Loss of the sphingolipid desaturase DEGS1 causes hypomyelinating leukodystrophy

Devesh C. Pant; Imen Dorboz; Agatha Schluter; Stéphane Fourcade; Nathalie Launay; Javier Joya; Sergio Aguilera-Albesa; Maria Eugenia Yoldi; Carlos Casasnovas; Mary J. Willis; Montserrat Ruiz; Dorothée Ville; Gaetan Lesca; Karine Siquier-Pernet; Isabelle Desguerre; Huifang Yan; Jingmin Wang; Margit Burmeister; Lauren Brady; Mark Tarnopolsky; Carles Cornet; Davide Rubbini; Javier Terriente; Kiely N. James; Damir Musaev; Maha S. Zaki; Marc C. Patterson; Brendan C. Lanpher; Eric W. Klee; Filippo Pinto E Vairo; Elizabeth Wohler; Nara Lygia de M. Sobreira; Julie S. Cohen; Reza Maroofian; Hamid Galehdari; Neda Mazaheri; Gholamreza Shariati; Laurence Colleaux; Diana Rodriguez; Joseph G. Gleeson; Cristina Pujades; Ali Fatemi; Odile Boespflug-Tanguy; Aurora Pujol

doi:10.1172/JCI123959

Loss of the sphingolipid desaturase DEGS1 causes hypomyelinating leukodystrophy

Devesh C. Pant, Imen Dorboz, Agatha Schluter, Stéphane Fourcade, Nathalie Launay, Javier Joya, Sergio Aguilera-Albesa, Maria Eugenia Yoldi, Carlos Casasnovas, Mary J. Willis, Montserrat Ruiz, Dorothée Ville, Gaetan Lesca, Karine Siquier-Pernet, Isabelle Desguerre, Huifang Yan, Jingmin Wang, Margit Burmeister, Lauren Brady, Mark TarnopolskyCarles Cornet, Davide Rubbini, Javier Terriente, Kiely N. James, Damir Musaev, Maha S. Zaki, Marc C. Patterson, Brendan C. Lanpher, Eric W. Klee, Filippo Pinto E Vairo, Elizabeth Wohler, Nara Lygia de M. Sobreira, Julie S. Cohen, Reza Maroofian, Hamid Galehdari, Neda Mazaheri, Gholamreza Shariati, Laurence Colleaux, Diana Rodriguez, Joseph G. Gleeson, Cristina Pujades, Ali Fatemi, Odile Boespflug-Tanguy, Aurora Pujol

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Abstract

Sphingolipid imbalance is the culprit in a variety of neurological diseases, some affecting the myelin sheath. We have used whole-exome sequencing in patients with undetermined leukoencephalopathies to uncover the endoplasmic reticulum lipid desaturase DEGS1 as the causative gene in 19 patients from 13 unrelated families. Shared features among the cases include severe motor arrest, early nystagmus, dystonia, spasticity, and profound failure to thrive. MRI showed hypomyelination, thinning of the corpus callosum, and progressive thalamic and cerebellar atrophy, suggesting a critical role of DEGS1 in myelin development and maintenance. This enzyme converts dihydroceramide (DhCer) into ceramide (Cer) in the final step of the de novo biosynthesis pathway. We detected a marked increase of the substrate DhCer and DhCer/Cer ratios in patients’ fibroblasts and muscle. Further, we used a knockdown approach for disease modeling in Danio rerio, followed by a preclinical test with the first-line treatment for multiple sclerosis, fingolimod (FTY720, Gilenya). The enzymatic inhibition of Cer synthase by fingolimod, 1 step prior to DEGS1 in the pathway, reduced the critical DhCer/ Cer imbalance and the severe locomotor disability, increasing the number of myelinating oligodendrocytes in a zebrafish model. These proof-of-concept results pave the way to clinical translation.

Original language	English (US)
Pages (from-to)	1240-1256
Number of pages	17
Journal	Journal of Clinical Investigation
Volume	129
Issue number	3
DOIs	https://doi.org/10.1172/JCI123959
State	Published - Mar 2019

ASJC Scopus subject areas

Medicine(all)

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10.1172/JCI123959

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Pant, D. C., Dorboz, I., Schluter, A., Fourcade, S., Launay, N., Joya, J., Aguilera-Albesa, S., Yoldi, M. E., Casasnovas, C., Willis, M. J., Ruiz, M., Ville, D., Lesca, G., Siquier-Pernet, K., Desguerre, I., Yan, H., Wang, J., Burmeister, M., Brady, L., ... Pujol, A. (2019). Loss of the sphingolipid desaturase DEGS1 causes hypomyelinating leukodystrophy. Journal of Clinical Investigation, 129(3), 1240-1256. https://doi.org/10.1172/JCI123959

Pant, DC, Dorboz, I, Schluter, A, Fourcade, S, Launay, N, Joya, J, Aguilera-Albesa, S, Yoldi, ME, Casasnovas, C, Willis, MJ, Ruiz, M, Ville, D, Lesca, G, Siquier-Pernet, K, Desguerre, I, Yan, H, Wang, J, Burmeister, M, Brady, L, Tarnopolsky, M, Cornet, C, Rubbini, D, Terriente, J, James, KN, Musaev, D, Zaki, MS, Patterson, MC, Lanpher, BC , Klee, EW , E Vairo, FP, Wohler, E, Sobreira, NLDM, Cohen, JS, Maroofian, R, Galehdari, H, Mazaheri, N, Shariati, G, Colleaux, L, Rodriguez, D, Gleeson, JG, Pujades, C, Fatemi, A, Boespflug-Tanguy, O & Pujol, A 2019, 'Loss of the sphingolipid desaturase DEGS1 causes hypomyelinating leukodystrophy', Journal of Clinical Investigation, vol. 129, no. 3, pp. 1240-1256. https://doi.org/10.1172/JCI123959

@article{d1609b5aaaa6493c89461416844d1f7d,

title = "Loss of the sphingolipid desaturase DEGS1 causes hypomyelinating leukodystrophy",

abstract = "Sphingolipid imbalance is the culprit in a variety of neurological diseases, some affecting the myelin sheath. We have used whole-exome sequencing in patients with undetermined leukoencephalopathies to uncover the endoplasmic reticulum lipid desaturase DEGS1 as the causative gene in 19 patients from 13 unrelated families. Shared features among the cases include severe motor arrest, early nystagmus, dystonia, spasticity, and profound failure to thrive. MRI showed hypomyelination, thinning of the corpus callosum, and progressive thalamic and cerebellar atrophy, suggesting a critical role of DEGS1 in myelin development and maintenance. This enzyme converts dihydroceramide (DhCer) into ceramide (Cer) in the final step of the de novo biosynthesis pathway. We detected a marked increase of the substrate DhCer and DhCer/Cer ratios in patients{\textquoteright} fibroblasts and muscle. Further, we used a knockdown approach for disease modeling in Danio rerio, followed by a preclinical test with the first-line treatment for multiple sclerosis, fingolimod (FTY720, Gilenya). The enzymatic inhibition of Cer synthase by fingolimod, 1 step prior to DEGS1 in the pathway, reduced the critical DhCer/ Cer imbalance and the severe locomotor disability, increasing the number of myelinating oligodendrocytes in a zebrafish model. These proof-of-concept results pave the way to clinical translation.",

author = "Pant, {Devesh C.} and Imen Dorboz and Agatha Schluter and St{\'e}phane Fourcade and Nathalie Launay and Javier Joya and Sergio Aguilera-Albesa and Yoldi, {Maria Eugenia} and Carlos Casasnovas and Willis, {Mary J.} and Montserrat Ruiz and Doroth{\'e}e Ville and Gaetan Lesca and Karine Siquier-Pernet and Isabelle Desguerre and Huifang Yan and Jingmin Wang and Margit Burmeister and Lauren Brady and Mark Tarnopolsky and Carles Cornet and Davide Rubbini and Javier Terriente and James, {Kiely N.} and Damir Musaev and Zaki, {Maha S.} and Patterson, {Marc C.} and Lanpher, {Brendan C.} and Klee, {Eric W.} and {E Vairo}, {Filippo Pinto} and Elizabeth Wohler and Sobreira, {Nara Lygia de M.} and Cohen, {Julie S.} and Reza Maroofian and Hamid Galehdari and Neda Mazaheri and Gholamreza Shariati and Laurence Colleaux and Diana Rodriguez and Gleeson, {Joseph G.} and Cristina Pujades and Ali Fatemi and Odile Boespflug-Tanguy and Aurora Pujol",

note = "Funding Information: We thank the CERCA Program/Generalitat de Catalunya for institutional support. We also thank Juanjo Mart{\'i}nez and Cristina Guilera for excellent technical assistance and Asociaci{\'o}n Espa{\~n}ola contra las Leucodistrofias (ALE-ELA Espa{\~n}a). We are indebted to the NIH NeuroBioBank for supplying the case material used for the human studies. The authors thank the affected individuals and their families for participation in this study. This study was supported by the ISCIII (FIS PI14/00581) (cofunded by the European Regional Development Fund); {\textquoteleft}La Marat{\'o} de TV3{\textquoteright} Foundation 345/C/2014 (to AP, C. Casasnovas, and CP); the Hesperia Foundation and CIBER on Rare Diseases (CIBERER) (ACCI14-759) and the Secretariat for Universities and Research of the Ministry of Business and Knowledge of the Government of Catalonia (2017SGR1206) to AP; the Spanish Ministry of Economy and Competitiveness (MINECO-FEDER) (BFU2015-67400-P) to CP; the Spanish Institute for Health Carlos III (Miguel Servet program CPII16/00016) to SF; CIBERER to NL and MR; and a predoctoral fellowship awarded to DP from the Government of Catalonia through L′Ag{\`e}ncia de Gesti{\'o} d{\textquoteright}Ajuts Universitaris i de Recerca (AGAUR; FI-DGR 2014). XJ acknowledges a Sara Borrell postdoctoral fellowship from Instituto de Salud Carlos III. The National Research Agency (ANR-10-IAHU-01) and Fondation pour la Recherche M{\'e}dicale (DEQ20160334938) provided grants to LC. The authors thank the members of LEUKOFRANCE, particularly the Biobank in Clermont Ferrand (Eleonore Pierre and Philippe Vago) and Kremlin Bicetre (Elise Lebigot and Abdel-hamid Slama) University Hospitals. The European Union FP7 RD-Connect project, ELA Foundation (2009-007I4AV2), and “Les amis de Ianis” association (Ploudaniel, France) provided grants to OBT. I. Dorboz was supported by an ELA grant and is currently supported by the RD-connect project. JGG is supported by NIH grants P01HD070494, 1R01NS098004, R01NS048453, R01NS052455, and UL1TR001866 from the National Center for Advancing Translational Sciences (NCATS), the NIH Clinical and Translational Science Award (CTSA) program, the Simons Foundation Autism Research Initiative (grant 275275), Howard Hughes Medical Institute, and the Qatar National Research Foundation (NPRP 6-1463-3-351). We thank the Yale University Center for Mendelian Genomics (Mark Gerstein, Murat Gunel, Richard P. Lifton, Shrikant M. Mane, 5UM1HG006504) and the Broad Institute (Daniel G. MacArthur and Heidi L. Rehm, 5UM1HG008900) for sequencing support. NS was funded by NIH grant 1U54 HG006542. The Baylor-Hopkins Center for Mendelian Genomics and GeneMatcher are supported by a grant from the National Human Genome Research Institute (1U54HG006493). AF was supported by a Kennedy Krieger Institute Intellectual and Developmental Disabilities Research Center grant (funded through NICHD U54 HD079123). MB was funded by NIH grant NS056780 and the National Ataxia Foundation. MCP was funded by grants from the NIH (NS 65768-01), the Peggy Furth Fund, and the National MS Society. EWK was funded by the Mayo Clinic Center for Individualized Medicine (CIM), the Investigative and Functional Genomics Program, and the William O. Lund, Jr. and Natalie C. Lund Charitable Foundation. Genetic testing was performed under the Care4Rare Canada Consortium funded by Genome Canada, the Canadian Institutes of Health Research, the Ontario Genomics Institute, Ontario Research Fund, Genome Quebec, and Children{\textquoteright}s Hospital of Eastern Ontario Foundation (to MT). We wish to acknowledge the contribution of the high-throughput sequencing platform of the McGill University and G{\'e}nome Qu{\'e}bec Innovation Centre, Mon-tr{\'e}al, Canada. We are grateful to Cheol-Hee Kim for providing the Tol2 transposon vector, and Bellvitge Biobank for providing control human muscle tissues. AP and EWK are members of the Undiagnosed Diseases Program International (UDNI). The views expressed herein are the authors{\textquoteright} and do not necessarily reflect the official policy or position of the Department of the Navy, Department of Defense, or the US Government. Publisher Copyright: Copyright 2019, American Society for Clinical Investigation.",

year = "2019",

month = mar,

doi = "10.1172/JCI123959",

language = "English (US)",

volume = "129",

pages = "1240--1256",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

publisher = "The American Society for Clinical Investigation",

number = "3",

}

TY - JOUR

T1 - Loss of the sphingolipid desaturase DEGS1 causes hypomyelinating leukodystrophy

AU - Pant, Devesh C.

AU - Dorboz, Imen

AU - Schluter, Agatha

AU - Fourcade, Stéphane

AU - Launay, Nathalie

AU - Joya, Javier

AU - Aguilera-Albesa, Sergio

AU - Yoldi, Maria Eugenia

AU - Casasnovas, Carlos

AU - Willis, Mary J.

AU - Ruiz, Montserrat

AU - Ville, Dorothée

AU - Lesca, Gaetan

AU - Siquier-Pernet, Karine

AU - Desguerre, Isabelle

AU - Yan, Huifang

AU - Wang, Jingmin

AU - Burmeister, Margit

AU - Brady, Lauren

AU - Tarnopolsky, Mark

AU - Cornet, Carles

AU - Rubbini, Davide

AU - Terriente, Javier

AU - James, Kiely N.

AU - Musaev, Damir

AU - Zaki, Maha S.

AU - Patterson, Marc C.

AU - Lanpher, Brendan C.

AU - Klee, Eric W.

AU - E Vairo, Filippo Pinto

AU - Wohler, Elizabeth

AU - Sobreira, Nara Lygia de M.

AU - Cohen, Julie S.

AU - Maroofian, Reza

AU - Galehdari, Hamid

AU - Mazaheri, Neda

AU - Shariati, Gholamreza

AU - Colleaux, Laurence

AU - Rodriguez, Diana

AU - Gleeson, Joseph G.

AU - Pujades, Cristina

AU - Fatemi, Ali

AU - Boespflug-Tanguy, Odile

AU - Pujol, Aurora

N1 - Funding Information: We thank the CERCA Program/Generalitat de Catalunya for institutional support. We also thank Juanjo Martínez and Cristina Guilera for excellent technical assistance and Asociación Española contra las Leucodistrofias (ALE-ELA España). We are indebted to the NIH NeuroBioBank for supplying the case material used for the human studies. The authors thank the affected individuals and their families for participation in this study. This study was supported by the ISCIII (FIS PI14/00581) (cofunded by the European Regional Development Fund); ‘La Marató de TV3’ Foundation 345/C/2014 (to AP, C. Casasnovas, and CP); the Hesperia Foundation and CIBER on Rare Diseases (CIBERER) (ACCI14-759) and the Secretariat for Universities and Research of the Ministry of Business and Knowledge of the Government of Catalonia (2017SGR1206) to AP; the Spanish Ministry of Economy and Competitiveness (MINECO-FEDER) (BFU2015-67400-P) to CP; the Spanish Institute for Health Carlos III (Miguel Servet program CPII16/00016) to SF; CIBERER to NL and MR; and a predoctoral fellowship awarded to DP from the Government of Catalonia through L′Agència de Gestió d’Ajuts Universitaris i de Recerca (AGAUR; FI-DGR 2014). XJ acknowledges a Sara Borrell postdoctoral fellowship from Instituto de Salud Carlos III. The National Research Agency (ANR-10-IAHU-01) and Fondation pour la Recherche Médicale (DEQ20160334938) provided grants to LC. The authors thank the members of LEUKOFRANCE, particularly the Biobank in Clermont Ferrand (Eleonore Pierre and Philippe Vago) and Kremlin Bicetre (Elise Lebigot and Abdel-hamid Slama) University Hospitals. The European Union FP7 RD-Connect project, ELA Foundation (2009-007I4AV2), and “Les amis de Ianis” association (Ploudaniel, France) provided grants to OBT. I. Dorboz was supported by an ELA grant and is currently supported by the RD-connect project. JGG is supported by NIH grants P01HD070494, 1R01NS098004, R01NS048453, R01NS052455, and UL1TR001866 from the National Center for Advancing Translational Sciences (NCATS), the NIH Clinical and Translational Science Award (CTSA) program, the Simons Foundation Autism Research Initiative (grant 275275), Howard Hughes Medical Institute, and the Qatar National Research Foundation (NPRP 6-1463-3-351). We thank the Yale University Center for Mendelian Genomics (Mark Gerstein, Murat Gunel, Richard P. Lifton, Shrikant M. Mane, 5UM1HG006504) and the Broad Institute (Daniel G. MacArthur and Heidi L. Rehm, 5UM1HG008900) for sequencing support. NS was funded by NIH grant 1U54 HG006542. The Baylor-Hopkins Center for Mendelian Genomics and GeneMatcher are supported by a grant from the National Human Genome Research Institute (1U54HG006493). AF was supported by a Kennedy Krieger Institute Intellectual and Developmental Disabilities Research Center grant (funded through NICHD U54 HD079123). MB was funded by NIH grant NS056780 and the National Ataxia Foundation. MCP was funded by grants from the NIH (NS 65768-01), the Peggy Furth Fund, and the National MS Society. EWK was funded by the Mayo Clinic Center for Individualized Medicine (CIM), the Investigative and Functional Genomics Program, and the William O. Lund, Jr. and Natalie C. Lund Charitable Foundation. Genetic testing was performed under the Care4Rare Canada Consortium funded by Genome Canada, the Canadian Institutes of Health Research, the Ontario Genomics Institute, Ontario Research Fund, Genome Quebec, and Children’s Hospital of Eastern Ontario Foundation (to MT). We wish to acknowledge the contribution of the high-throughput sequencing platform of the McGill University and Génome Québec Innovation Centre, Mon-tréal, Canada. We are grateful to Cheol-Hee Kim for providing the Tol2 transposon vector, and Bellvitge Biobank for providing control human muscle tissues. AP and EWK are members of the Undiagnosed Diseases Program International (UDNI). The views expressed herein are the authors’ and do not necessarily reflect the official policy or position of the Department of the Navy, Department of Defense, or the US Government. Publisher Copyright: Copyright 2019, American Society for Clinical Investigation.

PY - 2019/3

Y1 - 2019/3

N2 - Sphingolipid imbalance is the culprit in a variety of neurological diseases, some affecting the myelin sheath. We have used whole-exome sequencing in patients with undetermined leukoencephalopathies to uncover the endoplasmic reticulum lipid desaturase DEGS1 as the causative gene in 19 patients from 13 unrelated families. Shared features among the cases include severe motor arrest, early nystagmus, dystonia, spasticity, and profound failure to thrive. MRI showed hypomyelination, thinning of the corpus callosum, and progressive thalamic and cerebellar atrophy, suggesting a critical role of DEGS1 in myelin development and maintenance. This enzyme converts dihydroceramide (DhCer) into ceramide (Cer) in the final step of the de novo biosynthesis pathway. We detected a marked increase of the substrate DhCer and DhCer/Cer ratios in patients’ fibroblasts and muscle. Further, we used a knockdown approach for disease modeling in Danio rerio, followed by a preclinical test with the first-line treatment for multiple sclerosis, fingolimod (FTY720, Gilenya). The enzymatic inhibition of Cer synthase by fingolimod, 1 step prior to DEGS1 in the pathway, reduced the critical DhCer/ Cer imbalance and the severe locomotor disability, increasing the number of myelinating oligodendrocytes in a zebrafish model. These proof-of-concept results pave the way to clinical translation.

AB - Sphingolipid imbalance is the culprit in a variety of neurological diseases, some affecting the myelin sheath. We have used whole-exome sequencing in patients with undetermined leukoencephalopathies to uncover the endoplasmic reticulum lipid desaturase DEGS1 as the causative gene in 19 patients from 13 unrelated families. Shared features among the cases include severe motor arrest, early nystagmus, dystonia, spasticity, and profound failure to thrive. MRI showed hypomyelination, thinning of the corpus callosum, and progressive thalamic and cerebellar atrophy, suggesting a critical role of DEGS1 in myelin development and maintenance. This enzyme converts dihydroceramide (DhCer) into ceramide (Cer) in the final step of the de novo biosynthesis pathway. We detected a marked increase of the substrate DhCer and DhCer/Cer ratios in patients’ fibroblasts and muscle. Further, we used a knockdown approach for disease modeling in Danio rerio, followed by a preclinical test with the first-line treatment for multiple sclerosis, fingolimod (FTY720, Gilenya). The enzymatic inhibition of Cer synthase by fingolimod, 1 step prior to DEGS1 in the pathway, reduced the critical DhCer/ Cer imbalance and the severe locomotor disability, increasing the number of myelinating oligodendrocytes in a zebrafish model. These proof-of-concept results pave the way to clinical translation.

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U2 - 10.1172/JCI123959

DO - 10.1172/JCI123959

M3 - Article

C2 - 30620337

AN - SCOPUS:85062412118

SN - 0021-9738

VL - 129

SP - 1240

EP - 1256

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 3

ER -

Loss of the sphingolipid desaturase DEGS1 causes hypomyelinating leukodystrophy

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