Tamás Szabó1, Petronella Orosz1,2, Eszter Balogh2,3, Eszter Jávorszky2,3, István Máttyus2, Csaba Bereczki4, Zoltán Maróti4, Tibor Kalmár4, Attila J Szabó2,5, George Reusz2, Ildikó Várkonyi2, Erzsébet Marián6, Éva Gombos7, Orsolya Orosz7, László Madar7, György Balla1, János Kappelmayer7, Kálmán Tory8,9, István Balogh10. 1. Department of Pediatrics, Faculty of Medicine, University of Debrecen, Debrecen, Hungary. 2. Ist Department of Pediatrics, Semmelweis University Budapest, Bókay J. u. 53., Budapest, 1083, Hungary. 3. MTA-SE Lendulet Nephrogenetic Laboratory, Budapest, Hungary. 4. Department of Pediatrics, University of Szeged, Szeged, Hungary. 5. MTA-SE Pediatrics and Nephrology Research Group, Budapest, Hungary. 6. Department of Pediatrics, Szabolcs-Szatmár-Bereg Jósa András County Hospital, Nyíregyháza, Hungary. 7. Division of Clinical Genetics, Department of Laboratory Medicine, Faculty of Medicine, University of Debrecen, 4032 Debrecen, Nagyerdei krt. 98., Debrecen, Hungary. 8. Ist Department of Pediatrics, Semmelweis University Budapest, Bókay J. u. 53., Budapest, 1083, Hungary. tory.kalman@med.semmelweis-univ.hu. 9. MTA-SE Lendulet Nephrogenetic Laboratory, Budapest, Hungary. tory.kalman@med.semmelweis-univ.hu. 10. Division of Clinical Genetics, Department of Laboratory Medicine, Faculty of Medicine, University of Debrecen, 4032 Debrecen, Nagyerdei krt. 98., Debrecen, Hungary. balogh@med.unideb.hu.
Abstract
BACKGROUND: Autosomal recessive polycystic kidney disease (ARPKD) is genetically one of the least heterogeneous ciliopathies, resulting primarily from mutations of PKHD1. Nevertheless, 13-20% of patients diagnosed with ARPKD are found not to carry PKHD1 mutations by sequencing. Here, we assess whether PKHD1 copy number variations or second locus mutations explain these cases. METHODS: Thirty-six unrelated patients with the clinical diagnosis of ARPKD were screened for PKHD1 point mutations and copy number variations. Patients without biallelic mutations were re-evaluated and screened for second locus mutations targeted by the phenotype, followed, if negative, by clinical exome sequencing. RESULTS: Twenty-eight patients (78%) carried PKHD1 point mutations, three of whom on only one allele. Two of the three patients harbored in trans either a duplication of exons 33-35 or a large deletion involving exons 1-55. All eight patients without PKHD1 mutations (22%) harbored mutations in other genes (PKD1 (n = 2), HNF1B (n = 3), NPHP1, TMEM67, PKD1/TSC2). Perinatal respiratory failure, a kidney length > +4SD and early-onset hypertension increase the likelihood of PKHD1-associated ARPKD. A patient compound heterozygous for a second and a last exon truncating PKHD1 mutation (p.Gly4013Alafs*25) presented with a moderate phenotype, indicating that fibrocystin is partially functional in the absence of its C-terminal 62 amino acids. CONCLUSIONS: We found all ARPKD cases without PKHD1 point mutations to be phenocopies, and none to be explained by biallelic PKHD1 copy number variations. Screening for copy number variations is recommended in patients with a heterozygous point mutation.
BACKGROUND:Autosomal recessive polycystic kidney disease (ARPKD) is genetically one of the least heterogeneous ciliopathies, resulting primarily from mutations of PKHD1. Nevertheless, 13-20% of patients diagnosed with ARPKD are found not to carry PKHD1 mutations by sequencing. Here, we assess whether PKHD1 copy number variations or second locus mutations explain these cases. METHODS: Thirty-six unrelated patients with the clinical diagnosis of ARPKD were screened for PKHD1 point mutations and copy number variations. Patients without biallelic mutations were re-evaluated and screened for second locus mutations targeted by the phenotype, followed, if negative, by clinical exome sequencing. RESULTS: Twenty-eight patients (78%) carried PKHD1 point mutations, three of whom on only one allele. Two of the three patients harbored in trans either a duplication of exons 33-35 or a large deletion involving exons 1-55. All eight patients without PKHD1 mutations (22%) harbored mutations in other genes (PKD1 (n = 2), HNF1B (n = 3), NPHP1, TMEM67, PKD1/TSC2). Perinatal respiratory failure, a kidney length > +4SD and early-onset hypertension increase the likelihood of PKHD1-associated ARPKD. A patient compound heterozygous for a second and a last exon truncating PKHD1 mutation (p.Gly4013Alafs*25) presented with a moderate phenotype, indicating that fibrocystin is partially functional in the absence of its C-terminal 62 amino acids. CONCLUSIONS: We found all ARPKD cases without PKHD1 point mutations to be phenocopies, and none to be explained by biallelic PKHD1 copy number variations. Screening for copy number variations is recommended in patients with a heterozygous point mutation.
Entities:
Keywords:
CNV; Duplication; Phenocopy; Polycystic kidney; Second locus mutation
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