Variants in LSM7 impair LSM complexes assembly, neurodevelopment in zebrafish and may be associated with an ultra-rare neurological disease

Alexa Derksen; Hung Yu Shih; Diane Forget; Lama Darbelli; Luan T. Tran; Christian Poitras; Kether Guerrero; Sundaresan Tharun; Fowzan S. Alkuraya; Wesam I. Kurdi; Cam Tu Emilie Nguyen; Anne Marie Laberge; Yue Si; Marie Soleil Gauthier; Joshua L. Bonkowsky; Benoit Coulombe; Geneviève Bernard

doi:10.1016/j.xhgg.2021.100034

Variants in LSM7 impair LSM complexes assembly, neurodevelopment in zebrafish and may be associated with an ultra-rare neurological disease

Alexa Derksen, Hung Yu Shih, Diane Forget, Lama Darbelli, Luan T. Tran, Christian Poitras, Kether Guerrero, Sundaresan Tharun, Fowzan S. Alkuraya, Wesam I. Kurdi, Cam Tu Emilie Nguyen, Anne Marie Laberge, Yue Si, Marie Soleil Gauthier, Joshua L. Bonkowsky, Benoit Coulombe, Geneviève Bernard^*

^*Corresponding author for this work

Molecular and Cell Biology

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

8 Scopus citations

Abstract

Leukodystrophies, genetic neurodevelopmental and/or neurodegenerative disorders of cerebral white matter, result from impaired myelin homeostasis and metabolism. Numerous genes have been implicated in these heterogeneous disorders; however, many individuals remain without a molecular diagnosis. Using whole-exome sequencing, biallelic variants in LSM7 were uncovered in two unrelated individuals, one with a leukodystrophy and the other who died in utero. LSM7 is part of the two principle LSM protein complexes in eukaryotes, namely LSM1-7 and LSM2-8. Here, we investigate the molecular and functional outcomes of these LSM7 biallelic variants in vitro and in vivo. Affinity purification-mass spectrometry of the LSM7 variants showed defects in the assembly of both LSM complexes. Lsm7 knockdown in zebrafish led to central nervous system defects, including impaired oligodendrocyte development and motor behavior. Our findings demonstrate that variants in LSM7 cause misassembly of the LSM complexes, impair neurodevelopment of the zebrafish, and may be implicated in human disease. The identification of more affected individuals is needed before the molecular mechanisms of mRNA decay and splicing regulation are added to the categories of biological dysfunctions implicated in leukodystrophies, neurodevelopmental and/or neurodegenerative diseases.

Original language	English
Article number	100034
Journal	Human Genetics and Genomics Advances
Volume	2
Issue number	3
DOIs	https://doi.org/10.1016/j.xhgg.2021.100034
State	Published - 8 Jul 2021

Keywords

leukodystrophy
leukoencephalopathy
LSM1-7 complex
LSM2-8 complex
LSM7
neurodevelopment

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10.1016/j.xhgg.2021.100034

Cite this

Derksen, A., Shih, H. Y., Forget, D., Darbelli, L., Tran, L. T., Poitras, C., Guerrero, K., Tharun, S., Alkuraya, F. S., Kurdi, W. I., Nguyen, C. T. E., Laberge, A. M., Si, Y., Gauthier, M. S., Bonkowsky, J. L., Coulombe, B., & Bernard, G. (2021). Variants in LSM7 impair LSM complexes assembly, neurodevelopment in zebrafish and may be associated with an ultra-rare neurological disease. Human Genetics and Genomics Advances, 2(3), Article 100034. https://doi.org/10.1016/j.xhgg.2021.100034

@article{b840708fdeeb4f028acfb495d2cb9a9a,

title = "Variants in LSM7 impair LSM complexes assembly, neurodevelopment in zebrafish and may be associated with an ultra-rare neurological disease",

abstract = "Leukodystrophies, genetic neurodevelopmental and/or neurodegenerative disorders of cerebral white matter, result from impaired myelin homeostasis and metabolism. Numerous genes have been implicated in these heterogeneous disorders; however, many individuals remain without a molecular diagnosis. Using whole-exome sequencing, biallelic variants in LSM7 were uncovered in two unrelated individuals, one with a leukodystrophy and the other who died in utero. LSM7 is part of the two principle LSM protein complexes in eukaryotes, namely LSM1-7 and LSM2-8. Here, we investigate the molecular and functional outcomes of these LSM7 biallelic variants in vitro and in vivo. Affinity purification-mass spectrometry of the LSM7 variants showed defects in the assembly of both LSM complexes. Lsm7 knockdown in zebrafish led to central nervous system defects, including impaired oligodendrocyte development and motor behavior. Our findings demonstrate that variants in LSM7 cause misassembly of the LSM complexes, impair neurodevelopment of the zebrafish, and may be implicated in human disease. The identification of more affected individuals is needed before the molecular mechanisms of mRNA decay and splicing regulation are added to the categories of biological dysfunctions implicated in leukodystrophies, neurodevelopmental and/or neurodegenerative diseases.",

keywords = "leukodystrophy, leukoencephalopathy, LSM1-7 complex, LSM2-8 complex, LSM7, neurodevelopment",

author = "Alexa Derksen and Shih, {Hung Yu} and Diane Forget and Lama Darbelli and Tran, {Luan T.} and Christian Poitras and Kether Guerrero and Sundaresan Tharun and Alkuraya, {Fowzan S.} and Kurdi, {Wesam I.} and Nguyen, {Cam Tu Emilie} and Laberge, {Anne Marie} and Yue Si and Gauthier, {Marie Soleil} and Bonkowsky, {Joshua L.} and Benoit Coulombe and Genevi{\`e}ve Bernard",

note = "Publisher Copyright: {\textcopyright} 2021 The Authors",

year = "2021",

month = jul,

day = "8",

doi = "10.1016/j.xhgg.2021.100034",

language = "English",

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Derksen, A, Shih, HY, Forget, D, Darbelli, L, Tran, LT, Poitras, C, Guerrero, K, Tharun, S, Alkuraya, FS, Kurdi, WI, Nguyen, CTE, Laberge, AM, Si, Y, Gauthier, MS, Bonkowsky, JL, Coulombe, B & Bernard, G 2021, 'Variants in LSM7 impair LSM complexes assembly, neurodevelopment in zebrafish and may be associated with an ultra-rare neurological disease', Human Genetics and Genomics Advances, vol. 2, no. 3, 100034. https://doi.org/10.1016/j.xhgg.2021.100034

TY - JOUR

T1 - Variants in LSM7 impair LSM complexes assembly, neurodevelopment in zebrafish and may be associated with an ultra-rare neurological disease

AU - Derksen, Alexa

AU - Shih, Hung Yu

AU - Forget, Diane

AU - Darbelli, Lama

AU - Tran, Luan T.

AU - Poitras, Christian

AU - Guerrero, Kether

AU - Tharun, Sundaresan

AU - Alkuraya, Fowzan S.

AU - Kurdi, Wesam I.

AU - Nguyen, Cam Tu Emilie

AU - Laberge, Anne Marie

AU - Si, Yue

AU - Gauthier, Marie Soleil

AU - Bonkowsky, Joshua L.

AU - Coulombe, Benoit

AU - Bernard, Geneviève

PY - 2021/7/8

Y1 - 2021/7/8

N2 - Leukodystrophies, genetic neurodevelopmental and/or neurodegenerative disorders of cerebral white matter, result from impaired myelin homeostasis and metabolism. Numerous genes have been implicated in these heterogeneous disorders; however, many individuals remain without a molecular diagnosis. Using whole-exome sequencing, biallelic variants in LSM7 were uncovered in two unrelated individuals, one with a leukodystrophy and the other who died in utero. LSM7 is part of the two principle LSM protein complexes in eukaryotes, namely LSM1-7 and LSM2-8. Here, we investigate the molecular and functional outcomes of these LSM7 biallelic variants in vitro and in vivo. Affinity purification-mass spectrometry of the LSM7 variants showed defects in the assembly of both LSM complexes. Lsm7 knockdown in zebrafish led to central nervous system defects, including impaired oligodendrocyte development and motor behavior. Our findings demonstrate that variants in LSM7 cause misassembly of the LSM complexes, impair neurodevelopment of the zebrafish, and may be implicated in human disease. The identification of more affected individuals is needed before the molecular mechanisms of mRNA decay and splicing regulation are added to the categories of biological dysfunctions implicated in leukodystrophies, neurodevelopmental and/or neurodegenerative diseases.

AB - Leukodystrophies, genetic neurodevelopmental and/or neurodegenerative disorders of cerebral white matter, result from impaired myelin homeostasis and metabolism. Numerous genes have been implicated in these heterogeneous disorders; however, many individuals remain without a molecular diagnosis. Using whole-exome sequencing, biallelic variants in LSM7 were uncovered in two unrelated individuals, one with a leukodystrophy and the other who died in utero. LSM7 is part of the two principle LSM protein complexes in eukaryotes, namely LSM1-7 and LSM2-8. Here, we investigate the molecular and functional outcomes of these LSM7 biallelic variants in vitro and in vivo. Affinity purification-mass spectrometry of the LSM7 variants showed defects in the assembly of both LSM complexes. Lsm7 knockdown in zebrafish led to central nervous system defects, including impaired oligodendrocyte development and motor behavior. Our findings demonstrate that variants in LSM7 cause misassembly of the LSM complexes, impair neurodevelopment of the zebrafish, and may be implicated in human disease. The identification of more affected individuals is needed before the molecular mechanisms of mRNA decay and splicing regulation are added to the categories of biological dysfunctions implicated in leukodystrophies, neurodevelopmental and/or neurodegenerative diseases.

KW - leukodystrophy

KW - leukoencephalopathy

KW - LSM1-7 complex

KW - LSM2-8 complex

KW - LSM7

KW - neurodevelopment

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U2 - 10.1016/j.xhgg.2021.100034

DO - 10.1016/j.xhgg.2021.100034

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SN - 2666-2477

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