A genotype-first approach identifies an intellectual disability-overweight syndrome caused by PHIP haploinsufficiency

Sandra Jansen; Alexander Hoischen; Bradley P Coe; Gemma L Carvill; Hilde Van Esch; Daniëlle G M Bosch; Ulla A Andersen; Carl Baker; Marijke Bauters; Raphael A Bernier; Bregje W van Bon; Hedi L Claahsen-van der Grinten; Jozef Gecz; Christian Gilissen; Lucia Grillo; Anna Hackett; Tjitske Kleefstra; David Koolen; Malin Kvarnung; Martin J Larsen; Carlo Marcelis; Fiona McKenzie; Marie-Lorraine Monin; Caroline Nava; Janneke H Schuurs-Hoeijmakers; Rolph Pfundt; Marloes Steehouwer; Servi J C Stevens; Connie T Stumpel; Fleur Vansenne; Mirella Vinci; Maartje van de Vorst; Petra de Vries; Kali Witherspoon; Joris A Veltman; Han G Brunner; Heather C Mefford; Corrado Romano; Lisenka E L M Vissers; Evan E Eichler; Bert B A de Vries

doi:10.1038/s41431-017-0039-5

A genotype-first approach identifies an intellectual disability-overweight syndrome caused by PHIP haploinsufficiency

Sandra Jansen, Alexander Hoischen, Bradley P Coe, Gemma L Carvill, Hilde Van Esch, Daniëlle G M Bosch, Ulla A Andersen, Carl Baker, Marijke Bauters, Raphael A Bernier, Bregje W van Bon, Hedi L Claahsen-van der Grinten, Jozef Gecz, Christian Gilissen, Lucia Grillo, Anna Hackett, Tjitske Kleefstra, David Koolen, Malin Kvarnung, Martin J LarsenCarlo Marcelis, Fiona McKenzie, Marie-Lorraine Monin, Caroline Nava, Janneke H Schuurs-Hoeijmakers, Rolph Pfundt, Marloes Steehouwer, Servi J C Stevens, Connie T Stumpel, Fleur Vansenne, Mirella Vinci, Maartje van de Vorst, Petra de Vries, Kali Witherspoon, Joris A Veltman, Han G Brunner, Heather C Mefford, Corrado Romano, Lisenka E L M Vissers, Evan E Eichler, Bert B A de Vries

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

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Abstract

Genotype-first combined with reverse phenotyping has shown to be a powerful tool in human genetics, especially in the era of next generation sequencing. This combines the identification of individuals with mutations in the same gene and linking these to consistent (endo)phenotypes to establish disease causality. We have performed a MIP (molecular inversion probe)-based targeted re-sequencing study in 3,275 individuals with intellectual disability (ID) to facilitate a genotype-first approach for 24 genes previously implicated in ID.Combining our data with data from a publicly available database, we confirmed 11 of these 24 genes to be relevant for ID. Amongst these, PHIP was shown to have an enrichment of disruptive mutations in the individuals with ID (5 out of 3,275). Through international collaboration, we identified a total of 23 individuals with PHIP mutations and elucidated the associated phenotype. Remarkably, all 23 individuals had developmental delay/ID and the majority were overweight or obese. Other features comprised behavioral problems (hyperactivity, aggression, features of autism and/or mood disorder) and dysmorphisms (full eyebrows and/or synophrys, upturned nose, large ears and tapering fingers). Interestingly, PHIP encodes two protein-isoforms, PHIP/DCAF14 and NDRP, each involved in neurodevelopmental processes, including E3 ubiquitination and neuronal differentiation. Detailed genotype-phenotype analysis points towards haploinsufficiency of PHIP/DCAF14, and not NDRP, as the underlying cause of the phenotype.Thus, we demonstrated the use of large scale re-sequencing by MIPs, followed by reverse phenotyping, as a constructive approach to verify candidate disease genes and identify novel syndromes, highlighted by PHIP haploinsufficiency causing an ID-overweight syndrome.

Originalsprog	Engelsk
Tidsskrift	European Journal of Human Genetics
Vol/bind	26
Udgave nummer	1
Sider (fra-til)	54–63
ISSN	1018-4813
DOI	https://doi.org/10.1038/s41431-017-0039-5
Status	Udgivet - jan. 2018

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10.1038/s41431-017-0039-5Licens: CC BY

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Citationsformater

Jansen, S., Hoischen, A., Coe, B. P., Carvill, G. L., Van Esch, H., Bosch, D. G. M., Andersen, U. A., Baker, C., Bauters, M., Bernier, R. A., van Bon, B. W., Claahsen-van der Grinten, H. L., Gecz, J., Gilissen, C., Grillo, L., Hackett, A., Kleefstra, T., Koolen, D., Kvarnung, M., ... de Vries, B. B. A. (2018). A genotype-first approach identifies an intellectual disability-overweight syndrome caused by PHIP haploinsufficiency. European Journal of Human Genetics, 26(1), 54–63. https://doi.org/10.1038/s41431-017-0039-5

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title = "A genotype-first approach identifies an intellectual disability-overweight syndrome caused by PHIP haploinsufficiency",

abstract = "Genotype-first combined with reverse phenotyping has shown to be a powerful tool in human genetics, especially in the era of next generation sequencing. This combines the identification of individuals with mutations in the same gene and linking these to consistent (endo)phenotypes to establish disease causality. We have performed a MIP (molecular inversion probe)-based targeted re-sequencing study in 3,275 individuals with intellectual disability (ID) to facilitate a genotype-first approach for 24 genes previously implicated in ID.Combining our data with data from a publicly available database, we confirmed 11 of these 24 genes to be relevant for ID. Amongst these, PHIP was shown to have an enrichment of disruptive mutations in the individuals with ID (5 out of 3,275). Through international collaboration, we identified a total of 23 individuals with PHIP mutations and elucidated the associated phenotype. Remarkably, all 23 individuals had developmental delay/ID and the majority were overweight or obese. Other features comprised behavioral problems (hyperactivity, aggression, features of autism and/or mood disorder) and dysmorphisms (full eyebrows and/or synophrys, upturned nose, large ears and tapering fingers). Interestingly, PHIP encodes two protein-isoforms, PHIP/DCAF14 and NDRP, each involved in neurodevelopmental processes, including E3 ubiquitination and neuronal differentiation. Detailed genotype-phenotype analysis points towards haploinsufficiency of PHIP/DCAF14, and not NDRP, as the underlying cause of the phenotype.Thus, we demonstrated the use of large scale re-sequencing by MIPs, followed by reverse phenotyping, as a constructive approach to verify candidate disease genes and identify novel syndromes, highlighted by PHIP haploinsufficiency causing an ID-overweight syndrome.",

keywords = "Adolescent, Adult, Child, Female, Genetic Testing/methods, Genotype, Haploinsufficiency, Humans, Intellectual Disability/genetics, Intracellular Signaling Peptides and Proteins/genetics, Male, Overweight/genetics, Reproducibility of Results, Sequence Analysis, DNA/methods, Syndrome",

author = "Sandra Jansen and Alexander Hoischen and Coe, \{Bradley P\} and Carvill, \{Gemma L\} and \{Van Esch\}, Hilde and Bosch, \{Dani{\"e}lle G M\} and Andersen, \{Ulla A\} and Carl Baker and Marijke Bauters and Bernier, \{Raphael A\} and \{van Bon\}, \{Bregje W\} and \{Claahsen-van der Grinten\}, \{Hedi L\} and Jozef Gecz and Christian Gilissen and Lucia Grillo and Anna Hackett and Tjitske Kleefstra and David Koolen and Malin Kvarnung and Larsen, \{Martin J\} and Carlo Marcelis and Fiona McKenzie and Marie-Lorraine Monin and Caroline Nava and Schuurs-Hoeijmakers, \{Janneke H\} and Rolph Pfundt and Marloes Steehouwer and Stevens, \{Servi J C\} and Stumpel, \{Connie T\} and Fleur Vansenne and Mirella Vinci and \{van de Vorst\}, Maartje and Vries, \{Petra de\} and Kali Witherspoon and Veltman, \{Joris A\} and Brunner, \{Han G\} and Mefford, \{Heather C\} and Corrado Romano and Vissers, \{Lisenka E L M\} and Eichler, \{Evan E\} and \{de Vries\}, \{Bert B A\}",

year = "2018",

month = jan,

doi = "10.1038/s41431-017-0039-5",

language = "English",

volume = "26",

pages = "54–63",

journal = "European Journal of Human Genetics",

issn = "1018-4813",

publisher = "Springer",

number = "1",

}

Jansen, S, Hoischen, A, Coe, BP, Carvill, GL, Van Esch, H, Bosch, DGM, Andersen, UA, Baker, C, Bauters, M, Bernier, RA, van Bon, BW, Claahsen-van der Grinten, HL, Gecz, J, Gilissen, C, Grillo, L, Hackett, A, Kleefstra, T, Koolen, D, Kvarnung, M, Larsen, MJ, Marcelis, C, McKenzie, F, Monin, M-L, Nava, C, Schuurs-Hoeijmakers, JH, Pfundt, R, Steehouwer, M, Stevens, SJC, Stumpel, CT, Vansenne, F, Vinci, M, van de Vorst, M, Vries, PD, Witherspoon, K, Veltman, JA, Brunner, HG, Mefford, HC, Romano, C, Vissers, LELM, Eichler, EE & de Vries, BBA 2018, 'A genotype-first approach identifies an intellectual disability-overweight syndrome caused by PHIP haploinsufficiency', European Journal of Human Genetics, bind 26, nr. 1, s. 54–63. https://doi.org/10.1038/s41431-017-0039-5

TY - JOUR

T1 - A genotype-first approach identifies an intellectual disability-overweight syndrome caused by PHIP haploinsufficiency

AU - Jansen, Sandra

AU - Hoischen, Alexander

AU - Coe, Bradley P

AU - Carvill, Gemma L

AU - Van Esch, Hilde

AU - Bosch, Daniëlle G M

AU - Andersen, Ulla A

AU - Baker, Carl

AU - Bauters, Marijke

AU - Bernier, Raphael A

AU - van Bon, Bregje W

AU - Claahsen-van der Grinten, Hedi L

AU - Gecz, Jozef

AU - Gilissen, Christian

AU - Grillo, Lucia

AU - Hackett, Anna

AU - Kleefstra, Tjitske

AU - Koolen, David

AU - Kvarnung, Malin

AU - Larsen, Martin J

AU - Marcelis, Carlo

AU - McKenzie, Fiona

AU - Monin, Marie-Lorraine

AU - Nava, Caroline

AU - Schuurs-Hoeijmakers, Janneke H

AU - Pfundt, Rolph

AU - Steehouwer, Marloes

AU - Stevens, Servi J C

AU - Stumpel, Connie T

AU - Vansenne, Fleur

AU - Vinci, Mirella

AU - van de Vorst, Maartje

AU - Vries, Petra de

AU - Witherspoon, Kali

AU - Veltman, Joris A

AU - Brunner, Han G

AU - Mefford, Heather C

AU - Romano, Corrado

AU - Vissers, Lisenka E L M

AU - Eichler, Evan E

AU - de Vries, Bert B A

PY - 2018/1

Y1 - 2018/1

N2 - Genotype-first combined with reverse phenotyping has shown to be a powerful tool in human genetics, especially in the era of next generation sequencing. This combines the identification of individuals with mutations in the same gene and linking these to consistent (endo)phenotypes to establish disease causality. We have performed a MIP (molecular inversion probe)-based targeted re-sequencing study in 3,275 individuals with intellectual disability (ID) to facilitate a genotype-first approach for 24 genes previously implicated in ID.Combining our data with data from a publicly available database, we confirmed 11 of these 24 genes to be relevant for ID. Amongst these, PHIP was shown to have an enrichment of disruptive mutations in the individuals with ID (5 out of 3,275). Through international collaboration, we identified a total of 23 individuals with PHIP mutations and elucidated the associated phenotype. Remarkably, all 23 individuals had developmental delay/ID and the majority were overweight or obese. Other features comprised behavioral problems (hyperactivity, aggression, features of autism and/or mood disorder) and dysmorphisms (full eyebrows and/or synophrys, upturned nose, large ears and tapering fingers). Interestingly, PHIP encodes two protein-isoforms, PHIP/DCAF14 and NDRP, each involved in neurodevelopmental processes, including E3 ubiquitination and neuronal differentiation. Detailed genotype-phenotype analysis points towards haploinsufficiency of PHIP/DCAF14, and not NDRP, as the underlying cause of the phenotype.Thus, we demonstrated the use of large scale re-sequencing by MIPs, followed by reverse phenotyping, as a constructive approach to verify candidate disease genes and identify novel syndromes, highlighted by PHIP haploinsufficiency causing an ID-overweight syndrome.

AB - Genotype-first combined with reverse phenotyping has shown to be a powerful tool in human genetics, especially in the era of next generation sequencing. This combines the identification of individuals with mutations in the same gene and linking these to consistent (endo)phenotypes to establish disease causality. We have performed a MIP (molecular inversion probe)-based targeted re-sequencing study in 3,275 individuals with intellectual disability (ID) to facilitate a genotype-first approach for 24 genes previously implicated in ID.Combining our data with data from a publicly available database, we confirmed 11 of these 24 genes to be relevant for ID. Amongst these, PHIP was shown to have an enrichment of disruptive mutations in the individuals with ID (5 out of 3,275). Through international collaboration, we identified a total of 23 individuals with PHIP mutations and elucidated the associated phenotype. Remarkably, all 23 individuals had developmental delay/ID and the majority were overweight or obese. Other features comprised behavioral problems (hyperactivity, aggression, features of autism and/or mood disorder) and dysmorphisms (full eyebrows and/or synophrys, upturned nose, large ears and tapering fingers). Interestingly, PHIP encodes two protein-isoforms, PHIP/DCAF14 and NDRP, each involved in neurodevelopmental processes, including E3 ubiquitination and neuronal differentiation. Detailed genotype-phenotype analysis points towards haploinsufficiency of PHIP/DCAF14, and not NDRP, as the underlying cause of the phenotype.Thus, we demonstrated the use of large scale re-sequencing by MIPs, followed by reverse phenotyping, as a constructive approach to verify candidate disease genes and identify novel syndromes, highlighted by PHIP haploinsufficiency causing an ID-overweight syndrome.

KW - Adolescent

KW - Adult

KW - Child

KW - Female

KW - Genetic Testing/methods

KW - Genotype

KW - Haploinsufficiency

KW - Humans

KW - Intellectual Disability/genetics

KW - Intracellular Signaling Peptides and Proteins/genetics

KW - Male

KW - Overweight/genetics

KW - Reproducibility of Results

KW - Sequence Analysis, DNA/methods

KW - Syndrome

U2 - 10.1038/s41431-017-0039-5

DO - 10.1038/s41431-017-0039-5

M3 - Journal article

C2 - 29209020

SN - 1018-4813

VL - 26

SP - 54

EP - 63

JO - European Journal of Human Genetics

JF - European Journal of Human Genetics

IS - 1

ER -

A genotype-first approach identifies an intellectual disability-overweight syndrome caused by PHIP haploinsufficiency

Abstract

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