De Novo Missense Variants in FBXW11 Cause Diverse Developmental Phenotypes Including Brain, Eye, and Digit Anomalies

Richard J. Holt; Rodrigo M. Young; Berta Crespo; Fabiola Ceroni; Cynthia J. Curry; Emanuele Bellacchio; Dorine A. Bax; Andrea Ciolfi; Marleen Simon; Christina R. Fagerberg; Ellen van Binsbergen; Alessandro De Luca; Luigi Memo; William B. Dobyns; Alaa Afif Mohammed; Samuel J.H. Clokie; Celia Zazo Seco; Yong Hui Jiang; Kristina P. Sørensen; Helle Andersen; Jennifer Sullivan; Zöe Powis; Anna Chassevent; Constance Smith-Hicks; Slavé Petrovski; Thalia Antoniadi; Vandana Shashi; Bruce D. Gelb; Stephen W. Wilson; Dianne Gerrelli; Marco Tartaglia; Nicolas Chassaing; Patrick Calvas; Nicola K. Ragge

doi:10.1016/j.ajhg.2019.07.005

De Novo Missense Variants in FBXW11 Cause Diverse Developmental Phenotypes Including Brain, Eye, and Digit Anomalies

Richard J. Holt, Rodrigo M. Young, Berta Crespo, Fabiola Ceroni, Cynthia J. Curry, Emanuele Bellacchio, Dorine A. Bax, Andrea Ciolfi, Marleen Simon, Christina R. Fagerberg, Ellen van Binsbergen, Alessandro De Luca, Luigi Memo, William B. Dobyns, Alaa Afif Mohammed, Samuel J.H. Clokie, Celia Zazo Seco, Yong Hui Jiang, Kristina P. Sørensen, Helle AndersenJennifer Sullivan, Zöe Powis, Anna Chassevent, Constance Smith-Hicks, Slavé Petrovski, Thalia Antoniadi, Vandana Shashi, Bruce D. Gelb, Stephen W. Wilson, Dianne Gerrelli, Marco Tartaglia, Nicolas Chassaing, Patrick Calvas, Nicola K. Ragge

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

7 Scopus citations

Abstract

The identification of genetic variants implicated in human developmental disorders has been revolutionized by second-generation sequencing combined with international pooling of cases. Here, we describe seven individuals who have diverse yet overlapping developmental anomalies, and who all have de novo missense FBXW11 variants identified by whole exome or whole genome sequencing and not reported in the gnomAD database. Their phenotypes include striking neurodevelopmental, digital, jaw, and eye anomalies, and in one individual, features resembling Noonan syndrome, a condition caused by dysregulated RAS signaling. FBXW11 encodes an F-box protein, part of the Skp1-cullin-F-box (SCF) ubiquitin ligase complex, involved in ubiquitination and proteasomal degradation and thus fundamental to many protein regulatory processes. FBXW11 targets include β-catenin and GLI transcription factors, key mediators of Wnt and Hh signaling, respectively, critical to digital, neurological, and eye development. Structural analyses indicate affected residues cluster at the surface of the loops of the substrate-binding domain of FBXW11, and the variants are predicted to destabilize the protein and/or its interactions. In situ hybridization studies on human and zebrafish embryonic tissues demonstrate FBXW11 is expressed in the developing eye, brain, mandibular processes, and limb buds or pectoral fins. Knockdown of the zebrafish FBXW11 orthologs fbxw11a and fbxw11b resulted in embryos with smaller, misshapen, and underdeveloped eyes and abnormal jaw and pectoral fin development. Our findings support the role of FBXW11 in multiple developmental processes, including those involving the brain, eye, digits, and jaw.

Original language	English (US)
Pages (from-to)	640-657
Number of pages	18
Journal	American journal of human genetics
Volume	105
Issue number	3
DOIs	https://doi.org/10.1016/j.ajhg.2019.07.005
State	Published - Sep 5 2019
Externally published	Yes

Keywords

FBXW11
Noonan syndrome
WD40
Wnt
brain
development
digit
eye
hedgehog
neurodevelopment

ASJC Scopus subject areas

Genetics
Genetics(clinical)

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10.1016/j.ajhg.2019.07.005

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Holt, R. J., Young, R. M., Crespo, B., Ceroni, F., Curry, C. J., Bellacchio, E., Bax, D. A., Ciolfi, A., Simon, M., Fagerberg, C. R., van Binsbergen, E., De Luca, A., Memo, L., Dobyns, W. B., Mohammed, A. A., Clokie, S. J. H., Zazo Seco, C., Jiang, Y. H., Sørensen, K. P., ... Ragge, N. K. (2019). De Novo Missense Variants in FBXW11 Cause Diverse Developmental Phenotypes Including Brain, Eye, and Digit Anomalies. American journal of human genetics, 105(3), 640-657. https://doi.org/10.1016/j.ajhg.2019.07.005

Holt, RJ, Young, RM, Crespo, B, Ceroni, F, Curry, CJ, Bellacchio, E, Bax, DA, Ciolfi, A, Simon, M, Fagerberg, CR, van Binsbergen, E, De Luca, A, Memo, L, Dobyns, WB, Mohammed, AA, Clokie, SJH, Zazo Seco, C, Jiang, YH, Sørensen, KP, Andersen, H, Sullivan, J, Powis, Z, Chassevent, A, Smith-Hicks, C, Petrovski, S, Antoniadi, T, Shashi, V, Gelb, BD, Wilson, SW, Gerrelli, D, Tartaglia, M, Chassaing, N, Calvas, P & Ragge, NK 2019, 'De Novo Missense Variants in FBXW11 Cause Diverse Developmental Phenotypes Including Brain, Eye, and Digit Anomalies', American journal of human genetics, vol. 105, no. 3, pp. 640-657. https://doi.org/10.1016/j.ajhg.2019.07.005

@article{cd34406e9ff046839bccbd2c33bb44d5,

title = "De Novo Missense Variants in FBXW11 Cause Diverse Developmental Phenotypes Including Brain, Eye, and Digit Anomalies",

abstract = "The identification of genetic variants implicated in human developmental disorders has been revolutionized by second-generation sequencing combined with international pooling of cases. Here, we describe seven individuals who have diverse yet overlapping developmental anomalies, and who all have de novo missense FBXW11 variants identified by whole exome or whole genome sequencing and not reported in the gnomAD database. Their phenotypes include striking neurodevelopmental, digital, jaw, and eye anomalies, and in one individual, features resembling Noonan syndrome, a condition caused by dysregulated RAS signaling. FBXW11 encodes an F-box protein, part of the Skp1-cullin-F-box (SCF) ubiquitin ligase complex, involved in ubiquitination and proteasomal degradation and thus fundamental to many protein regulatory processes. FBXW11 targets include β-catenin and GLI transcription factors, key mediators of Wnt and Hh signaling, respectively, critical to digital, neurological, and eye development. Structural analyses indicate affected residues cluster at the surface of the loops of the substrate-binding domain of FBXW11, and the variants are predicted to destabilize the protein and/or its interactions. In situ hybridization studies on human and zebrafish embryonic tissues demonstrate FBXW11 is expressed in the developing eye, brain, mandibular processes, and limb buds or pectoral fins. Knockdown of the zebrafish FBXW11 orthologs fbxw11a and fbxw11b resulted in embryos with smaller, misshapen, and underdeveloped eyes and abnormal jaw and pectoral fin development. Our findings support the role of FBXW11 in multiple developmental processes, including those involving the brain, eye, digits, and jaw.",

keywords = "FBXW11, Noonan syndrome, WD40, Wnt, brain, development, digit, eye, hedgehog, neurodevelopment",

author = "Holt, {Richard J.} and Young, {Rodrigo M.} and Berta Crespo and Fabiola Ceroni and Curry, {Cynthia J.} and Emanuele Bellacchio and Bax, {Dorine A.} and Andrea Ciolfi and Marleen Simon and Fagerberg, {Christina R.} and {van Binsbergen}, Ellen and {De Luca}, Alessandro and Luigi Memo and Dobyns, {William B.} and Mohammed, {Alaa Afif} and Clokie, {Samuel J.H.} and {Zazo Seco}, Celia and Jiang, {Yong Hui} and S{\o}rensen, {Kristina P.} and Helle Andersen and Jennifer Sullivan and Z{\"o}e Powis and Anna Chassevent and Constance Smith-Hicks and Slav{\'e} Petrovski and Thalia Antoniadi and Vandana Shashi and Gelb, {Bruce D.} and Wilson, {Stephen W.} and Dianne Gerrelli and Marco Tartaglia and Nicolas Chassaing and Patrick Calvas and Ragge, {Nicola K.}",

note = "Funding Information: This work was supported by grants from Baillie Gifford ; Visually Impaired Children Taking Action (VICTA) ( www.victa.org.uk ); Microphthalmia, Anophthalmia and Coloboma Support (MACS) ( www.macs.org.uk ); HEIF (Health Innovation Fund, Oxford Brookes University); La Fondation de France (grant number 2015-00060235 , 2015); Fondation Maladies Rares and Retina France ; Fondazione Bambino Ges{\`u} (Vite Coraggiose); E-Rare (NSEuroNet); AIRC (the Italian Foundation for Cancer Research) ( IG 21614 ); the Italian Ministry of Health (Ricerca Corrente); and the National Heart, Lung, and Blood Institute ( R35 HL135742 ). French patients are part of the Rare Disease Cohort (RaDiCo)-AC-Oeil. RaDiCo is funded by the French National Research Agency under the specific program “Investments for the Future,” cohort grant agreement ANR-10-COHO-0003 . V.S. and J.S. were supported by UCB Celltech and the Duke Genome Sequencing Clinic grant. W.B.D. was supported by the US National Institutes of Health under the National Institute of Neurological Disorders and Stroke (NINDS) grant R01NS058721 . R.M.Y. and S.W.W. were supported by an MRC (Medical Research Council) Programme Grant ( MR/L003775/1 to S.W.W. and G. Gestri) and a Wellcome Trust Investigator Award ( 104682/Z/14/Z ). The human embryonic and fetal material was provided by the Joint MRC/Wellcome Trust (grant MR/R006237/1 ) Human Developmental Biology Resource ( www.hdbr.org ). Funding Information: We would like to thank the families for their participation in our study. We are grateful to the West Midlands Regional Clinical Genetics Service and, in particular, Shaun Green for their help with sample processing and clinical genetic testing of UK families with AMC conditions. Data for individual 4 were obtained by the Duke Genome Sequencing clinic supported by the Duke University Health System. We would also like to thank Rebecca Spillmann (Duke Pediatric Medical Genetics, Duke University Medical Center, Durham, NC, USA), Ioana Cutcutache, Matthew Page (Translational Medicine, UCB Pharma, Slough, UK) and Martin Armstrong (Translational Medicine, UCB Pharma, Braine-l'Alleud, Belgium). This work was supported by grants from Baillie Gifford; Visually Impaired Children Taking Action (VICTA) (www.victa.org.uk); Microphthalmia, Anophthalmia and Coloboma Support (MACS) (www.macs.org.uk); HEIF (Health Innovation Fund, Oxford Brookes University); La Fondation de France (grant number 2015-00060235, 2015); Fondation Maladies Rares and Retina France; Fondazione Bambino Ges? (Vite Coraggiose); E-Rare (NSEuroNet); AIRC (the Italian Foundation for Cancer Research) (IG 21614); the Italian Ministry of Health (Ricerca Corrente); and the National Heart, Lung, and Blood Institute (R35 HL135742). French patients are part of the Rare Disease Cohort (RaDiCo)-AC-Oeil. RaDiCo is funded by the French National Research Agency under the specific program ?Investments for the Future,? cohort grant agreement ANR-10-COHO-0003. V.S. and J.S. were supported by UCB Celltech and the Duke Genome Sequencing Clinic grant. W.B.D. was supported by the US National Institutes of Health under the National Institute of Neurological Disorders and Stroke (NINDS) grant R01NS058721. R.M.Y. and S.W.W. were supported by an MRC (Medical Research Council) Programme Grant (MR/L003775/1 to S.W.W. and G. Gestri) and a Wellcome Trust Investigator Award (104682/Z/14/Z). The human embryonic and fetal material was provided by the Joint MRC/Wellcome Trust (grant MR/R006237/1) Human Developmental Biology Resource (www.hdbr.org). Publisher Copyright: {\textcopyright} 2019 The Authors",

year = "2019",

month = sep,

day = "5",

doi = "10.1016/j.ajhg.2019.07.005",

language = "English (US)",

volume = "105",

pages = "640--657",

journal = "American Journal of Human Genetics",

issn = "0002-9297",

publisher = "Cell Press",

number = "3",

}

TY - JOUR

T1 - De Novo Missense Variants in FBXW11 Cause Diverse Developmental Phenotypes Including Brain, Eye, and Digit Anomalies

AU - Holt, Richard J.

AU - Young, Rodrigo M.

AU - Crespo, Berta

AU - Ceroni, Fabiola

AU - Curry, Cynthia J.

AU - Bellacchio, Emanuele

AU - Bax, Dorine A.

AU - Ciolfi, Andrea

AU - Simon, Marleen

AU - Fagerberg, Christina R.

AU - van Binsbergen, Ellen

AU - De Luca, Alessandro

AU - Memo, Luigi

AU - Dobyns, William B.

AU - Mohammed, Alaa Afif

AU - Clokie, Samuel J.H.

AU - Zazo Seco, Celia

AU - Jiang, Yong Hui

AU - Sørensen, Kristina P.

AU - Andersen, Helle

AU - Sullivan, Jennifer

AU - Powis, Zöe

AU - Chassevent, Anna

AU - Smith-Hicks, Constance

AU - Petrovski, Slavé

AU - Antoniadi, Thalia

AU - Shashi, Vandana

AU - Gelb, Bruce D.

AU - Wilson, Stephen W.

AU - Gerrelli, Dianne

AU - Tartaglia, Marco

AU - Chassaing, Nicolas

AU - Calvas, Patrick

AU - Ragge, Nicola K.

N1 - Funding Information: This work was supported by grants from Baillie Gifford ; Visually Impaired Children Taking Action (VICTA) ( www.victa.org.uk ); Microphthalmia, Anophthalmia and Coloboma Support (MACS) ( www.macs.org.uk ); HEIF (Health Innovation Fund, Oxford Brookes University); La Fondation de France (grant number 2015-00060235 , 2015); Fondation Maladies Rares and Retina France ; Fondazione Bambino Gesù (Vite Coraggiose); E-Rare (NSEuroNet); AIRC (the Italian Foundation for Cancer Research) ( IG 21614 ); the Italian Ministry of Health (Ricerca Corrente); and the National Heart, Lung, and Blood Institute ( R35 HL135742 ). French patients are part of the Rare Disease Cohort (RaDiCo)-AC-Oeil. RaDiCo is funded by the French National Research Agency under the specific program “Investments for the Future,” cohort grant agreement ANR-10-COHO-0003 . V.S. and J.S. were supported by UCB Celltech and the Duke Genome Sequencing Clinic grant. W.B.D. was supported by the US National Institutes of Health under the National Institute of Neurological Disorders and Stroke (NINDS) grant R01NS058721 . R.M.Y. and S.W.W. were supported by an MRC (Medical Research Council) Programme Grant ( MR/L003775/1 to S.W.W. and G. Gestri) and a Wellcome Trust Investigator Award ( 104682/Z/14/Z ). The human embryonic and fetal material was provided by the Joint MRC/Wellcome Trust (grant MR/R006237/1 ) Human Developmental Biology Resource ( www.hdbr.org ). Funding Information: We would like to thank the families for their participation in our study. We are grateful to the West Midlands Regional Clinical Genetics Service and, in particular, Shaun Green for their help with sample processing and clinical genetic testing of UK families with AMC conditions. Data for individual 4 were obtained by the Duke Genome Sequencing clinic supported by the Duke University Health System. We would also like to thank Rebecca Spillmann (Duke Pediatric Medical Genetics, Duke University Medical Center, Durham, NC, USA), Ioana Cutcutache, Matthew Page (Translational Medicine, UCB Pharma, Slough, UK) and Martin Armstrong (Translational Medicine, UCB Pharma, Braine-l'Alleud, Belgium). This work was supported by grants from Baillie Gifford; Visually Impaired Children Taking Action (VICTA) (www.victa.org.uk); Microphthalmia, Anophthalmia and Coloboma Support (MACS) (www.macs.org.uk); HEIF (Health Innovation Fund, Oxford Brookes University); La Fondation de France (grant number 2015-00060235, 2015); Fondation Maladies Rares and Retina France; Fondazione Bambino Ges? (Vite Coraggiose); E-Rare (NSEuroNet); AIRC (the Italian Foundation for Cancer Research) (IG 21614); the Italian Ministry of Health (Ricerca Corrente); and the National Heart, Lung, and Blood Institute (R35 HL135742). French patients are part of the Rare Disease Cohort (RaDiCo)-AC-Oeil. RaDiCo is funded by the French National Research Agency under the specific program ?Investments for the Future,? cohort grant agreement ANR-10-COHO-0003. V.S. and J.S. were supported by UCB Celltech and the Duke Genome Sequencing Clinic grant. W.B.D. was supported by the US National Institutes of Health under the National Institute of Neurological Disorders and Stroke (NINDS) grant R01NS058721. R.M.Y. and S.W.W. were supported by an MRC (Medical Research Council) Programme Grant (MR/L003775/1 to S.W.W. and G. Gestri) and a Wellcome Trust Investigator Award (104682/Z/14/Z). The human embryonic and fetal material was provided by the Joint MRC/Wellcome Trust (grant MR/R006237/1) Human Developmental Biology Resource (www.hdbr.org). Publisher Copyright: © 2019 The Authors

PY - 2019/9/5

Y1 - 2019/9/5

N2 - The identification of genetic variants implicated in human developmental disorders has been revolutionized by second-generation sequencing combined with international pooling of cases. Here, we describe seven individuals who have diverse yet overlapping developmental anomalies, and who all have de novo missense FBXW11 variants identified by whole exome or whole genome sequencing and not reported in the gnomAD database. Their phenotypes include striking neurodevelopmental, digital, jaw, and eye anomalies, and in one individual, features resembling Noonan syndrome, a condition caused by dysregulated RAS signaling. FBXW11 encodes an F-box protein, part of the Skp1-cullin-F-box (SCF) ubiquitin ligase complex, involved in ubiquitination and proteasomal degradation and thus fundamental to many protein regulatory processes. FBXW11 targets include β-catenin and GLI transcription factors, key mediators of Wnt and Hh signaling, respectively, critical to digital, neurological, and eye development. Structural analyses indicate affected residues cluster at the surface of the loops of the substrate-binding domain of FBXW11, and the variants are predicted to destabilize the protein and/or its interactions. In situ hybridization studies on human and zebrafish embryonic tissues demonstrate FBXW11 is expressed in the developing eye, brain, mandibular processes, and limb buds or pectoral fins. Knockdown of the zebrafish FBXW11 orthologs fbxw11a and fbxw11b resulted in embryos with smaller, misshapen, and underdeveloped eyes and abnormal jaw and pectoral fin development. Our findings support the role of FBXW11 in multiple developmental processes, including those involving the brain, eye, digits, and jaw.

AB - The identification of genetic variants implicated in human developmental disorders has been revolutionized by second-generation sequencing combined with international pooling of cases. Here, we describe seven individuals who have diverse yet overlapping developmental anomalies, and who all have de novo missense FBXW11 variants identified by whole exome or whole genome sequencing and not reported in the gnomAD database. Their phenotypes include striking neurodevelopmental, digital, jaw, and eye anomalies, and in one individual, features resembling Noonan syndrome, a condition caused by dysregulated RAS signaling. FBXW11 encodes an F-box protein, part of the Skp1-cullin-F-box (SCF) ubiquitin ligase complex, involved in ubiquitination and proteasomal degradation and thus fundamental to many protein regulatory processes. FBXW11 targets include β-catenin and GLI transcription factors, key mediators of Wnt and Hh signaling, respectively, critical to digital, neurological, and eye development. Structural analyses indicate affected residues cluster at the surface of the loops of the substrate-binding domain of FBXW11, and the variants are predicted to destabilize the protein and/or its interactions. In situ hybridization studies on human and zebrafish embryonic tissues demonstrate FBXW11 is expressed in the developing eye, brain, mandibular processes, and limb buds or pectoral fins. Knockdown of the zebrafish FBXW11 orthologs fbxw11a and fbxw11b resulted in embryos with smaller, misshapen, and underdeveloped eyes and abnormal jaw and pectoral fin development. Our findings support the role of FBXW11 in multiple developmental processes, including those involving the brain, eye, digits, and jaw.

KW - FBXW11

KW - Noonan syndrome

KW - WD40

KW - Wnt

KW - brain

KW - development

KW - digit

KW - eye

KW - hedgehog

KW - neurodevelopment

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UR - http://www.scopus.com/inward/citedby.url?scp=85071478718&partnerID=8YFLogxK

U2 - 10.1016/j.ajhg.2019.07.005

DO - 10.1016/j.ajhg.2019.07.005

M3 - Article

C2 - 31402090

AN - SCOPUS:85071478718

SN - 0002-9297

VL - 105

SP - 640

EP - 657

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

IS - 3

ER -

De Novo Missense Variants in FBXW11 Cause Diverse Developmental Phenotypes Including Brain, Eye, and Digit Anomalies

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