Copy-number disorders are a common cause of congenital kidney malformations

Simone Sanna-Cherchi; Krzysztof Kiryluk; Katelyn E. Burgess; Monica Bodria; Matthew G. Sampson; Dexter Hadley; Shannon N. Nees; Miguel Verbitsky; Brittany J. Perry; Roel Sterken; Vladimir J. Lozanovski; Anna Materna-Kiryluk; Cristina Barlassina; Akshata Kini; Valentina Corbani; Alba Carrea; Danio Somenzi; Corrado Murtas; Nadica Ristoska-Bojkovska; Claudia Izzi; Beatrice Bianco; Marcin Zaniew; Hana Flogelova; Patricia L. Weng; Nilgun Kacak; Stefania Giberti; Maddalena Gigante; Adela Arapovic; Kristina Drnasin; Gianluca Caridi; Simona Curioni; Franca Allegri; Anita Ammenti; Stefania Ferretti; Vinicio Goj; Luca Bernardo; Vaidehi Jobanputra; Wendy K. Chung; Richard P. Lifton; Stephan Sanders; Matthew State; Lorraine N. Clark; Marijan Saraga; Sandosh Padmanabhan; Anna F. Dominiczak; Tatiana Foroud; Loreto Gesualdo; Zoran Gucev; Landino Allegri; Anna Latos-Bielenska; Daniele Cusi; Francesco Scolari; Velibor Tasic; Hakon Hakonarson; Gian Marco Ghiggeri; Ali G. Gharavi

doi:10.1016/j.ajhg.2012.10.007

Copy-number disorders are a common cause of congenital kidney malformations

Simone Sanna-Cherchi, Krzysztof Kiryluk, Katelyn E. Burgess, Monica Bodria, Matthew G. Sampson, Dexter Hadley, Shannon N. Nees, Miguel Verbitsky, Brittany J. Perry, Roel Sterken, Vladimir J. Lozanovski, Anna Materna-Kiryluk, Cristina Barlassina, Akshata Kini, Valentina Corbani, Alba Carrea, Danio Somenzi, Corrado Murtas, Nadica Ristoska-Bojkovska, Claudia IzziBeatrice Bianco, Marcin Zaniew, Hana Flogelova, Patricia L. Weng, Nilgun Kacak, Stefania Giberti, Maddalena Gigante, Adela Arapovic, Kristina Drnasin, Gianluca Caridi, Simona Curioni, Franca Allegri, Anita Ammenti, Stefania Ferretti, Vinicio Goj, Luca Bernardo, Vaidehi Jobanputra, Wendy K. Chung, Richard P. Lifton, Stephan Sanders, Matthew State, Lorraine N. Clark, Marijan Saraga, Sandosh Padmanabhan, Anna F. Dominiczak, Tatiana Foroud, Loreto Gesualdo, Zoran Gucev, Landino Allegri, Anna Latos-Bielenska, Daniele Cusi, Francesco Scolari, Velibor Tasic, Hakon Hakonarson, Gian Marco Ghiggeri, Ali G. Gharavi

Research output: Contribution to journal › Article › peer-review

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Abstract

We examined the burden of large, rare, copy-number variants (CNVs) in 192 individuals with renal hypodysplasia (RHD) and replicated findings in 330 RHD cases from two independent cohorts. CNV distribution was significantly skewed toward larger gene-disrupting events in RHD cases compared to 4,733 ethnicity-matched controls (p = 4.8 × 10^-11). This excess was attributable to known and novel (i.e., not present in any database or in the literature) genomic disorders. All together, 55/522 (10.5%) RHD cases harbored 34 distinct known genomic disorders, which were detected in only 0.2% of 13,839 population controls (p = 1.2 × 10^-58). Another 32 (6.1%) RHD cases harbored large gene-disrupting CNVs that were absent from or extremely rare in the 13,839 population controls, identifying 38 potential novel or rare genomic disorders for this trait. Deletions at the HNF1B locus and the DiGeorge/velocardiofacial locus were most frequent. However, the majority of disorders were detected in a single individual. Genomic disorders were detected in 22.5% of individuals with multiple malformations and 14.5% of individuals with isolated urinary-tract defects; 14 individuals harbored two or more diagnostic or rare CNVs. Strikingly, the majority of the known CNV disorders detected in the RHD cohort have previous associations with developmental delay or neuropsychiatric diseases. Up to 16.6% of individuals with kidney malformations had a molecular diagnosis attributable to a copy-number disorder, suggesting kidney malformations as a sentinel manifestation of pathogenic genomic imbalances. A search for pathogenic CNVs should be considered in this population for the diagnosis of their specific genomic disorders and for the evaluation of the potential for developmental delay.

Original language	English
Pages (from-to)	987-997
Number of pages	11
Journal	American Journal of Human Genetics
Volume	91
Issue number	6
DOIs	https://doi.org/10.1016/j.ajhg.2012.10.007
State	Published - 7 Dec 2012
Externally published	Yes

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Sanna-Cherchi, S., Kiryluk, K., Burgess, K. E., Bodria, M., Sampson, M. G., Hadley, D., Nees, S. N., Verbitsky, M., Perry, B. J., Sterken, R., Lozanovski, V. J., Materna-Kiryluk, A., Barlassina, C., Kini, A., Corbani, V., Carrea, A., Somenzi, D., Murtas, C., Ristoska-Bojkovska, N., ... Gharavi, A. G. (2012). Copy-number disorders are a common cause of congenital kidney malformations. American Journal of Human Genetics, 91(6), 987-997. https://doi.org/10.1016/j.ajhg.2012.10.007

@article{648878274ba040ad963e5e6c7c39b7d1,

title = "Copy-number disorders are a common cause of congenital kidney malformations",

abstract = "We examined the burden of large, rare, copy-number variants (CNVs) in 192 individuals with renal hypodysplasia (RHD) and replicated findings in 330 RHD cases from two independent cohorts. CNV distribution was significantly skewed toward larger gene-disrupting events in RHD cases compared to 4,733 ethnicity-matched controls (p = 4.8 × 10-11). This excess was attributable to known and novel (i.e., not present in any database or in the literature) genomic disorders. All together, 55/522 (10.5%) RHD cases harbored 34 distinct known genomic disorders, which were detected in only 0.2% of 13,839 population controls (p = 1.2 × 10-58). Another 32 (6.1%) RHD cases harbored large gene-disrupting CNVs that were absent from or extremely rare in the 13,839 population controls, identifying 38 potential novel or rare genomic disorders for this trait. Deletions at the HNF1B locus and the DiGeorge/velocardiofacial locus were most frequent. However, the majority of disorders were detected in a single individual. Genomic disorders were detected in 22.5% of individuals with multiple malformations and 14.5% of individuals with isolated urinary-tract defects; 14 individuals harbored two or more diagnostic or rare CNVs. Strikingly, the majority of the known CNV disorders detected in the RHD cohort have previous associations with developmental delay or neuropsychiatric diseases. Up to 16.6% of individuals with kidney malformations had a molecular diagnosis attributable to a copy-number disorder, suggesting kidney malformations as a sentinel manifestation of pathogenic genomic imbalances. A search for pathogenic CNVs should be considered in this population for the diagnosis of their specific genomic disorders and for the evaluation of the potential for developmental delay.",

author = "Simone Sanna-Cherchi and Krzysztof Kiryluk and Burgess, {Katelyn E.} and Monica Bodria and Sampson, {Matthew G.} and Dexter Hadley and Nees, {Shannon N.} and Miguel Verbitsky and Perry, {Brittany J.} and Roel Sterken and Lozanovski, {Vladimir J.} and Anna Materna-Kiryluk and Cristina Barlassina and Akshata Kini and Valentina Corbani and Alba Carrea and Danio Somenzi and Corrado Murtas and Nadica Ristoska-Bojkovska and Claudia Izzi and Beatrice Bianco and Marcin Zaniew and Hana Flogelova and Weng, {Patricia L.} and Nilgun Kacak and Stefania Giberti and Maddalena Gigante and Adela Arapovic and Kristina Drnasin and Gianluca Caridi and Simona Curioni and Franca Allegri and Anita Ammenti and Stefania Ferretti and Vinicio Goj and Luca Bernardo and Vaidehi Jobanputra and Chung, {Wendy K.} and Lifton, {Richard P.} and Stephan Sanders and Matthew State and Clark, {Lorraine N.} and Marijan Saraga and Sandosh Padmanabhan and Dominiczak, {Anna F.} and Tatiana Foroud and Loreto Gesualdo and Zoran Gucev and Landino Allegri and Anna Latos-Bielenska and Daniele Cusi and Francesco Scolari and Velibor Tasic and Hakon Hakonarson and Ghiggeri, {Gian Marco} and Gharavi, {Ali G.}",

note = "Funding Information: We thank all patients and family members for their participation. This study was supported by 1R01DK080099 (A.G.G.) and Italian Telethon Foundation grant GGP08050 (G.M.G.). S.S.C. is supported by American Heart Association grant 0930151N and the American Society of Nephrology (ASN) Carl W. Gottschalk Research Scholar Grant. K.K. is supported by National Institute of Diabetes and Digestive and Kidney Diseases K23-DK090207. G.M.G. is supported by the Fondazione Malattie Renali nel Bambino. S.N.N. is supported by the ASN and Doris Duke Charitable Foundation. A.M.K., A.L.B., and The Polish Registry of Congenital Malformations are supported by the Polish Ministry of Health. We thank the HYPERGENES Consortium (HEALTH-F4-2007-201550; INTEROMICS: MIUR-CNR Italian Flagship Project) for sharing genotyping data. L.N.C. is supported by National Institutes of Health grants NS050487 and NS060113 and the Parkinson{\textquoteright}s Disease Foundation. The Glasgow-Malmo Hypertension study was funded by the British Heart Foundation (BHF) Chair CH/98001 (A.F.D.), the BHF program RG/07/005/23633 (A.F.D. and S.P.), the BHF Special Project grant SP/08/005/25115 (A.F.D. and S.P.), and the European Community Framework 6 Network of Excellence InGenious HyperCare. The Children{\textquoteright}s Hospital of Philadelphia (CHOP) Control Copy Number Variation dataset was supplied by the Center for Applied Genomics at CHOP through dbGaP accession number phs000199.v1.p1. The Genetic Consortium for Late Onset Alzheimer{\textquoteright}s Disease was provided through the Division of Neuroscience at the National Institute on Aging through dbGaP accession number phs000168.v1.p1. This study used DECHIPER-generated data, provided by the Wellcome Trust. A full list of contributing centers is available at http://decipher.sanger.ac.uk or by email to [email protected] . ",

year = "2012",

month = dec,

day = "7",

doi = "10.1016/j.ajhg.2012.10.007",

language = "English",

volume = "91",

pages = "987--997",

journal = "American Journal of Human Genetics",

issn = "0002-9297",

publisher = "Cell Press",

number = "6",

}

Sanna-Cherchi, S, Kiryluk, K, Burgess, KE, Bodria, M, Sampson, MG, Hadley, D, Nees, SN, Verbitsky, M, Perry, BJ, Sterken, R, Lozanovski, VJ, Materna-Kiryluk, A, Barlassina, C, Kini, A, Corbani, V, Carrea, A, Somenzi, D, Murtas, C, Ristoska-Bojkovska, N, Izzi, C, Bianco, B, Zaniew, M, Flogelova, H, Weng, PL, Kacak, N, Giberti, S, Gigante, M, Arapovic, A, Drnasin, K, Caridi, G, Curioni, S, Allegri, F, Ammenti, A, Ferretti, S, Goj, V, Bernardo, L, Jobanputra, V, Chung, WK, Lifton, RP, Sanders, S, State, M, Clark, LN, Saraga, M, Padmanabhan, S, Dominiczak, AF, Foroud, T, Gesualdo, L, Gucev, Z, Allegri, L, Latos-Bielenska, A, Cusi, D, Scolari, F, Tasic, V, Hakonarson, H, Ghiggeri, GM & Gharavi, AG 2012, 'Copy-number disorders are a common cause of congenital kidney malformations', American Journal of Human Genetics, vol. 91, no. 6, pp. 987-997. https://doi.org/10.1016/j.ajhg.2012.10.007

TY - JOUR

T1 - Copy-number disorders are a common cause of congenital kidney malformations

AU - Sanna-Cherchi, Simone

AU - Kiryluk, Krzysztof

AU - Burgess, Katelyn E.

AU - Bodria, Monica

AU - Sampson, Matthew G.

AU - Hadley, Dexter

AU - Nees, Shannon N.

AU - Verbitsky, Miguel

AU - Perry, Brittany J.

AU - Sterken, Roel

AU - Lozanovski, Vladimir J.

AU - Materna-Kiryluk, Anna

AU - Barlassina, Cristina

AU - Kini, Akshata

AU - Corbani, Valentina

AU - Carrea, Alba

AU - Somenzi, Danio

AU - Murtas, Corrado

AU - Ristoska-Bojkovska, Nadica

AU - Izzi, Claudia

AU - Bianco, Beatrice

AU - Zaniew, Marcin

AU - Flogelova, Hana

AU - Weng, Patricia L.

AU - Kacak, Nilgun

AU - Giberti, Stefania

AU - Gigante, Maddalena

AU - Arapovic, Adela

AU - Drnasin, Kristina

AU - Caridi, Gianluca

AU - Curioni, Simona

AU - Allegri, Franca

AU - Ammenti, Anita

AU - Ferretti, Stefania

AU - Goj, Vinicio

AU - Bernardo, Luca

AU - Jobanputra, Vaidehi

AU - Chung, Wendy K.

AU - Lifton, Richard P.

AU - Sanders, Stephan

AU - State, Matthew

AU - Clark, Lorraine N.

AU - Saraga, Marijan

AU - Padmanabhan, Sandosh

AU - Dominiczak, Anna F.

AU - Foroud, Tatiana

AU - Gesualdo, Loreto

AU - Gucev, Zoran

AU - Allegri, Landino

AU - Latos-Bielenska, Anna

AU - Cusi, Daniele

AU - Scolari, Francesco

AU - Tasic, Velibor

AU - Hakonarson, Hakon

AU - Ghiggeri, Gian Marco

AU - Gharavi, Ali G.

N1 - Funding Information: We thank all patients and family members for their participation. This study was supported by 1R01DK080099 (A.G.G.) and Italian Telethon Foundation grant GGP08050 (G.M.G.). S.S.C. is supported by American Heart Association grant 0930151N and the American Society of Nephrology (ASN) Carl W. Gottschalk Research Scholar Grant. K.K. is supported by National Institute of Diabetes and Digestive and Kidney Diseases K23-DK090207. G.M.G. is supported by the Fondazione Malattie Renali nel Bambino. S.N.N. is supported by the ASN and Doris Duke Charitable Foundation. A.M.K., A.L.B., and The Polish Registry of Congenital Malformations are supported by the Polish Ministry of Health. We thank the HYPERGENES Consortium (HEALTH-F4-2007-201550; INTEROMICS: MIUR-CNR Italian Flagship Project) for sharing genotyping data. L.N.C. is supported by National Institutes of Health grants NS050487 and NS060113 and the Parkinson’s Disease Foundation. The Glasgow-Malmo Hypertension study was funded by the British Heart Foundation (BHF) Chair CH/98001 (A.F.D.), the BHF program RG/07/005/23633 (A.F.D. and S.P.), the BHF Special Project grant SP/08/005/25115 (A.F.D. and S.P.), and the European Community Framework 6 Network of Excellence InGenious HyperCare. The Children’s Hospital of Philadelphia (CHOP) Control Copy Number Variation dataset was supplied by the Center for Applied Genomics at CHOP through dbGaP accession number phs000199.v1.p1. The Genetic Consortium for Late Onset Alzheimer’s Disease was provided through the Division of Neuroscience at the National Institute on Aging through dbGaP accession number phs000168.v1.p1. This study used DECHIPER-generated data, provided by the Wellcome Trust. A full list of contributing centers is available at http://decipher.sanger.ac.uk or by email to [email protected] .

PY - 2012/12/7

Y1 - 2012/12/7

N2 - We examined the burden of large, rare, copy-number variants (CNVs) in 192 individuals with renal hypodysplasia (RHD) and replicated findings in 330 RHD cases from two independent cohorts. CNV distribution was significantly skewed toward larger gene-disrupting events in RHD cases compared to 4,733 ethnicity-matched controls (p = 4.8 × 10-11). This excess was attributable to known and novel (i.e., not present in any database or in the literature) genomic disorders. All together, 55/522 (10.5%) RHD cases harbored 34 distinct known genomic disorders, which were detected in only 0.2% of 13,839 population controls (p = 1.2 × 10-58). Another 32 (6.1%) RHD cases harbored large gene-disrupting CNVs that were absent from or extremely rare in the 13,839 population controls, identifying 38 potential novel or rare genomic disorders for this trait. Deletions at the HNF1B locus and the DiGeorge/velocardiofacial locus were most frequent. However, the majority of disorders were detected in a single individual. Genomic disorders were detected in 22.5% of individuals with multiple malformations and 14.5% of individuals with isolated urinary-tract defects; 14 individuals harbored two or more diagnostic or rare CNVs. Strikingly, the majority of the known CNV disorders detected in the RHD cohort have previous associations with developmental delay or neuropsychiatric diseases. Up to 16.6% of individuals with kidney malformations had a molecular diagnosis attributable to a copy-number disorder, suggesting kidney malformations as a sentinel manifestation of pathogenic genomic imbalances. A search for pathogenic CNVs should be considered in this population for the diagnosis of their specific genomic disorders and for the evaluation of the potential for developmental delay.

AB - We examined the burden of large, rare, copy-number variants (CNVs) in 192 individuals with renal hypodysplasia (RHD) and replicated findings in 330 RHD cases from two independent cohorts. CNV distribution was significantly skewed toward larger gene-disrupting events in RHD cases compared to 4,733 ethnicity-matched controls (p = 4.8 × 10-11). This excess was attributable to known and novel (i.e., not present in any database or in the literature) genomic disorders. All together, 55/522 (10.5%) RHD cases harbored 34 distinct known genomic disorders, which were detected in only 0.2% of 13,839 population controls (p = 1.2 × 10-58). Another 32 (6.1%) RHD cases harbored large gene-disrupting CNVs that were absent from or extremely rare in the 13,839 population controls, identifying 38 potential novel or rare genomic disorders for this trait. Deletions at the HNF1B locus and the DiGeorge/velocardiofacial locus were most frequent. However, the majority of disorders were detected in a single individual. Genomic disorders were detected in 22.5% of individuals with multiple malformations and 14.5% of individuals with isolated urinary-tract defects; 14 individuals harbored two or more diagnostic or rare CNVs. Strikingly, the majority of the known CNV disorders detected in the RHD cohort have previous associations with developmental delay or neuropsychiatric diseases. Up to 16.6% of individuals with kidney malformations had a molecular diagnosis attributable to a copy-number disorder, suggesting kidney malformations as a sentinel manifestation of pathogenic genomic imbalances. A search for pathogenic CNVs should be considered in this population for the diagnosis of their specific genomic disorders and for the evaluation of the potential for developmental delay.

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U2 - 10.1016/j.ajhg.2012.10.007

DO - 10.1016/j.ajhg.2012.10.007

M3 - Article

C2 - 23159250

AN - SCOPUS:84870891672

SN - 0002-9297

VL - 91

SP - 987

EP - 997

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

IS - 6

ER -

Copy-number disorders are a common cause of congenital kidney malformations

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