WNT Signaling Perturbations Underlie the Genetic Heterogeneity of Robinow Syndrome

Janson J. White; Juliana F. Mazzeu; Zeynep Coban-Akdemir; Yavuz Bayram; Vahid Bahrambeigi; Alexander Hoischen; Bregje W. M. van Bon; Alper Gezdirici; Elif Yilmaz Gulec; Francis Ramond; Renaud Touraine; Julien Thevenon; Marwan Shinawi; Erin Beaver; Jennifer Heeley; Julie Hoover-Fong; Ceren D. Durmaz; Halil Gurhan Karabulut; Ebru Marzioglu-Ozdemir; Atilla Cayir; Mehmet B. Duz; Mehmet Seven; Susan Price; Barbara Merfort Ferreira; Angela M. Vianna-Morgante; Sian Ellard; Andrew Parrish; Karen Stals; Josue Flores-Daboub; Shalini N. Jhangiani; Richard A. Gibbs; Han G. Brunner; V. Reid Sutton; James R. Lupski; Claudia M. B. Carvalho; Baylor-Hopkins Ctr Mendelian

doi:10.1016/j.ajhg.2017.10.002

WNT Signaling Perturbations Underlie the Genetic Heterogeneity of Robinow Syndrome

Janson J. White, Juliana F. Mazzeu, Zeynep Coban-Akdemir, Yavuz Bayram, Vahid Bahrambeigi, Alexander Hoischen, Bregje W. M. van Bon, Alper Gezdirici, Elif Yilmaz Gulec, Francis Ramond, Renaud Touraine, Julien Thevenon, Marwan Shinawi, Erin Beaver, Jennifer Heeley, Julie Hoover-Fong, Ceren D. Durmaz, Halil Gurhan Karabulut, Ebru Marzioglu-Ozdemir, Atilla CayirMehmet B. Duz, Mehmet Seven, Susan Price, Barbara Merfort Ferreira, Angela M. Vianna-Morgante, Sian Ellard, Andrew Parrish, Karen Stals, Josue Flores-Daboub, Shalini N. Jhangiani, Richard A. Gibbs, Han G. Brunner, V. Reid Sutton, James R. Lupski, Claudia M. B. Carvalho^*, Baylor-Hopkins Ctr Mendelian

^*Corresponding author for this work

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

Abstract

Locus heterogeneity characterizes a variety of skeletal dysplasias often due to interacting or overlapping signaling pathways. Robinow syndrome is a skeletal disorder historically refractory to molecular diagnosis, potentially stemming from substantial genetic heterogeneity. All current known pathogenic variants reside in genes within the noncanonical Wnt signaling pathway including ROR2, WNT5A, and more recently, DVL1 and DVL3. However, similar to 70% of autosomal-dominant Robinow syndrome cases remain molecularly unsolved. To investigate this missing heritability, we recruited 21 families with at least one family member clinically diagnosed with Robinow or Robinow-like phenotypes and performed genetic and genomic studies. In total, four families with variants in FZD2 were identified as well as three individuals from two families with biallelic variants in NXN that co-segregate with the phenotype. Importantly, both FZD2 and NXN are relevant protein partners in the WNT5A interactome, supporting their role in skeletal development. In addition to confirming that clustered-1 frameshifting variants in DVL1 and DVL3 are the main contributors to dominant Robinow syndrome, we also found likely pathogenic variants in candidate genes GPC4 and RAC3, both linked to the Wnt signaling pathway. These data support an initial hypothesis that Robinow syndrome results from perturbation of the Wnt/PCP pathway, suggest specific relevant domains of the proteins involved, and reveal key contributors in this signaling cascade during human embryonic development. Contrary to the view that non-allelic genetic heterogeneity hampers gene discovery, this study demonstrates the utility of rare disease genomic studies to parse gene function in human developmental pathways.

Original language	English
Pages (from-to)	27-43
Number of pages	17
Journal	American Journal of Human Genetics
Volume	102
Issue number	1
DOIs	https://doi.org/10.1016/j.ajhg.2017.10.002
Publication status	Published - 4 Jan 2018

Keywords

NEURAL-TUBE DEFECTS
DROSOPHILA TISSUE POLARITY
AUTOSOMAL-DOMINANT
CELL POLARITY
VERTEBRATE GASTRULATION
MENDELIAN-INHERITANCE
GROWTH-PLATE
DEP DOMAIN
MUTATIONS
PROTEIN

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Cite this

White, J. J., Mazzeu, J. F., Coban-Akdemir, Z., Bayram, Y., Bahrambeigi, V., Hoischen, A., van Bon, B. W. M., Gezdirici, A., Gulec, E. Y., Ramond, F., Touraine, R., Thevenon, J., Shinawi, M., Beaver, E., Heeley, J., Hoover-Fong, J., Durmaz, C. D., Karabulut, H. G., Marzioglu-Ozdemir, E., ... Baylor-Hopkins Ctr Mendelian (2018). WNT Signaling Perturbations Underlie the Genetic Heterogeneity of Robinow Syndrome. American Journal of Human Genetics, 102(1), 27-43. https://doi.org/10.1016/j.ajhg.2017.10.002

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title = "WNT Signaling Perturbations Underlie the Genetic Heterogeneity of Robinow Syndrome",

abstract = "Locus heterogeneity characterizes a variety of skeletal dysplasias often due to interacting or overlapping signaling pathways. Robinow syndrome is a skeletal disorder historically refractory to molecular diagnosis, potentially stemming from substantial genetic heterogeneity. All current known pathogenic variants reside in genes within the noncanonical Wnt signaling pathway including ROR2, WNT5A, and more recently, DVL1 and DVL3. However, similar to 70% of autosomal-dominant Robinow syndrome cases remain molecularly unsolved. To investigate this missing heritability, we recruited 21 families with at least one family member clinically diagnosed with Robinow or Robinow-like phenotypes and performed genetic and genomic studies. In total, four families with variants in FZD2 were identified as well as three individuals from two families with biallelic variants in NXN that co-segregate with the phenotype. Importantly, both FZD2 and NXN are relevant protein partners in the WNT5A interactome, supporting their role in skeletal development. In addition to confirming that clustered-1 frameshifting variants in DVL1 and DVL3 are the main contributors to dominant Robinow syndrome, we also found likely pathogenic variants in candidate genes GPC4 and RAC3, both linked to the Wnt signaling pathway. These data support an initial hypothesis that Robinow syndrome results from perturbation of the Wnt/PCP pathway, suggest specific relevant domains of the proteins involved, and reveal key contributors in this signaling cascade during human embryonic development. Contrary to the view that non-allelic genetic heterogeneity hampers gene discovery, this study demonstrates the utility of rare disease genomic studies to parse gene function in human developmental pathways.",

keywords = "NEURAL-TUBE DEFECTS, DROSOPHILA TISSUE POLARITY, AUTOSOMAL-DOMINANT, CELL POLARITY, VERTEBRATE GASTRULATION, MENDELIAN-INHERITANCE, GROWTH-PLATE, DEP DOMAIN, MUTATIONS, PROTEIN",

author = "White, {Janson J.} and Mazzeu, {Juliana F.} and Zeynep Coban-Akdemir and Yavuz Bayram and Vahid Bahrambeigi and Alexander Hoischen and {van Bon}, {Bregje W. M.} and Alper Gezdirici and Gulec, {Elif Yilmaz} and Francis Ramond and Renaud Touraine and Julien Thevenon and Marwan Shinawi and Erin Beaver and Jennifer Heeley and Julie Hoover-Fong and Durmaz, {Ceren D.} and Karabulut, {Halil Gurhan} and Ebru Marzioglu-Ozdemir and Atilla Cayir and Duz, {Mehmet B.} and Mehmet Seven and Susan Price and Ferreira, {Barbara Merfort} and Vianna-Morgante, {Angela M.} and Sian Ellard and Andrew Parrish and Karen Stals and Josue Flores-Daboub and Jhangiani, {Shalini N.} and Gibbs, {Richard A.} and Brunner, {Han G.} and Sutton, {V. Reid} and Lupski, {James R.} and Carvalho, {Claudia M. B.} and {Baylor-Hopkins Ctr Mendelian}",

year = "2018",

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doi = "10.1016/j.ajhg.2017.10.002",

language = "English",

volume = "102",

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journal = "American Journal of Human Genetics",

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White, JJ, Mazzeu, JF, Coban-Akdemir, Z, Bayram, Y, Bahrambeigi, V, Hoischen, A, van Bon, BWM, Gezdirici, A, Gulec, EY, Ramond, F, Touraine, R, Thevenon, J, Shinawi, M, Beaver, E, Heeley, J, Hoover-Fong, J, Durmaz, CD, Karabulut, HG, Marzioglu-Ozdemir, E, Cayir, A, Duz, MB, Seven, M, Price, S, Ferreira, BM, Vianna-Morgante, AM, Ellard, S, Parrish, A, Stals, K, Flores-Daboub, J, Jhangiani, SN, Gibbs, RA, Brunner, HG, Sutton, VR, Lupski, JR, Carvalho, CMB & Baylor-Hopkins Ctr Mendelian 2018, 'WNT Signaling Perturbations Underlie the Genetic Heterogeneity of Robinow Syndrome', American Journal of Human Genetics, vol. 102, no. 1, pp. 27-43. https://doi.org/10.1016/j.ajhg.2017.10.002

TY - JOUR

T1 - WNT Signaling Perturbations Underlie the Genetic Heterogeneity of Robinow Syndrome

AU - White, Janson J.

AU - Mazzeu, Juliana F.

AU - Coban-Akdemir, Zeynep

AU - Bayram, Yavuz

AU - Bahrambeigi, Vahid

AU - Hoischen, Alexander

AU - van Bon, Bregje W. M.

AU - Gezdirici, Alper

AU - Gulec, Elif Yilmaz

AU - Ramond, Francis

AU - Touraine, Renaud

AU - Thevenon, Julien

AU - Shinawi, Marwan

AU - Beaver, Erin

AU - Heeley, Jennifer

AU - Hoover-Fong, Julie

AU - Durmaz, Ceren D.

AU - Karabulut, Halil Gurhan

AU - Marzioglu-Ozdemir, Ebru

AU - Cayir, Atilla

AU - Duz, Mehmet B.

AU - Seven, Mehmet

AU - Price, Susan

AU - Ferreira, Barbara Merfort

AU - Vianna-Morgante, Angela M.

AU - Ellard, Sian

AU - Parrish, Andrew

AU - Stals, Karen

AU - Flores-Daboub, Josue

AU - Jhangiani, Shalini N.

AU - Gibbs, Richard A.

AU - Brunner, Han G.

AU - Sutton, V. Reid

AU - Lupski, James R.

AU - Carvalho, Claudia M. B.

AU - Baylor-Hopkins Ctr Mendelian

PY - 2018/1/4

Y1 - 2018/1/4

N2 - Locus heterogeneity characterizes a variety of skeletal dysplasias often due to interacting or overlapping signaling pathways. Robinow syndrome is a skeletal disorder historically refractory to molecular diagnosis, potentially stemming from substantial genetic heterogeneity. All current known pathogenic variants reside in genes within the noncanonical Wnt signaling pathway including ROR2, WNT5A, and more recently, DVL1 and DVL3. However, similar to 70% of autosomal-dominant Robinow syndrome cases remain molecularly unsolved. To investigate this missing heritability, we recruited 21 families with at least one family member clinically diagnosed with Robinow or Robinow-like phenotypes and performed genetic and genomic studies. In total, four families with variants in FZD2 were identified as well as three individuals from two families with biallelic variants in NXN that co-segregate with the phenotype. Importantly, both FZD2 and NXN are relevant protein partners in the WNT5A interactome, supporting their role in skeletal development. In addition to confirming that clustered-1 frameshifting variants in DVL1 and DVL3 are the main contributors to dominant Robinow syndrome, we also found likely pathogenic variants in candidate genes GPC4 and RAC3, both linked to the Wnt signaling pathway. These data support an initial hypothesis that Robinow syndrome results from perturbation of the Wnt/PCP pathway, suggest specific relevant domains of the proteins involved, and reveal key contributors in this signaling cascade during human embryonic development. Contrary to the view that non-allelic genetic heterogeneity hampers gene discovery, this study demonstrates the utility of rare disease genomic studies to parse gene function in human developmental pathways.

AB - Locus heterogeneity characterizes a variety of skeletal dysplasias often due to interacting or overlapping signaling pathways. Robinow syndrome is a skeletal disorder historically refractory to molecular diagnosis, potentially stemming from substantial genetic heterogeneity. All current known pathogenic variants reside in genes within the noncanonical Wnt signaling pathway including ROR2, WNT5A, and more recently, DVL1 and DVL3. However, similar to 70% of autosomal-dominant Robinow syndrome cases remain molecularly unsolved. To investigate this missing heritability, we recruited 21 families with at least one family member clinically diagnosed with Robinow or Robinow-like phenotypes and performed genetic and genomic studies. In total, four families with variants in FZD2 were identified as well as three individuals from two families with biallelic variants in NXN that co-segregate with the phenotype. Importantly, both FZD2 and NXN are relevant protein partners in the WNT5A interactome, supporting their role in skeletal development. In addition to confirming that clustered-1 frameshifting variants in DVL1 and DVL3 are the main contributors to dominant Robinow syndrome, we also found likely pathogenic variants in candidate genes GPC4 and RAC3, both linked to the Wnt signaling pathway. These data support an initial hypothesis that Robinow syndrome results from perturbation of the Wnt/PCP pathway, suggest specific relevant domains of the proteins involved, and reveal key contributors in this signaling cascade during human embryonic development. Contrary to the view that non-allelic genetic heterogeneity hampers gene discovery, this study demonstrates the utility of rare disease genomic studies to parse gene function in human developmental pathways.

KW - NEURAL-TUBE DEFECTS

KW - DROSOPHILA TISSUE POLARITY

KW - AUTOSOMAL-DOMINANT

KW - CELL POLARITY

KW - VERTEBRATE GASTRULATION

KW - MENDELIAN-INHERITANCE

KW - GROWTH-PLATE

KW - DEP DOMAIN

KW - MUTATIONS

KW - PROTEIN

U2 - 10.1016/j.ajhg.2017.10.002

DO - 10.1016/j.ajhg.2017.10.002

M3 - Article

C2 - 29276006

SN - 0002-9297

VL - 102

SP - 27

EP - 43

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

IS - 1

ER -