identified aberrant transcripts in 8% of the patients (familial cases 30%; early-onset manifestation 21%). In eight of them, two different out-of-frame pseudoexons were found consisting of a 167-bp insertion from intron 4 in five families with a shared founder haplotype and a 83-bp insertion from intron 10 in three patients. The pseudoexon formation was caused by three different heterozygous germline mutations, which are supposed to activate cryptic splice sites. In conclusion, a few deep intronic mutations contribute substantially to the APC mutation spectrum. Complementary DNA analysis and/or target sequencing of intronic regions should be considered as an additional mutation discovery approach in polyposis patients.

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Genome‐wide CNV analysis in 221 unrelated patients and targeted high‐throughput sequencing reveal novel causative candidate genes for colorectal adenomatous polyposis

Horpaopan

Spier

Zink

et al. 2014

Intl Journal of Cancer

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To uncover novel causative genes in patients with unexplained adenomatous polyposis, a model disease for colorectal cancer, we performed a genome-wide analysis of germline copy number variants (CNV) in a large, well characterized APC and MUTYH mutation negative patient cohort followed by a targeted next generation sequencing (NGS) approach. Genomic DNA from 221 unrelated German patients was genotyped on high-resolution SNP arrays. Putative CNVs were filtered according to stringent criteria, compared with those of 531 population-based German controls, and validated by qPCR. Candidate genes were prioritized using in silico, expression, and segregation analyses, data mining and enrichment analyses of genes and pathways. In 27% of the 221 unrelated patients, a total of 77 protein coding genes displayed rare, nonrecurrent, germline CNVs. The set included 26 candidates with molecular and cellular functions related to tumorigenesis. Targeted high-throughput sequencing found truncating point mutations in 12% (10/77) of the prioritized genes. No clear evidence was found for autosomal recessive subtypes. Six patients had potentially causative mutations in more than one of the 26 genes. Combined with data from recent studies of early-onset colorectal and breast cancer, recurrent potential loss-of-function alterations were detected in CNTN6, FOCAD (KIAA1797), HSPH1, KIF26B, MCM3AP, YBEY and in three genes from the ARHGAP family. In the canonical Wnt pathway oncogene CTNNB1 (b-catenin), two potential gain-of-function mutations were found. In conclusion, the present study identified a group of rarely affected genes which are likely to predispose to colorectal adenoma formation and confirmed previously published candidates for tumor predisposition as etiologically relevant.Germline copy number variants (CNVs) have been recognized as the most prevalent type of structural genetic variation, which also predispose to human disease as lowpenetrance risk factors or high-penetrance mutations. 1,2 Recent research has identified potentially causative germline deletions and duplications for a number of sporadic and familial types of cancer. [3][4][5][6][7] In hereditary cancer syndromes, heterozygous microdeletions of single exons or whole genes contribute substantially to the mutation spectrum. 8,9 A plausible hypothesis therefore is that in particular deletion CNVs are part of the mutation spectrum of yet unidentified genes responsible for monogenic tumor syndromes for which no causative germline mutation in established genes has yet been identified.

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Microduplications at 22q11.21 are associated with non-syndromic classic bladder exstrophy

Draaken

Reutter

Schramm

et al. 2010

European Journal of Medical Genetics

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De novo microduplication at 22q11.21 in a patient with VACTERL association

Schramm

Draaken

Bartels

et al. 2011

European Journal of Medical Genetics

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De novo microduplications at 1q41, 2q37.3, and 8q24.3 in patients with VATER/VACTERL association

et al. 2013

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Familial occurrence of the VATER/VACTERL association

et al. 2012

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The acronym VATER/VACTERL association is used to describe the non-random co-occurrence of vertebral defects (V), anorectal malformations (A), cardiac defects (C), tracheo-esophageal fistula with or without esophageal atresia (TE), renal malformations (R), and limb defects (L). We report a familial case of VATER/VACTERL association in which both the index case and her maternal uncle displayed four major component features of the disorder. A systematic literature search identified 12 previously described familial cases. However, on comparison, both members fulfilled the diagnostic criteria for VATER/VACTERL association only in one instance, and ours is the second such report. Although, a SNP array-based analysis identified no causal genomic alteration, the findings in the present family suggest that genetic factors are implicated in the development of the disorder.

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Markus Draaken

Muscarinic Acetylcholine Receptor M3 Mutation Causes Urinary Bladder Disease and a Prune-Belly-like Syndrome

Whole-exome resequencing reveals recessive mutations in TRAP1 in individuals with CAKUT and VACTERL association

Deep intronicAPCmutations explain a substantial proportion of patients with familial or early-onset adenomatous polyposis

Genome‐wide CNV analysis in 221 unrelated patients and targeted high‐throughput sequencing reveal novel causative candidate genes for colorectal adenomatous polyposis

Microduplications at 22q11.21 are associated with non-syndromic classic bladder exstrophy

De novo microduplication at 22q11.21 in a patient with VACTERL association

De novo microduplications at 1q41, 2q37.3, and 8q24.3 in patients with VATER/VACTERL association

Familial occurrence of the VATER/VACTERL association

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