Treatment of ARS deficiencies with specific amino acids

Gautam Kok; Laura Tseng; Imre F. Schene; Monique E. Dijsselhof; Gajja Salomons; Marisa I. Mendes; Desiree E. C. Smith; Arnaud Wiedemann; Marie Canton; François Feillet; Tom J. de Koning; Megan Boothe; Joy Dean; Rachel Kassel; Elise A. Ferreira; Margreet van den Born; Edward E. S. Nieuwenhuis; Holger Rehmann; Suzanne W. J. Terheggen-Lagro; Clara D. M. van Karnebeek; Sabine A. Fuchs

doi:https://doi.org/10.1038/s41436-021-01249-z

Treatment of ARS deficiencies with specific amino acids

Gautam Kok, Laura Tseng, Imre F. Schene, Monique E. Dijsselhof, Gajja Salomons, Marisa I. Mendes, Desiree E. C. Smith, Arnaud Wiedemann, Marie Canton, François Feillet, Tom J. de Koning, Megan Boothe, Joy Dean, Rachel Kassel, Elise A. Ferreira, Margreet van den Born, Edward E. S. Nieuwenhuis, Holger Rehmann, Suzanne W. J. Terheggen-Lagro, Clara D. M. van KarnebeekSabine A. Fuchs

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

18 Citations (Scopus)

Abstract

Purpose: Recessive cytosolic aminoacyl-tRNA synthetase (ARS) deficiencies are severe multiorgan diseases, with limited treatment options. By loading transfer RNAs (tRNAs) with their cognate amino acids, ARS are essential for protein translation. However, it remains unknown why ARS deficiencies lead to specific symptoms, especially early life and during infections. We set out to increase pathophysiological insight and improve therapeutic possibilities. Methods: In fibroblasts from patients with isoleucyl-RS (IARS), leucyl-RS (LARS), phenylalanyl-RS-beta-subunit (FARSB), and seryl-RS (SARS) deficiencies, we investigated aminoacylation activity, thermostability, and sensitivity to ARS-specific amino acid concentrations, and developed personalized treatments. Results: Aminoacylation activity was reduced in all patients, and further diminished at 38.5/40 °C (PLARS and PFARSB), consistent with infectious deteriorations. With lower cognate amino acid concentrations, patient fibroblast growth was severely affected. To prevent local and/or temporal deficiencies, we treated patients with corresponding amino acids (follow-up: 1/2–2 2/3rd years), and intensified treatment during infections. All patients showed beneficial treatment effects, most strikingly in growth (without tube feeding), head circumference, development, coping with infections, and oxygen dependency. Conclusion: For these four ARS deficiencies, we observed a common disease mechanism of episodic insufficient aminoacylation to meet translational demands and illustrate the power of amino acid supplementation for the expanding ARS patient group. Moreover, we provide a strategy for personalized preclinical functional evaluation.

Original language	English
Pages (from-to)	2202-2207
Number of pages	6
Journal	Genetics in medicine
Volume	23
Issue number	11
Early online date	2021
DOIs	https://doi.org/10.1038/s41436-021-01249-z
Publication status	Published - 1 Nov 2021

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Kok, G., Tseng, L., Schene, I. F., Dijsselhof, M. E., Salomons, G., Mendes, M. I., Smith, D. E. C., Wiedemann, A., Canton, M., Feillet, F., de Koning, T. J., Boothe, M., Dean, J., Kassel, R., Ferreira, E. A., van den Born, M., Nieuwenhuis, E. E. S., Rehmann, H., Terheggen-Lagro, S. W. J., ... Fuchs, S. A. (2021). Treatment of ARS deficiencies with specific amino acids. Genetics in medicine, 23(11), 2202-2207. https://doi.org/10.1038/s41436-021-01249-z

@article{17a5ce5bf20d4fa7846436c0a65dd068,

title = "Treatment of ARS deficiencies with specific amino acids",

abstract = "Purpose: Recessive cytosolic aminoacyl-tRNA synthetase (ARS) deficiencies are severe multiorgan diseases, with limited treatment options. By loading transfer RNAs (tRNAs) with their cognate amino acids, ARS are essential for protein translation. However, it remains unknown why ARS deficiencies lead to specific symptoms, especially early life and during infections. We set out to increase pathophysiological insight and improve therapeutic possibilities. Methods: In fibroblasts from patients with isoleucyl-RS (IARS), leucyl-RS (LARS), phenylalanyl-RS-beta-subunit (FARSB), and seryl-RS (SARS) deficiencies, we investigated aminoacylation activity, thermostability, and sensitivity to ARS-specific amino acid concentrations, and developed personalized treatments. Results: Aminoacylation activity was reduced in all patients, and further diminished at 38.5/40 °C (PLARS and PFARSB), consistent with infectious deteriorations. With lower cognate amino acid concentrations, patient fibroblast growth was severely affected. To prevent local and/or temporal deficiencies, we treated patients with corresponding amino acids (follow-up: 1/2–2 2/3rd years), and intensified treatment during infections. All patients showed beneficial treatment effects, most strikingly in growth (without tube feeding), head circumference, development, coping with infections, and oxygen dependency. Conclusion: For these four ARS deficiencies, we observed a common disease mechanism of episodic insufficient aminoacylation to meet translational demands and illustrate the power of amino acid supplementation for the expanding ARS patient group. Moreover, we provide a strategy for personalized preclinical functional evaluation.",

author = "Gautam Kok and Laura Tseng and Schene, {Imre F.} and Dijsselhof, {Monique E.} and Gajja Salomons and Mendes, {Marisa I.} and Smith, {Desiree E. C.} and Arnaud Wiedemann and Marie Canton and Fran{\c c}ois Feillet and {de Koning}, {Tom J.} and Megan Boothe and Joy Dean and Rachel Kassel and Ferreira, {Elise A.} and {van den Born}, Margreet and Nieuwenhuis, {Edward E. S.} and Holger Rehmann and Terheggen-Lagro, {Suzanne W. J.} and {van Karnebeek}, {Clara D. M.} and Fuchs, {Sabine A.}",

note = "Funding Information: We are grateful to the patients and their families for participation in our study, and to our clinical colleagues at the Utrecht and Amsterdam University Medical Centers (The Netherlands), the University of Alabama School of Medicine (USA), and Nancy Regional and University Hospital Center (France) for their contribution to diagnosis and management of the patients. The study was performed by members of United for Metabolic Diseases, funded by Stichting Metakids. The graphical abstract was created using Biorender. Publisher Copyright: {\textcopyright} 2021, The Author(s), under exclusive licence to the American College of Medical Genetics and Genomics.",

year = "2021",

month = nov,

day = "1",

doi = "https://doi.org/10.1038/s41436-021-01249-z",

language = "English",

volume = "23",

pages = "2202--2207",

journal = "Genetics in medicine",

issn = "1098-3600",

publisher = "Lippincott Williams and Wilkins",

number = "11",

}

Kok, G, Tseng, L, Schene, IF, Dijsselhof, ME, Salomons, G , Mendes, MI , Smith, DEC, Wiedemann, A, Canton, M, Feillet, F, de Koning, TJ, Boothe, M, Dean, J, Kassel, R, Ferreira, EA, van den Born, M, Nieuwenhuis, EES, Rehmann, H, Terheggen-Lagro, SWJ , van Karnebeek, CDM & Fuchs, SA 2021, 'Treatment of ARS deficiencies with specific amino acids', Genetics in medicine, vol. 23, no. 11, pp. 2202-2207. https://doi.org/10.1038/s41436-021-01249-z

TY - JOUR

T1 - Treatment of ARS deficiencies with specific amino acids

AU - Kok, Gautam

AU - Tseng, Laura

AU - Schene, Imre F.

AU - Dijsselhof, Monique E.

AU - Salomons, Gajja

AU - Mendes, Marisa I.

AU - Smith, Desiree E. C.

AU - Wiedemann, Arnaud

AU - Canton, Marie

AU - Feillet, François

AU - de Koning, Tom J.

AU - Boothe, Megan

AU - Dean, Joy

AU - Kassel, Rachel

AU - Ferreira, Elise A.

AU - van den Born, Margreet

AU - Nieuwenhuis, Edward E. S.

AU - Rehmann, Holger

AU - Terheggen-Lagro, Suzanne W. J.

AU - van Karnebeek, Clara D. M.

AU - Fuchs, Sabine A.

N1 - Funding Information: We are grateful to the patients and their families for participation in our study, and to our clinical colleagues at the Utrecht and Amsterdam University Medical Centers (The Netherlands), the University of Alabama School of Medicine (USA), and Nancy Regional and University Hospital Center (France) for their contribution to diagnosis and management of the patients. The study was performed by members of United for Metabolic Diseases, funded by Stichting Metakids. The graphical abstract was created using Biorender. Publisher Copyright: © 2021, The Author(s), under exclusive licence to the American College of Medical Genetics and Genomics.

PY - 2021/11/1

Y1 - 2021/11/1

N2 - Purpose: Recessive cytosolic aminoacyl-tRNA synthetase (ARS) deficiencies are severe multiorgan diseases, with limited treatment options. By loading transfer RNAs (tRNAs) with their cognate amino acids, ARS are essential for protein translation. However, it remains unknown why ARS deficiencies lead to specific symptoms, especially early life and during infections. We set out to increase pathophysiological insight and improve therapeutic possibilities. Methods: In fibroblasts from patients with isoleucyl-RS (IARS), leucyl-RS (LARS), phenylalanyl-RS-beta-subunit (FARSB), and seryl-RS (SARS) deficiencies, we investigated aminoacylation activity, thermostability, and sensitivity to ARS-specific amino acid concentrations, and developed personalized treatments. Results: Aminoacylation activity was reduced in all patients, and further diminished at 38.5/40 °C (PLARS and PFARSB), consistent with infectious deteriorations. With lower cognate amino acid concentrations, patient fibroblast growth was severely affected. To prevent local and/or temporal deficiencies, we treated patients with corresponding amino acids (follow-up: 1/2–2 2/3rd years), and intensified treatment during infections. All patients showed beneficial treatment effects, most strikingly in growth (without tube feeding), head circumference, development, coping with infections, and oxygen dependency. Conclusion: For these four ARS deficiencies, we observed a common disease mechanism of episodic insufficient aminoacylation to meet translational demands and illustrate the power of amino acid supplementation for the expanding ARS patient group. Moreover, we provide a strategy for personalized preclinical functional evaluation.

AB - Purpose: Recessive cytosolic aminoacyl-tRNA synthetase (ARS) deficiencies are severe multiorgan diseases, with limited treatment options. By loading transfer RNAs (tRNAs) with their cognate amino acids, ARS are essential for protein translation. However, it remains unknown why ARS deficiencies lead to specific symptoms, especially early life and during infections. We set out to increase pathophysiological insight and improve therapeutic possibilities. Methods: In fibroblasts from patients with isoleucyl-RS (IARS), leucyl-RS (LARS), phenylalanyl-RS-beta-subunit (FARSB), and seryl-RS (SARS) deficiencies, we investigated aminoacylation activity, thermostability, and sensitivity to ARS-specific amino acid concentrations, and developed personalized treatments. Results: Aminoacylation activity was reduced in all patients, and further diminished at 38.5/40 °C (PLARS and PFARSB), consistent with infectious deteriorations. With lower cognate amino acid concentrations, patient fibroblast growth was severely affected. To prevent local and/or temporal deficiencies, we treated patients with corresponding amino acids (follow-up: 1/2–2 2/3rd years), and intensified treatment during infections. All patients showed beneficial treatment effects, most strikingly in growth (without tube feeding), head circumference, development, coping with infections, and oxygen dependency. Conclusion: For these four ARS deficiencies, we observed a common disease mechanism of episodic insufficient aminoacylation to meet translational demands and illustrate the power of amino acid supplementation for the expanding ARS patient group. Moreover, we provide a strategy for personalized preclinical functional evaluation.

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UR - https://www.ncbi.nlm.nih.gov/pubmed/34194004

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U2 - https://doi.org/10.1038/s41436-021-01249-z

DO - https://doi.org/10.1038/s41436-021-01249-z

M3 - Article

C2 - 34194004

SN - 1098-3600

VL - 23

SP - 2202

EP - 2207

JO - Genetics in medicine

JF - Genetics in medicine

IS - 11

ER -

Treatment of ARS deficiencies with specific amino acids

Abstract

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