Clinical, neuroradiological, and molecular characterization of mitochondrial threonyl-tRNA-synthetase (TARS2)-related disorder

Andrea Accogli; Sheng Jia Lin; Mariasavina Severino; Sung Hoon Kim; Kevin Huang; Clarissa Rocca; Megan Landsverk; Maha S. Zaki; Almundher Al-Maawali; Varunvenkat M. Srinivasan; Khalid Al-Thihli; G. Bradly Schaefer; Monica Davis; Davide Tonduti; Chiara Doneda; Lara M. Marten; Chris Mühlhausen; Maria Gomez; Eleonora Lamantea; Rafael Mena; Mathilde Nizon; Vincent Procaccio; Amber Begtrup; Aida Telegrafi; Hong Cui; Heidi L. Schulz; Julia Mohr; Saskia Biskup; Mariana Amina Loos; Hilda Verónica Aráoz; Vincenzo Salpietro; Laura Davis Keppen; Manali Chitre; Cassidy Petree; Lucy Raymond; Julie Vogt; Lindsey B. Sawyer; Alice A. Basinger; Signe Vandal Pedersen; Toni S. Pearson; Dorothy K. Grange; Lokesh Lingappa; Paige McDunnah; Rita Horvath; Benjamin Cognè; Bertrand Isidor; Andreas Hahn; Karen W. Gripp; Seyed Mehdi Jafarnejad; Elsebet Østergaard; Carlos E. Prada; Daniele Ghezzi; Vykuntaraju K. Gowda; Robert W. Taylor; Nahum Sonenberg; Henry Houlden; Marie Sissler; Gaurav K. Varshney; Reza Maroofian

doi:10.1016/j.gim.2023.100938

Clinical, neuroradiological, and molecular characterization of mitochondrial threonyl-tRNA-synthetase (TARS2)-related disorder

Andrea Accogli, Sheng Jia Lin, Mariasavina Severino, Sung Hoon Kim, Kevin Huang, Clarissa Rocca, Megan Landsverk, Maha S. Zaki, Almundher Al-Maawali, Varunvenkat M. Srinivasan, Khalid Al-Thihli, G. Bradly Schaefer, Monica Davis, Davide Tonduti, Chiara Doneda, Lara M. Marten, Chris Mühlhausen, Maria Gomez, Eleonora Lamantea, Rafael MenaMathilde Nizon, Vincent Procaccio, Amber Begtrup, Aida Telegrafi, Hong Cui, Heidi L. Schulz, Julia Mohr, Saskia Biskup, Mariana Amina Loos, Hilda Verónica Aráoz, Vincenzo Salpietro, Laura Davis Keppen, Manali Chitre, Cassidy Petree, Lucy Raymond, Julie Vogt, Lindsey B. Sawyer, Alice A. Basinger, Signe Vandal Pedersen, Toni S. Pearson, Dorothy K. Grange, Lokesh Lingappa, Paige McDunnah, Rita Horvath, Benjamin Cognè, Bertrand Isidor, Andreas Hahn, Karen W. Gripp, Seyed Mehdi Jafarnejad, Elsebet Østergaard, Carlos E. Prada, Daniele Ghezzi, Vykuntaraju K. Gowda, Robert W. Taylor, Nahum Sonenberg, Henry Houlden, Marie Sissler, Gaurav K. Varshney^*, Reza Maroofian^*

^*المؤلف المقابل لهذا العمل

Genetics

نتاج البحث: المساهمة في مجلة › Article › مراجعة النظراء

1 اقتباس (Scopus)

ملخص

Purpose: Biallelic variants in TARS2, encoding the mitochondrial threonyl-tRNA-synthetase, have been reported in a small group of individuals displaying a neurodevelopmental phenotype but with limited neuroradiological data and insufficient evidence for causality of the variants. Methods: Exome or genome sequencing was carried out in 15 families. Clinical and neuroradiological evaluation was performed for all affected individuals, including review of 10 previously reported individuals. The pathogenicity of TARS2 variants was evaluated using in vitro assays and a zebrafish model. Results: We report 18 new individuals harboring biallelic TARS2 variants. Phenotypically, these individuals show developmental delay/intellectual disability, regression, cerebellar and cerebral atrophy, basal ganglia signal alterations, hypotonia, cerebellar signs, and increased blood lactate. In vitro studies showed that variants within the TARS2^301-381 region had decreased binding to Rag GTPases, likely impairing mTORC1 activity. The zebrafish model recapitulated key features of the human phenotype and unraveled dysregulation of downstream targets of mTORC1 signaling. Functional testing of the variants confirmed the pathogenicity in a zebrafish model. Conclusion: We define the clinico-radiological spectrum of TARS2-related mitochondrial disease, unveil the likely involvement of the mTORC1 signaling pathway as a distinct molecular mechanism, and establish a TARS2 zebrafish model as an important tool to study variant pathogenicity.

اللغة الأصلية	English
رقم المقال	100938
الصفحات (من إلى)	100938
دورية	Genetics in Medicine
مستوى الصوت	25
رقم الإصدار	11
المعرِّفات الرقمية للأشياء	https://doi.org/10.1016/j.gim.2023.100938
حالة النشر	Published - نوفمبر 1 2023

ASJC Scopus subject areas

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أهداف الأمم المتحدة للتنمية المستدامة

يساهم هذا المخرج في تحقيق أهداف الأمم المتحدة للتنمية المستدامة التالية (SDGs)

الوصول إلى المستند

10.1016/j.gim.2023.100938

الملفات والروابط الأخرى

قم بذكر هذا

Accogli, A., Lin, S. J., Severino, M., Kim, S. H., Huang, K., Rocca, C., Landsverk, M., Zaki, M. S., Al-Maawali, A., Srinivasan, V. M., Al-Thihli, K., Schaefer, G. B., Davis, M., Tonduti, D., Doneda, C., Marten, L. M., Mühlhausen, C., Gomez, M., Lamantea, E., ... Maroofian, R. (2023). Clinical, neuroradiological, and molecular characterization of mitochondrial threonyl-tRNA-synthetase (TARS2)-related disorder. Genetics in Medicine, 25(11), 100938. المقال 100938. https://doi.org/10.1016/j.gim.2023.100938

Clinical, neuroradiological, and molecular characterization of mitochondrial threonyl-tRNA-synthetase (TARS2)-related disorder. / Accogli, Andrea; Lin, Sheng Jia; Severino, Mariasavina وآخرون.
في: Genetics in Medicine, المجلد 25, رقم 11, 100938, ٠١.١١.٢٠٢٣, صفحة 100938.

نتاج البحث: المساهمة في مجلة › Article › مراجعة النظراء

Accogli, A, Lin, SJ, Severino, M, Kim, SH, Huang, K, Rocca, C, Landsverk, M, Zaki, MS, Al-Maawali, A, Srinivasan, VM, Al-Thihli, K, Schaefer, GB, Davis, M, Tonduti, D, Doneda, C, Marten, LM, Mühlhausen, C, Gomez, M, Lamantea, E, Mena, R, Nizon, M, Procaccio, V, Begtrup, A, Telegrafi, A, Cui, H, Schulz, HL, Mohr, J, Biskup, S, Loos, MA, Aráoz, HV, Salpietro, V, Keppen, LD, Chitre, M, Petree, C, Raymond, L, Vogt, J, Sawyer, LB, Basinger, AA, Pedersen, SV, Pearson, TS, Grange, DK, Lingappa, L, McDunnah, P, Horvath, R, Cognè, B, Isidor, B, Hahn, A, Gripp, KW, Jafarnejad, SM, Østergaard, E, Prada, CE, Ghezzi, D, Gowda, VK, Taylor, RW, Sonenberg, N, Houlden, H, Sissler, M, Varshney, GK & Maroofian, R 2023, 'Clinical, neuroradiological, and molecular characterization of mitochondrial threonyl-tRNA-synthetase (TARS2)-related disorder', Genetics in Medicine, المجلد 25, رقم 11, 100938, الصفحات 100938. https://doi.org/10.1016/j.gim.2023.100938

@article{072bc49d44aa4ea5a7f06669bcf38bb1,

title = "Clinical, neuroradiological, and molecular characterization of mitochondrial threonyl-tRNA-synthetase (TARS2)-related disorder",

abstract = "Purpose: Biallelic variants in TARS2, encoding the mitochondrial threonyl-tRNA-synthetase, have been reported in a small group of individuals displaying a neurodevelopmental phenotype but with limited neuroradiological data and insufficient evidence for causality of the variants. Methods: Exome or genome sequencing was carried out in 15 families. Clinical and neuroradiological evaluation was performed for all affected individuals, including review of 10 previously reported individuals. The pathogenicity of TARS2 variants was evaluated using in vitro assays and a zebrafish model. Results: We report 18 new individuals harboring biallelic TARS2 variants. Phenotypically, these individuals show developmental delay/intellectual disability, regression, cerebellar and cerebral atrophy, basal ganglia signal alterations, hypotonia, cerebellar signs, and increased blood lactate. In vitro studies showed that variants within the TARS2301-381 region had decreased binding to Rag GTPases, likely impairing mTORC1 activity. The zebrafish model recapitulated key features of the human phenotype and unraveled dysregulation of downstream targets of mTORC1 signaling. Functional testing of the variants confirmed the pathogenicity in a zebrafish model. Conclusion: We define the clinico-radiological spectrum of TARS2-related mitochondrial disease, unveil the likely involvement of the mTORC1 signaling pathway as a distinct molecular mechanism, and establish a TARS2 zebrafish model as an important tool to study variant pathogenicity.",

keywords = "Cerebellar atrophy, Mitochondrial dysfunction, Mitochondrial threonyl-tRNA-synthetase, mTORC1 signaling, TARS2, Humans, Zebrafish/genetics, RNA, Transfer, Mechanistic Target of Rapamycin Complex 1, Phenotype, Animals, Ligases, Mutation",

author = "Andrea Accogli and Lin, {Sheng Jia} and Mariasavina Severino and Kim, {Sung Hoon} and Kevin Huang and Clarissa Rocca and Megan Landsverk and Zaki, {Maha S.} and Almundher Al-Maawali and Srinivasan, {Varunvenkat M.} and Khalid Al-Thihli and Schaefer, {G. Bradly} and Monica Davis and Davide Tonduti and Chiara Doneda and Marten, {Lara M.} and Chris M{\"u}hlhausen and Maria Gomez and Eleonora Lamantea and Rafael Mena and Mathilde Nizon and Vincent Procaccio and Amber Begtrup and Aida Telegrafi and Hong Cui and Schulz, {Heidi L.} and Julia Mohr and Saskia Biskup and Loos, {Mariana Amina} and Ar{\'a}oz, {Hilda Ver{\'o}nica} and Vincenzo Salpietro and Keppen, {Laura Davis} and Manali Chitre and Cassidy Petree and Lucy Raymond and Julie Vogt and Sawyer, {Lindsey B.} and Basinger, {Alice A.} and Pedersen, {Signe Vandal} and Pearson, {Toni S.} and Grange, {Dorothy K.} and Lokesh Lingappa and Paige McDunnah and Rita Horvath and Benjamin Cogn{\`e} and Bertrand Isidor and Andreas Hahn and Gripp, {Karen W.} and Jafarnejad, {Seyed Mehdi} and Elsebet {\O}stergaard and Prada, {Carlos E.} and Daniele Ghezzi and Gowda, {Vykuntaraju K.} and Taylor, {Robert W.} and Nahum Sonenberg and Henry Houlden and Marie Sissler and Varshney, {Gaurav K.} and Reza Maroofian",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors",

year = "2023",

month = nov,

day = "1",

doi = "10.1016/j.gim.2023.100938",

language = "English",

volume = "25",

pages = "100938",

journal = "Genetics in Medicine",

issn = "1098-3600",

publisher = "Lippincott Williams and Wilkins",

number = "11",

}

TY - JOUR

T1 - Clinical, neuroradiological, and molecular characterization of mitochondrial threonyl-tRNA-synthetase (TARS2)-related disorder

AU - Accogli, Andrea

AU - Lin, Sheng Jia

AU - Severino, Mariasavina

AU - Kim, Sung Hoon

AU - Huang, Kevin

AU - Rocca, Clarissa

AU - Landsverk, Megan

AU - Zaki, Maha S.

AU - Al-Maawali, Almundher

AU - Srinivasan, Varunvenkat M.

AU - Al-Thihli, Khalid

AU - Schaefer, G. Bradly

AU - Davis, Monica

AU - Tonduti, Davide

AU - Doneda, Chiara

AU - Marten, Lara M.

AU - Mühlhausen, Chris

AU - Gomez, Maria

AU - Lamantea, Eleonora

AU - Mena, Rafael

AU - Nizon, Mathilde

AU - Procaccio, Vincent

AU - Begtrup, Amber

AU - Telegrafi, Aida

AU - Cui, Hong

AU - Schulz, Heidi L.

AU - Mohr, Julia

AU - Biskup, Saskia

AU - Loos, Mariana Amina

AU - Aráoz, Hilda Verónica

AU - Salpietro, Vincenzo

AU - Keppen, Laura Davis

AU - Chitre, Manali

AU - Petree, Cassidy

AU - Raymond, Lucy

AU - Vogt, Julie

AU - Sawyer, Lindsey B.

AU - Basinger, Alice A.

AU - Pedersen, Signe Vandal

AU - Pearson, Toni S.

AU - Grange, Dorothy K.

AU - Lingappa, Lokesh

AU - McDunnah, Paige

AU - Horvath, Rita

AU - Cognè, Benjamin

AU - Isidor, Bertrand

AU - Hahn, Andreas

AU - Gripp, Karen W.

AU - Jafarnejad, Seyed Mehdi

AU - Østergaard, Elsebet

AU - Prada, Carlos E.

AU - Ghezzi, Daniele

AU - Gowda, Vykuntaraju K.

AU - Taylor, Robert W.

AU - Sonenberg, Nahum

AU - Houlden, Henry

AU - Sissler, Marie

AU - Varshney, Gaurav K.

AU - Maroofian, Reza

PY - 2023/11/1

Y1 - 2023/11/1

N2 - Purpose: Biallelic variants in TARS2, encoding the mitochondrial threonyl-tRNA-synthetase, have been reported in a small group of individuals displaying a neurodevelopmental phenotype but with limited neuroradiological data and insufficient evidence for causality of the variants. Methods: Exome or genome sequencing was carried out in 15 families. Clinical and neuroradiological evaluation was performed for all affected individuals, including review of 10 previously reported individuals. The pathogenicity of TARS2 variants was evaluated using in vitro assays and a zebrafish model. Results: We report 18 new individuals harboring biallelic TARS2 variants. Phenotypically, these individuals show developmental delay/intellectual disability, regression, cerebellar and cerebral atrophy, basal ganglia signal alterations, hypotonia, cerebellar signs, and increased blood lactate. In vitro studies showed that variants within the TARS2301-381 region had decreased binding to Rag GTPases, likely impairing mTORC1 activity. The zebrafish model recapitulated key features of the human phenotype and unraveled dysregulation of downstream targets of mTORC1 signaling. Functional testing of the variants confirmed the pathogenicity in a zebrafish model. Conclusion: We define the clinico-radiological spectrum of TARS2-related mitochondrial disease, unveil the likely involvement of the mTORC1 signaling pathway as a distinct molecular mechanism, and establish a TARS2 zebrafish model as an important tool to study variant pathogenicity.

AB - Purpose: Biallelic variants in TARS2, encoding the mitochondrial threonyl-tRNA-synthetase, have been reported in a small group of individuals displaying a neurodevelopmental phenotype but with limited neuroradiological data and insufficient evidence for causality of the variants. Methods: Exome or genome sequencing was carried out in 15 families. Clinical and neuroradiological evaluation was performed for all affected individuals, including review of 10 previously reported individuals. The pathogenicity of TARS2 variants was evaluated using in vitro assays and a zebrafish model. Results: We report 18 new individuals harboring biallelic TARS2 variants. Phenotypically, these individuals show developmental delay/intellectual disability, regression, cerebellar and cerebral atrophy, basal ganglia signal alterations, hypotonia, cerebellar signs, and increased blood lactate. In vitro studies showed that variants within the TARS2301-381 region had decreased binding to Rag GTPases, likely impairing mTORC1 activity. The zebrafish model recapitulated key features of the human phenotype and unraveled dysregulation of downstream targets of mTORC1 signaling. Functional testing of the variants confirmed the pathogenicity in a zebrafish model. Conclusion: We define the clinico-radiological spectrum of TARS2-related mitochondrial disease, unveil the likely involvement of the mTORC1 signaling pathway as a distinct molecular mechanism, and establish a TARS2 zebrafish model as an important tool to study variant pathogenicity.

KW - Cerebellar atrophy

KW - Mitochondrial dysfunction

KW - Mitochondrial threonyl-tRNA-synthetase

KW - mTORC1 signaling

KW - TARS2

KW - Humans

KW - Zebrafish/genetics

KW - RNA, Transfer

KW - Mechanistic Target of Rapamycin Complex 1

KW - Phenotype

KW - Animals

KW - Ligases

KW - Mutation

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DO - 10.1016/j.gim.2023.100938

M3 - Article

C2 - 37454282

AN - SCOPUS:85170200663

SN - 1098-3600

VL - 25

SP - 100938

JO - Genetics in Medicine

JF - Genetics in Medicine

IS - 11

M1 - 100938

ER -