Mapping variants in thyroid hormone transporter MCT8 to disease severity by genomic, phenotypic, functional, structural and deep learning integration

Stefan Groeneweg; Ferdy S van Geest; Mariano Martín; Mafalda Dias; Jonathan Frazer; Carolina Medina-Gomez; Rosalie B T M Sterenborg; Hao Wang; Anna Dolcetta-Capuzzo; Linda J de Rooij; Alexander Teumer; Ayhan Abaci; Erica L T van den Akker; Gautam P Ambegaonkar; Christine M Armour; Iiuliu Bacos; Priyanka Bakhtiani; Diana Barca; Andrew J Bauer; Sjoerd A A van den Berg; Amanda van den Berge; Enrico Bertini; Ingrid M van Beynum; Nicola Brunetti-Pierri; Doris Brunner; Marco Cappa; Gerarda Cappuccio; Barbara Castellotti; Claudia Castiglioni; Krishna Chatterjee; Alexander Chesover; Peter Christian; Jet Coenen-van der Spek; Irenaeus F M de Coo; Regis Coutant; Dana Craiu; Patricia Crock; Christian DeGoede; Korcan Demir; Cheyenne Dewey; Alice Dica; Paul Dimitri; Marjolein H G Dremmen; Rachana Dubey; Anina Enderli; Jan Fairchild; Jonathan Gallichan; Luigi Garibaldi; Belinda George; Evelien F Gevers; Et al.; W. E. Visser

doi:10.1038/s41467-025-56628-w

Mapping variants in thyroid hormone transporter MCT8 to disease severity by genomic, phenotypic, functional, structural and deep learning integration

Stefan Groeneweg, Ferdy S van Geest, Mariano Martín, Mafalda Dias, Jonathan Frazer, Carolina Medina-Gomez, Rosalie B T M Sterenborg, Hao Wang, Anna Dolcetta-Capuzzo, Linda J de Rooij, Alexander Teumer, Ayhan Abaci, Erica L T van den Akker, Gautam P Ambegaonkar, Christine M Armour, Iiuliu Bacos, Priyanka Bakhtiani, Diana Barca, Andrew J Bauer, Sjoerd A A van den BergAmanda van den Berge, Enrico Bertini, Ingrid M van Beynum, Nicola Brunetti-Pierri, Doris Brunner, Marco Cappa, Gerarda Cappuccio, Barbara Castellotti, Claudia Castiglioni, Krishna Chatterjee, Alexander Chesover, Peter Christian, Jet Coenen-van der Spek, Irenaeus F M de Coo, Regis Coutant, Dana Craiu, Patricia Crock, Christian DeGoede, Korcan Demir, Cheyenne Dewey, Alice Dica, Paul Dimitri, Marjolein H G Dremmen, Rachana Dubey, Anina Enderli, Jan Fairchild, Jonathan Gallichan, Luigi Garibaldi, Belinda George, Evelien F Gevers, Et al., W. E. Visser^*

^*Corresponding author for this work

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

Abstract

Predicting and quantifying phenotypic consequences of genetic variants in rare disorders is a major challenge, particularly pertinent for 'actionable' genes such as thyroid hormone transporter MCT8 (encoded by the X-linked SLC16A2 gene), where loss-of-function (LoF) variants cause a rare neurodevelopmental and (treatable) metabolic disorder in males. The combination of deep phenotyping data with functional and computational tests and with outcomes in population cohorts, enabled us to: (i) identify the genetic aetiology of divergent clinical phenotypes of MCT8 deficiency with genotype-phenotype relationships present across survival and 24 out of 32 disease features; (ii) demonstrate a mild phenocopy in ~400,000 individuals with common genetic variants in MCT8; (iii) assess therapeutic effectiveness, which did not differ among LoF-categories; (iv) advance structural insights in normal and mutated MCT8 by delineating seven critical functional domains; (v) create a pathogenicity-severity MCT8 variant classifier that accurately predicted pathogenicity (AUC:0.91) and severity (AUC:0.86) for 8151 variants. Our information-dense mapping provides a generalizable approach to advance multiple dimensions of rare genetic disorders.

Original language	English
Article number	2479
Number of pages	21
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-56628-w
Publication status	Published - 12 Mar 2025

Keywords

Humans
Monocarboxylic Acid Transporters/genetics metabolism
Symporters/genetics metabolism
Male
Phenotype
Deep Learning
Female
Muscular Atrophy/genetics metabolism pathology
Thyroid Hormones/metabolism genetics
Severity of Illness Index
Child
Genetic Association Studies
Genomics/methods
Muscle Hypotonia/genetics metabolism
Loss of Function Mutation
Adolescent
Adult
Child, Preschool
Genetic Variation
X-Linked Intellectual Disability/genetics metabolism

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Groeneweg, S., van Geest, F. S., Martín, M., Dias, M., Frazer, J., Medina-Gomez, C., Sterenborg, R. B. T. M., Wang, H., Dolcetta-Capuzzo, A., de Rooij, L. J., Teumer, A., Abaci, A., van den Akker, E. L. T., Ambegaonkar, G. P., Armour, C. M., Bacos, I., Bakhtiani, P., Barca, D., Bauer, A. J., ... Visser, W. E. (2025). Mapping variants in thyroid hormone transporter MCT8 to disease severity by genomic, phenotypic, functional, structural and deep learning integration. Nature Communications, 16(1), Article 2479. https://doi.org/10.1038/s41467-025-56628-w

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title = "Mapping variants in thyroid hormone transporter MCT8 to disease severity by genomic, phenotypic, functional, structural and deep learning integration",

abstract = "Predicting and quantifying phenotypic consequences of genetic variants in rare disorders is a major challenge, particularly pertinent for 'actionable' genes such as thyroid hormone transporter MCT8 (encoded by the X-linked SLC16A2 gene), where loss-of-function (LoF) variants cause a rare neurodevelopmental and (treatable) metabolic disorder in males. The combination of deep phenotyping data with functional and computational tests and with outcomes in population cohorts, enabled us to: (i) identify the genetic aetiology of divergent clinical phenotypes of MCT8 deficiency with genotype-phenotype relationships present across survival and 24 out of 32 disease features; (ii) demonstrate a mild phenocopy in ~400,000 individuals with common genetic variants in MCT8; (iii) assess therapeutic effectiveness, which did not differ among LoF-categories; (iv) advance structural insights in normal and mutated MCT8 by delineating seven critical functional domains; (v) create a pathogenicity-severity MCT8 variant classifier that accurately predicted pathogenicity (AUC:0.91) and severity (AUC:0.86) for 8151 variants. Our information-dense mapping provides a generalizable approach to advance multiple dimensions of rare genetic disorders.",

keywords = "Humans, Monocarboxylic Acid Transporters/genetics metabolism, Symporters/genetics metabolism, Male, Phenotype, Deep Learning, Female, Muscular Atrophy/genetics metabolism pathology, Thyroid Hormones/metabolism genetics, Severity of Illness Index, Child, Genetic Association Studies, Genomics/methods, Muscle Hypotonia/genetics metabolism, Loss of Function Mutation, Adolescent, Adult, Child, Preschool, Genetic Variation, X-Linked Intellectual Disability/genetics metabolism",

author = "Stefan Groeneweg and {van Geest}, {Ferdy S} and Mariano Mart{\'i}n and Mafalda Dias and Jonathan Frazer and Carolina Medina-Gomez and Sterenborg, {Rosalie B T M} and Hao Wang and Anna Dolcetta-Capuzzo and {de Rooij}, {Linda J} and Alexander Teumer and Ayhan Abaci and {van den Akker}, {Erica L T} and Ambegaonkar, {Gautam P} and Armour, {Christine M} and Iiuliu Bacos and Priyanka Bakhtiani and Diana Barca and Bauer, {Andrew J} and {van den Berg}, {Sjoerd A A} and {van den Berge}, Amanda and Enrico Bertini and {van Beynum}, {Ingrid M} and Nicola Brunetti-Pierri and Doris Brunner and Marco Cappa and Gerarda Cappuccio and Barbara Castellotti and Claudia Castiglioni and Krishna Chatterjee and Alexander Chesover and Peter Christian and {Coenen-van der Spek}, Jet and {de Coo}, {Irenaeus F M} and Regis Coutant and Dana Craiu and Patricia Crock and Christian DeGoede and Korcan Demir and Cheyenne Dewey and Alice Dica and Paul Dimitri and Dremmen, {Marjolein H G} and Rachana Dubey and Anina Enderli and Jan Fairchild and Jonathan Gallichan and Luigi Garibaldi and Belinda George and Gevers, {Evelien F} and {Et al.} and Visser, {W. E.}",

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doi = "10.1038/s41467-025-56628-w",

language = "English",

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journal = "Nature Communications",

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Groeneweg, S, van Geest, FS, Martín, M, Dias, M, Frazer, J, Medina-Gomez, C, Sterenborg, RBTM, Wang, H, Dolcetta-Capuzzo, A, de Rooij, LJ, Teumer, A, Abaci, A, van den Akker, ELT, Ambegaonkar, GP, Armour, CM, Bacos, I, Bakhtiani, P, Barca, D, Bauer, AJ, van den Berg, SAA, van den Berge, A, Bertini, E, van Beynum, IM, Brunetti-Pierri, N, Brunner, D, Cappa, M, Cappuccio, G, Castellotti, B, Castiglioni, C, Chatterjee, K, Chesover, A, Christian, P, Coenen-van der Spek, J, de Coo, IFM, Coutant, R, Craiu, D, Crock, P, DeGoede, C, Demir, K, Dewey, C, Dica, A, Dimitri, P, Dremmen, MHG, Dubey, R, Enderli, A, Fairchild, J, Gallichan, J, Garibaldi, L, George, B, Gevers, EF, Et al. & Visser, WE 2025, 'Mapping variants in thyroid hormone transporter MCT8 to disease severity by genomic, phenotypic, functional, structural and deep learning integration', Nature Communications, vol. 16, no. 1, 2479. https://doi.org/10.1038/s41467-025-56628-w

TY - JOUR

T1 - Mapping variants in thyroid hormone transporter MCT8 to disease severity by genomic, phenotypic, functional, structural and deep learning integration

AU - Groeneweg, Stefan

AU - van Geest, Ferdy S

AU - Martín, Mariano

AU - Dias, Mafalda

AU - Frazer, Jonathan

AU - Medina-Gomez, Carolina

AU - Sterenborg, Rosalie B T M

AU - Wang, Hao

AU - Dolcetta-Capuzzo, Anna

AU - de Rooij, Linda J

AU - Teumer, Alexander

AU - Abaci, Ayhan

AU - van den Akker, Erica L T

AU - Ambegaonkar, Gautam P

AU - Armour, Christine M

AU - Bacos, Iiuliu

AU - Bakhtiani, Priyanka

AU - Barca, Diana

AU - Bauer, Andrew J

AU - van den Berg, Sjoerd A A

AU - van den Berge, Amanda

AU - Bertini, Enrico

AU - van Beynum, Ingrid M

AU - Brunetti-Pierri, Nicola

AU - Brunner, Doris

AU - Cappa, Marco

AU - Cappuccio, Gerarda

AU - Castellotti, Barbara

AU - Castiglioni, Claudia

AU - Chatterjee, Krishna

AU - Chesover, Alexander

AU - Christian, Peter

AU - Coenen-van der Spek, Jet

AU - de Coo, Irenaeus F M

AU - Coutant, Regis

AU - Craiu, Dana

AU - Crock, Patricia

AU - DeGoede, Christian

AU - Demir, Korcan

AU - Dewey, Cheyenne

AU - Dica, Alice

AU - Dimitri, Paul

AU - Dremmen, Marjolein H G

AU - Dubey, Rachana

AU - Enderli, Anina

AU - Fairchild, Jan

AU - Gallichan, Jonathan

AU - Garibaldi, Luigi

AU - George, Belinda

AU - Gevers, Evelien F

AU - Et al.

AU - Visser, W. E.

PY - 2025/3/12

Y1 - 2025/3/12

N2 - Predicting and quantifying phenotypic consequences of genetic variants in rare disorders is a major challenge, particularly pertinent for 'actionable' genes such as thyroid hormone transporter MCT8 (encoded by the X-linked SLC16A2 gene), where loss-of-function (LoF) variants cause a rare neurodevelopmental and (treatable) metabolic disorder in males. The combination of deep phenotyping data with functional and computational tests and with outcomes in population cohorts, enabled us to: (i) identify the genetic aetiology of divergent clinical phenotypes of MCT8 deficiency with genotype-phenotype relationships present across survival and 24 out of 32 disease features; (ii) demonstrate a mild phenocopy in ~400,000 individuals with common genetic variants in MCT8; (iii) assess therapeutic effectiveness, which did not differ among LoF-categories; (iv) advance structural insights in normal and mutated MCT8 by delineating seven critical functional domains; (v) create a pathogenicity-severity MCT8 variant classifier that accurately predicted pathogenicity (AUC:0.91) and severity (AUC:0.86) for 8151 variants. Our information-dense mapping provides a generalizable approach to advance multiple dimensions of rare genetic disorders.

AB - Predicting and quantifying phenotypic consequences of genetic variants in rare disorders is a major challenge, particularly pertinent for 'actionable' genes such as thyroid hormone transporter MCT8 (encoded by the X-linked SLC16A2 gene), where loss-of-function (LoF) variants cause a rare neurodevelopmental and (treatable) metabolic disorder in males. The combination of deep phenotyping data with functional and computational tests and with outcomes in population cohorts, enabled us to: (i) identify the genetic aetiology of divergent clinical phenotypes of MCT8 deficiency with genotype-phenotype relationships present across survival and 24 out of 32 disease features; (ii) demonstrate a mild phenocopy in ~400,000 individuals with common genetic variants in MCT8; (iii) assess therapeutic effectiveness, which did not differ among LoF-categories; (iv) advance structural insights in normal and mutated MCT8 by delineating seven critical functional domains; (v) create a pathogenicity-severity MCT8 variant classifier that accurately predicted pathogenicity (AUC:0.91) and severity (AUC:0.86) for 8151 variants. Our information-dense mapping provides a generalizable approach to advance multiple dimensions of rare genetic disorders.

KW - Humans

KW - Monocarboxylic Acid Transporters/genetics metabolism

KW - Symporters/genetics metabolism

KW - Male

KW - Phenotype

KW - Deep Learning

KW - Female

KW - Muscular Atrophy/genetics metabolism pathology

KW - Thyroid Hormones/metabolism genetics

KW - Severity of Illness Index

KW - Child

KW - Genetic Association Studies

KW - Genomics/methods

KW - Muscle Hypotonia/genetics metabolism

KW - Loss of Function Mutation

KW - Adolescent

KW - Adult

KW - Child, Preschool

KW - Genetic Variation

KW - X-Linked Intellectual Disability/genetics metabolism

U2 - 10.1038/s41467-025-56628-w

DO - 10.1038/s41467-025-56628-w

M3 - Article

SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 2479

ER -

Mapping variants in thyroid hormone transporter MCT8 to disease severity by genomic, phenotypic, functional, structural and deep learning integration

Abstract

Keywords

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