Bi-allelic MED16 variants cause a MEDopathy with intellectual disability, motor delay, and craniofacial, cardiac, and limb malformations

Charlotte Guillouet; Valeria Agostini; University of Washington Center for Mendelian Genomics; Geneviève Baujat; Dario Cocciadiferro; Tommaso Pippucci; Marion Lesieur-Sebellin; Mathieu Georget; Ulrich Schatz; Christine Fauth; Raymond J. Louie; Curtis Rogers; Jessica M. Davis; Vassiliki Konstantopoulou; Johannes A. Mayr; Arjan Bouman; Martina Wilke; Grace E. VanNoy; Eleina M. England; Kristen L. Park; Kathleen Brown; Margarita Saenz; Antonio Novelli; Maria Cristina Digilio; Gioia Mastromoro; Mauro Ciro Antonio Rongioletti; Gerardo Piacentini; Rauan Kaiyrzhanov; Sughra Guliyeva; Lala Hasanova; Deborah Shears; Ishita Bhatnagar; Karen Stals; Oliver Klaas; Judit Horvath; Patrice Bouvagnet; P. Dane Witmer; Gretchen MacCarrick; Katarina Cisarova; Jean Marc Good; Svetlana Gorokhova; Odile Boute; Thomas Smol; Ange Line Bruel; Olivier Patat; Julia R. Broadbent; Tiong Y. Tan; Natalie B. Tan; Stanislas Lyonnet; Tiffany Busa; Claudio Graziano; Jeanne Amiel; Christopher T. Gordon

doi:10.1016/j.ajhg.2025.02.016

Bi-allelic MED16 variants cause a MEDopathy with intellectual disability, motor delay, and craniofacial, cardiac, and limb malformations

Charlotte Guillouet, Valeria Agostini, University of Washington Center for Mendelian Genomics, Geneviève Baujat, Dario Cocciadiferro, Tommaso Pippucci, Marion Lesieur-Sebellin, Mathieu Georget, Ulrich Schatz, Christine Fauth, Raymond J. Louie, Curtis Rogers, Jessica M. Davis, Vassiliki Konstantopoulou, Johannes A. Mayr, Arjan Bouman, Martina Wilke, Grace E. VanNoy, Eleina M. England, Kristen L. ParkKathleen Brown, Margarita Saenz, Antonio Novelli, Maria Cristina Digilio, Gioia Mastromoro, Mauro Ciro Antonio Rongioletti, Gerardo Piacentini, Rauan Kaiyrzhanov, Sughra Guliyeva, Lala Hasanova, Deborah Shears, Ishita Bhatnagar, Karen Stals, Oliver Klaas, Judit Horvath, Patrice Bouvagnet, P. Dane Witmer, Gretchen MacCarrick, Katarina Cisarova, Jean Marc Good, Svetlana Gorokhova, Odile Boute, Thomas Smol, Ange Line Bruel, Olivier Patat, Julia R. Broadbent, Tiong Y. Tan, Natalie B. Tan, Stanislas Lyonnet, Tiffany Busa, Claudio Graziano, Jeanne Amiel, Christopher T. Gordon^*

^*Corresponding author for this work

Clinical Genetics

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

Abstract

The Mediator complex regulates protein-coding gene transcription by coordinating the interaction of upstream enhancers with the basal transcription machinery at the promoter. Pathogenic variants in Mediator subunits typically lead to neurodevelopmental or neurodegenerative disorders with variable clinical presentations, designated as MEDopathies. Here, we report the identification of 25 individuals from 18 families with bi-allelic MED16 variants who have a multiple congenital anomalies (MCAs)-intellectual disability syndrome. Intellectual disability, speech delay, and/or motor delay of variable severity were constant and associated with variable combinations of craniofacial defects (micro/retrognathia, cleft palate, and preauricular tags), anomalies of the extremities, and heart defects (predominantly tetralogy of Fallot). Visual impairment, deafness, and magnetic resonance imaging (MRI) abnormalities were also frequent. The 26 variants identified were comprised of eight predicted protein-truncating (three intragenic deletions, two frameshifts, and one nonsense and two essential splice site variants) and 18 missense or in-frame duplication variants affecting conserved residues, without clear correlation between phenotypic severity and variant type combination. Three-dimensional modeling indicated that the missense and duplication variants likely have a destabilizing effect on the structural elements of the protein. Immunofluorescence assays demonstrated protein mislocalization from the nucleus to the cytoplasm for 16 of the 17 variants studied. Homozygous mutant med16 zebrafish presented growth delay and increased mortality compared with wild-type fish, and Med16 knockout mice are preweaning lethal, highlighting the conserved requirement of MED16 for development. Overall, we describe an autosomal recessive MCAs-intellectual disability MEDopathy, emphasizing the importance of Mediator during neurodevelopment and suggesting that some tissues are particularly sensitive to the loss of certain subunits.

Original language	English
Pages (from-to)	829-845
Number of pages	17
Journal	American Journal of Human Genetics
Volume	112
Issue number	4
Early online date	12 Mar 2025
DOIs	https://doi.org/10.1016/j.ajhg.2025.02.016
Publication status	Published - 3 Apr 2025

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© 2025 American Society of Human Genetics

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10.1016/j.ajhg.2025.02.016

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Guillouet, C., Agostini, V., University of Washington Center for Mendelian Genomics, Baujat, G., Cocciadiferro, D., Pippucci, T., Lesieur-Sebellin, M., Georget, M., Schatz, U., Fauth, C., Louie, R. J., Rogers, C., Davis, J. M., Konstantopoulou, V., Mayr, J. A., Bouman, A., Wilke, M., VanNoy, G. E., England, E. M., ... Gordon, C. T. (2025). Bi-allelic MED16 variants cause a MEDopathy with intellectual disability, motor delay, and craniofacial, cardiac, and limb malformations. American Journal of Human Genetics, 112(4), 829-845. https://doi.org/10.1016/j.ajhg.2025.02.016

@article{157658ad9d8a4e0e96bb6e8e7f42b5ca,

title = "Bi-allelic MED16 variants cause a MEDopathy with intellectual disability, motor delay, and craniofacial, cardiac, and limb malformations",

abstract = "The Mediator complex regulates protein-coding gene transcription by coordinating the interaction of upstream enhancers with the basal transcription machinery at the promoter. Pathogenic variants in Mediator subunits typically lead to neurodevelopmental or neurodegenerative disorders with variable clinical presentations, designated as MEDopathies. Here, we report the identification of 25 individuals from 18 families with bi-allelic MED16 variants who have a multiple congenital anomalies (MCAs)-intellectual disability syndrome. Intellectual disability, speech delay, and/or motor delay of variable severity were constant and associated with variable combinations of craniofacial defects (micro/retrognathia, cleft palate, and preauricular tags), anomalies of the extremities, and heart defects (predominantly tetralogy of Fallot). Visual impairment, deafness, and magnetic resonance imaging (MRI) abnormalities were also frequent. The 26 variants identified were comprised of eight predicted protein-truncating (three intragenic deletions, two frameshifts, and one nonsense and two essential splice site variants) and 18 missense or in-frame duplication variants affecting conserved residues, without clear correlation between phenotypic severity and variant type combination. Three-dimensional modeling indicated that the missense and duplication variants likely have a destabilizing effect on the structural elements of the protein. Immunofluorescence assays demonstrated protein mislocalization from the nucleus to the cytoplasm for 16 of the 17 variants studied. Homozygous mutant med16 zebrafish presented growth delay and increased mortality compared with wild-type fish, and Med16 knockout mice are preweaning lethal, highlighting the conserved requirement of MED16 for development. Overall, we describe an autosomal recessive MCAs-intellectual disability MEDopathy, emphasizing the importance of Mediator during neurodevelopment and suggesting that some tissues are particularly sensitive to the loss of certain subunits.",

author = "Charlotte Guillouet and Valeria Agostini and {University of Washington Center for Mendelian Genomics} and Genevi{\`e}ve Baujat and Dario Cocciadiferro and Tommaso Pippucci and Marion Lesieur-Sebellin and Mathieu Georget and Ulrich Schatz and Christine Fauth and Louie, {Raymond J.} and Curtis Rogers and Davis, {Jessica M.} and Vassiliki Konstantopoulou and Mayr, {Johannes A.} and Arjan Bouman and Martina Wilke and VanNoy, {Grace E.} and England, {Eleina M.} and Park, {Kristen L.} and Kathleen Brown and Margarita Saenz and Antonio Novelli and Digilio, {Maria Cristina} and Gioia Mastromoro and Rongioletti, {Mauro Ciro Antonio} and Gerardo Piacentini and Rauan Kaiyrzhanov and Sughra Guliyeva and Lala Hasanova and Deborah Shears and Ishita Bhatnagar and Karen Stals and Oliver Klaas and Judit Horvath and Patrice Bouvagnet and Witmer, {P. Dane} and Gretchen MacCarrick and Katarina Cisarova and Good, {Jean Marc} and Svetlana Gorokhova and Odile Boute and Thomas Smol and Bruel, {Ange Line} and Olivier Patat and Broadbent, {Julia R.} and Tan, {Tiong Y.} and Tan, {Natalie B.} and Stanislas Lyonnet and Tiffany Busa and Claudio Graziano and Jeanne Amiel and Gordon, {Christopher T.}",

note = "Publisher Copyright: {\textcopyright} 2025 American Society of Human Genetics",

year = "2025",

month = apr,

day = "3",

doi = "10.1016/j.ajhg.2025.02.016",

language = "English",

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pages = "829--845",

journal = "American Journal of Human Genetics",

issn = "0002-9297",

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Guillouet, C, Agostini, V, University of Washington Center for Mendelian Genomics, Baujat, G, Cocciadiferro, D, Pippucci, T, Lesieur-Sebellin, M, Georget, M, Schatz, U, Fauth, C, Louie, RJ, Rogers, C, Davis, JM, Konstantopoulou, V, Mayr, JA, Bouman, A , Wilke, M, VanNoy, GE, England, EM, Park, KL, Brown, K, Saenz, M, Novelli, A, Digilio, MC, Mastromoro, G, Rongioletti, MCA, Piacentini, G, Kaiyrzhanov, R, Guliyeva, S, Hasanova, L, Shears, D, Bhatnagar, I, Stals, K, Klaas, O, Horvath, J, Bouvagnet, P, Witmer, PD, MacCarrick, G, Cisarova, K, Good, JM, Gorokhova, S, Boute, O, Smol, T, Bruel, AL, Patat, O, Broadbent, JR, Tan, TY, Tan, NB, Lyonnet, S, Busa, T, Graziano, C, Amiel, J & Gordon, CT 2025, 'Bi-allelic MED16 variants cause a MEDopathy with intellectual disability, motor delay, and craniofacial, cardiac, and limb malformations', American Journal of Human Genetics, vol. 112, no. 4, pp. 829-845. https://doi.org/10.1016/j.ajhg.2025.02.016

Bi-allelic MED16 variants cause a MEDopathy with intellectual disability, motor delay, and craniofacial, cardiac, and limb malformations. / Guillouet, Charlotte; Agostini, Valeria; University of Washington Center for Mendelian Genomics et al.
In: American Journal of Human Genetics, Vol. 112, No. 4, 03.04.2025, p. 829-845.

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

TY - JOUR

T1 - Bi-allelic MED16 variants cause a MEDopathy with intellectual disability, motor delay, and craniofacial, cardiac, and limb malformations

AU - Guillouet, Charlotte

AU - Agostini, Valeria

AU - University of Washington Center for Mendelian Genomics

AU - Baujat, Geneviève

AU - Cocciadiferro, Dario

AU - Pippucci, Tommaso

AU - Lesieur-Sebellin, Marion

AU - Georget, Mathieu

AU - Schatz, Ulrich

AU - Fauth, Christine

AU - Louie, Raymond J.

AU - Rogers, Curtis

AU - Davis, Jessica M.

AU - Konstantopoulou, Vassiliki

AU - Mayr, Johannes A.

AU - Bouman, Arjan

AU - Wilke, Martina

AU - VanNoy, Grace E.

AU - England, Eleina M.

AU - Park, Kristen L.

AU - Brown, Kathleen

AU - Saenz, Margarita

AU - Novelli, Antonio

AU - Digilio, Maria Cristina

AU - Mastromoro, Gioia

AU - Rongioletti, Mauro Ciro Antonio

AU - Piacentini, Gerardo

AU - Kaiyrzhanov, Rauan

AU - Guliyeva, Sughra

AU - Hasanova, Lala

AU - Shears, Deborah

AU - Bhatnagar, Ishita

AU - Stals, Karen

AU - Klaas, Oliver

AU - Horvath, Judit

AU - Bouvagnet, Patrice

AU - Witmer, P. Dane

AU - MacCarrick, Gretchen

AU - Cisarova, Katarina

AU - Good, Jean Marc

AU - Gorokhova, Svetlana

AU - Boute, Odile

AU - Smol, Thomas

AU - Bruel, Ange Line

AU - Patat, Olivier

AU - Broadbent, Julia R.

AU - Tan, Tiong Y.

AU - Tan, Natalie B.

AU - Lyonnet, Stanislas

AU - Busa, Tiffany

AU - Graziano, Claudio

AU - Amiel, Jeanne

AU - Gordon, Christopher T.

PY - 2025/4/3

Y1 - 2025/4/3

N2 - The Mediator complex regulates protein-coding gene transcription by coordinating the interaction of upstream enhancers with the basal transcription machinery at the promoter. Pathogenic variants in Mediator subunits typically lead to neurodevelopmental or neurodegenerative disorders with variable clinical presentations, designated as MEDopathies. Here, we report the identification of 25 individuals from 18 families with bi-allelic MED16 variants who have a multiple congenital anomalies (MCAs)-intellectual disability syndrome. Intellectual disability, speech delay, and/or motor delay of variable severity were constant and associated with variable combinations of craniofacial defects (micro/retrognathia, cleft palate, and preauricular tags), anomalies of the extremities, and heart defects (predominantly tetralogy of Fallot). Visual impairment, deafness, and magnetic resonance imaging (MRI) abnormalities were also frequent. The 26 variants identified were comprised of eight predicted protein-truncating (three intragenic deletions, two frameshifts, and one nonsense and two essential splice site variants) and 18 missense or in-frame duplication variants affecting conserved residues, without clear correlation between phenotypic severity and variant type combination. Three-dimensional modeling indicated that the missense and duplication variants likely have a destabilizing effect on the structural elements of the protein. Immunofluorescence assays demonstrated protein mislocalization from the nucleus to the cytoplasm for 16 of the 17 variants studied. Homozygous mutant med16 zebrafish presented growth delay and increased mortality compared with wild-type fish, and Med16 knockout mice are preweaning lethal, highlighting the conserved requirement of MED16 for development. Overall, we describe an autosomal recessive MCAs-intellectual disability MEDopathy, emphasizing the importance of Mediator during neurodevelopment and suggesting that some tissues are particularly sensitive to the loss of certain subunits.

AB - The Mediator complex regulates protein-coding gene transcription by coordinating the interaction of upstream enhancers with the basal transcription machinery at the promoter. Pathogenic variants in Mediator subunits typically lead to neurodevelopmental or neurodegenerative disorders with variable clinical presentations, designated as MEDopathies. Here, we report the identification of 25 individuals from 18 families with bi-allelic MED16 variants who have a multiple congenital anomalies (MCAs)-intellectual disability syndrome. Intellectual disability, speech delay, and/or motor delay of variable severity were constant and associated with variable combinations of craniofacial defects (micro/retrognathia, cleft palate, and preauricular tags), anomalies of the extremities, and heart defects (predominantly tetralogy of Fallot). Visual impairment, deafness, and magnetic resonance imaging (MRI) abnormalities were also frequent. The 26 variants identified were comprised of eight predicted protein-truncating (three intragenic deletions, two frameshifts, and one nonsense and two essential splice site variants) and 18 missense or in-frame duplication variants affecting conserved residues, without clear correlation between phenotypic severity and variant type combination. Three-dimensional modeling indicated that the missense and duplication variants likely have a destabilizing effect on the structural elements of the protein. Immunofluorescence assays demonstrated protein mislocalization from the nucleus to the cytoplasm for 16 of the 17 variants studied. Homozygous mutant med16 zebrafish presented growth delay and increased mortality compared with wild-type fish, and Med16 knockout mice are preweaning lethal, highlighting the conserved requirement of MED16 for development. Overall, we describe an autosomal recessive MCAs-intellectual disability MEDopathy, emphasizing the importance of Mediator during neurodevelopment and suggesting that some tissues are particularly sensitive to the loss of certain subunits.

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U2 - 10.1016/j.ajhg.2025.02.016

DO - 10.1016/j.ajhg.2025.02.016

M3 - Article

C2 - 40081376

AN - SCOPUS:86000775674

SN - 0002-9297

VL - 112

SP - 829

EP - 845

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

IS - 4

ER -

Guillouet C, Agostini V, University of Washington Center for Mendelian Genomics, Baujat G, Cocciadiferro D, Pippucci T et al. Bi-allelic MED16 variants cause a MEDopathy with intellectual disability, motor delay, and craniofacial, cardiac, and limb malformations. American Journal of Human Genetics. 2025 Apr 3;112(4):829-845. Epub 2025 Mar 12. doi: 10.1016/j.ajhg.2025.02.016

Bi-allelic MED16 variants cause a MEDopathy with intellectual disability, motor delay, and craniofacial, cardiac, and limb malformations

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