ZC4H2 mutations are associated with arthrogryposis multiplex congenita and intellectual disability through impairment of central and peripheral synaptic plasticity

Hiromi Hirata; Indrajit Nanda; Anne van Riesen; Gai McMichael; Hao Hu; Melanie Hambrock; Marie-Amélie Papon; Ute Fischer; Sylviane Marouillat; Can Ding; Servane Alirol; Melanie Bienek; Sabine Preisler-Adams; Astrid Grimme; Dominik Seelow; Richard Webster; Eric Haan; Alastair MacLennan; Werner Stenzel; Tzu Ying Yap; Alison Gardner; Lam Son Nguyen; Marie Shaw; Nicolas Lebrun; Stefan A. Haas; Wolfram Kress; Thomas Haaf; Elke Schellenberger; Jamel Chelly; Géraldine Viot; Lisa G. Shaffer; Jill A. Rosenfeld; Nancy Kramer; Rena Falk; Dima El-Khechen; Luis F. Escobar; Raoul Hennekam; Peter Wieacker; Christoph Hübner; Hans-Hilger Ropers; Jozef Gecz; Markus Schuelke; Frédéric Laumonnier; Vera M. Kalscheuer

doi:https://doi.org/10.1016/j.ajhg.2013.03.021

ZC4H2 mutations are associated with arthrogryposis multiplex congenita and intellectual disability through impairment of central and peripheral synaptic plasticity

Hiromi Hirata, Indrajit Nanda, Anne van Riesen, Gai McMichael, Hao Hu, Melanie Hambrock, Marie-Amélie Papon, Ute Fischer, Sylviane Marouillat, Can Ding, Servane Alirol, Melanie Bienek, Sabine Preisler-Adams, Astrid Grimme, Dominik Seelow, Richard Webster, Eric Haan, Alastair MacLennan, Werner Stenzel, Tzu Ying YapAlison Gardner, Lam Son Nguyen, Marie Shaw, Nicolas Lebrun, Stefan A. Haas, Wolfram Kress, Thomas Haaf, Elke Schellenberger, Jamel Chelly, Géraldine Viot, Lisa G. Shaffer, Jill A. Rosenfeld, Nancy Kramer, Rena Falk, Dima El-Khechen, Luis F. Escobar, Raoul Hennekam, Peter Wieacker, Christoph Hübner, Hans-Hilger Ropers, Jozef Gecz, Markus Schuelke, Frédéric Laumonnier, Vera M. Kalscheuer

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

61 Citations (Scopus)

Abstract

Arthrogryposis multiplex congenita (AMC) is caused by heterogeneous pathologies leading to multiple antenatal joint contractures through fetal akinesia. Understanding the pathophysiology of this disorder is important for clinical care of the affected individuals and genetic counseling of the families. We thus aimed to establish the genetic basis of an AMC subtype that is associated with multiple dysmorphic features and intellectual disability (ID). We used haplotype analysis, next-generation sequencing, array comparative genomic hybridization, and chromosome breakpoint mapping to identify the pathogenic mutations in families and simplex cases. Suspected disease variants were verified by cosegregation analysis. We identified disease-causing mutations in the zinc-finger gene ZC4H2 in four families affected by X-linked AMC plus ID and one family affected by cerebral palsy. Several heterozygous females were also affected, but to a lesser degree. Furthermore, we found two ZC4H2 deletions and one rearrangement in two female and one male unrelated simplex cases, respectively. In mouse primary hippocampal neurons, transiently produced ZC4H2 localized to the postsynaptic compartment of excitatory synapses, and the altered protein influenced dendritic spine density. In zebrafish, antisense-morpholino-mediated zc4h2 knockdown caused abnormal swimming and impaired α-motoneuron development. All missense mutations identified herein failed to rescue the swimming defect of zebrafish morphants. We conclude that ZC4H2 point mutations, rearrangements, and small deletions cause a clinically variable broad-spectrum neurodevelopmental disorder of the central and peripheral nervous systems in both familial and simplex cases of both sexes. Our results highlight the importance of ZC4H2 for genetic testing of individuals presenting with ID plus muscle weakness and minor or major forms of AMC

Original language	English
Pages (from-to)	681-695
Journal	American journal of human genetics
Volume	92
Issue number	5
DOIs	https://doi.org/10.1016/j.ajhg.2013.03.021
Publication status	Published - 2013

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https://doi.org/10.1016/j.ajhg.2013.03.021

Cite this

Hirata, H., Nanda, I., van Riesen, A., McMichael, G., Hu, H., Hambrock, M., Papon, M.-A., Fischer, U., Marouillat, S., Ding, C., Alirol, S., Bienek, M., Preisler-Adams, S., Grimme, A., Seelow, D., Webster, R., Haan, E., MacLennan, A., Stenzel, W., ... Kalscheuer, V. M. (2013). ZC4H2 mutations are associated with arthrogryposis multiplex congenita and intellectual disability through impairment of central and peripheral synaptic plasticity. American journal of human genetics, 92(5), 681-695. https://doi.org/10.1016/j.ajhg.2013.03.021

@article{6d0085e606704c118ccee74ae6a72c19,

title = "ZC4H2 mutations are associated with arthrogryposis multiplex congenita and intellectual disability through impairment of central and peripheral synaptic plasticity",

abstract = "Arthrogryposis multiplex congenita (AMC) is caused by heterogeneous pathologies leading to multiple antenatal joint contractures through fetal akinesia. Understanding the pathophysiology of this disorder is important for clinical care of the affected individuals and genetic counseling of the families. We thus aimed to establish the genetic basis of an AMC subtype that is associated with multiple dysmorphic features and intellectual disability (ID). We used haplotype analysis, next-generation sequencing, array comparative genomic hybridization, and chromosome breakpoint mapping to identify the pathogenic mutations in families and simplex cases. Suspected disease variants were verified by cosegregation analysis. We identified disease-causing mutations in the zinc-finger gene ZC4H2 in four families affected by X-linked AMC plus ID and one family affected by cerebral palsy. Several heterozygous females were also affected, but to a lesser degree. Furthermore, we found two ZC4H2 deletions and one rearrangement in two female and one male unrelated simplex cases, respectively. In mouse primary hippocampal neurons, transiently produced ZC4H2 localized to the postsynaptic compartment of excitatory synapses, and the altered protein influenced dendritic spine density. In zebrafish, antisense-morpholino-mediated zc4h2 knockdown caused abnormal swimming and impaired α-motoneuron development. All missense mutations identified herein failed to rescue the swimming defect of zebrafish morphants. We conclude that ZC4H2 point mutations, rearrangements, and small deletions cause a clinically variable broad-spectrum neurodevelopmental disorder of the central and peripheral nervous systems in both familial and simplex cases of both sexes. Our results highlight the importance of ZC4H2 for genetic testing of individuals presenting with ID plus muscle weakness and minor or major forms of AMC",

author = "Hiromi Hirata and Indrajit Nanda and {van Riesen}, Anne and Gai McMichael and Hao Hu and Melanie Hambrock and Marie-Am{\'e}lie Papon and Ute Fischer and Sylviane Marouillat and Can Ding and Servane Alirol and Melanie Bienek and Sabine Preisler-Adams and Astrid Grimme and Dominik Seelow and Richard Webster and Eric Haan and Alastair MacLennan and Werner Stenzel and Yap, {Tzu Ying} and Alison Gardner and Nguyen, {Lam Son} and Marie Shaw and Nicolas Lebrun and Haas, {Stefan A.} and Wolfram Kress and Thomas Haaf and Elke Schellenberger and Jamel Chelly and G{\'e}raldine Viot and Shaffer, {Lisa G.} and Rosenfeld, {Jill A.} and Nancy Kramer and Rena Falk and Dima El-Khechen and Escobar, {Luis F.} and Raoul Hennekam and Peter Wieacker and Christoph H{\"u}bner and Hans-Hilger Ropers and Jozef Gecz and Markus Schuelke and Fr{\'e}d{\'e}ric Laumonnier and Kalscheuer, {Vera M.}",

year = "2013",

doi = "https://doi.org/10.1016/j.ajhg.2013.03.021",

language = "English",

volume = "92",

pages = "681--695",

journal = "American journal of human genetics",

issn = "0002-9297",

publisher = "Cell Press",

number = "5",

}

Hirata, H, Nanda, I, van Riesen, A, McMichael, G, Hu, H, Hambrock, M, Papon, M-A, Fischer, U, Marouillat, S, Ding, C, Alirol, S, Bienek, M, Preisler-Adams, S, Grimme, A, Seelow, D, Webster, R, Haan, E, MacLennan, A, Stenzel, W, Yap, TY, Gardner, A, Nguyen, LS, Shaw, M, Lebrun, N, Haas, SA, Kress, W, Haaf, T, Schellenberger, E, Chelly, J, Viot, G, Shaffer, LG, Rosenfeld, JA, Kramer, N, Falk, R, El-Khechen, D, Escobar, LF, Hennekam, R, Wieacker, P, Hübner, C, Ropers, H-H, Gecz, J, Schuelke, M, Laumonnier, F & Kalscheuer, VM 2013, 'ZC4H2 mutations are associated with arthrogryposis multiplex congenita and intellectual disability through impairment of central and peripheral synaptic plasticity', American journal of human genetics, vol. 92, no. 5, pp. 681-695. https://doi.org/10.1016/j.ajhg.2013.03.021

ZC4H2 mutations are associated with arthrogryposis multiplex congenita and intellectual disability through impairment of central and peripheral synaptic plasticity. / Hirata, Hiromi; Nanda, Indrajit; van Riesen, Anne et al.
In: American journal of human genetics, Vol. 92, No. 5, 2013, p. 681-695.

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

TY - JOUR

T1 - ZC4H2 mutations are associated with arthrogryposis multiplex congenita and intellectual disability through impairment of central and peripheral synaptic plasticity

AU - Hirata, Hiromi

AU - Nanda, Indrajit

AU - van Riesen, Anne

AU - McMichael, Gai

AU - Hu, Hao

AU - Hambrock, Melanie

AU - Papon, Marie-Amélie

AU - Fischer, Ute

AU - Marouillat, Sylviane

AU - Ding, Can

AU - Alirol, Servane

AU - Bienek, Melanie

AU - Preisler-Adams, Sabine

AU - Grimme, Astrid

AU - Seelow, Dominik

AU - Webster, Richard

AU - Haan, Eric

AU - MacLennan, Alastair

AU - Stenzel, Werner

AU - Yap, Tzu Ying

AU - Gardner, Alison

AU - Nguyen, Lam Son

AU - Shaw, Marie

AU - Lebrun, Nicolas

AU - Haas, Stefan A.

AU - Kress, Wolfram

AU - Haaf, Thomas

AU - Schellenberger, Elke

AU - Chelly, Jamel

AU - Viot, Géraldine

AU - Shaffer, Lisa G.

AU - Rosenfeld, Jill A.

AU - Kramer, Nancy

AU - Falk, Rena

AU - El-Khechen, Dima

AU - Escobar, Luis F.

AU - Hennekam, Raoul

AU - Wieacker, Peter

AU - Hübner, Christoph

AU - Ropers, Hans-Hilger

AU - Gecz, Jozef

AU - Schuelke, Markus

AU - Laumonnier, Frédéric

AU - Kalscheuer, Vera M.

PY - 2013

Y1 - 2013

N2 - Arthrogryposis multiplex congenita (AMC) is caused by heterogeneous pathologies leading to multiple antenatal joint contractures through fetal akinesia. Understanding the pathophysiology of this disorder is important for clinical care of the affected individuals and genetic counseling of the families. We thus aimed to establish the genetic basis of an AMC subtype that is associated with multiple dysmorphic features and intellectual disability (ID). We used haplotype analysis, next-generation sequencing, array comparative genomic hybridization, and chromosome breakpoint mapping to identify the pathogenic mutations in families and simplex cases. Suspected disease variants were verified by cosegregation analysis. We identified disease-causing mutations in the zinc-finger gene ZC4H2 in four families affected by X-linked AMC plus ID and one family affected by cerebral palsy. Several heterozygous females were also affected, but to a lesser degree. Furthermore, we found two ZC4H2 deletions and one rearrangement in two female and one male unrelated simplex cases, respectively. In mouse primary hippocampal neurons, transiently produced ZC4H2 localized to the postsynaptic compartment of excitatory synapses, and the altered protein influenced dendritic spine density. In zebrafish, antisense-morpholino-mediated zc4h2 knockdown caused abnormal swimming and impaired α-motoneuron development. All missense mutations identified herein failed to rescue the swimming defect of zebrafish morphants. We conclude that ZC4H2 point mutations, rearrangements, and small deletions cause a clinically variable broad-spectrum neurodevelopmental disorder of the central and peripheral nervous systems in both familial and simplex cases of both sexes. Our results highlight the importance of ZC4H2 for genetic testing of individuals presenting with ID plus muscle weakness and minor or major forms of AMC

AB - Arthrogryposis multiplex congenita (AMC) is caused by heterogeneous pathologies leading to multiple antenatal joint contractures through fetal akinesia. Understanding the pathophysiology of this disorder is important for clinical care of the affected individuals and genetic counseling of the families. We thus aimed to establish the genetic basis of an AMC subtype that is associated with multiple dysmorphic features and intellectual disability (ID). We used haplotype analysis, next-generation sequencing, array comparative genomic hybridization, and chromosome breakpoint mapping to identify the pathogenic mutations in families and simplex cases. Suspected disease variants were verified by cosegregation analysis. We identified disease-causing mutations in the zinc-finger gene ZC4H2 in four families affected by X-linked AMC plus ID and one family affected by cerebral palsy. Several heterozygous females were also affected, but to a lesser degree. Furthermore, we found two ZC4H2 deletions and one rearrangement in two female and one male unrelated simplex cases, respectively. In mouse primary hippocampal neurons, transiently produced ZC4H2 localized to the postsynaptic compartment of excitatory synapses, and the altered protein influenced dendritic spine density. In zebrafish, antisense-morpholino-mediated zc4h2 knockdown caused abnormal swimming and impaired α-motoneuron development. All missense mutations identified herein failed to rescue the swimming defect of zebrafish morphants. We conclude that ZC4H2 point mutations, rearrangements, and small deletions cause a clinically variable broad-spectrum neurodevelopmental disorder of the central and peripheral nervous systems in both familial and simplex cases of both sexes. Our results highlight the importance of ZC4H2 for genetic testing of individuals presenting with ID plus muscle weakness and minor or major forms of AMC

U2 - https://doi.org/10.1016/j.ajhg.2013.03.021

DO - https://doi.org/10.1016/j.ajhg.2013.03.021

M3 - Article

C2 - 23623388

SN - 0002-9297

VL - 92

SP - 681

EP - 695

JO - American journal of human genetics

JF - American journal of human genetics

IS - 5

ER -