Whole Exome Sequencing in Multi-Incident Families Identifies Novel Candidate Genes for Multiple Sclerosis

Multiple sclerosis (MS) is a degenerative disease of the central nervous system in which auto-immunity-induced demyelination occurs. MS is thought to be caused by a complex interplay of environmental and genetic risk factors. While most genetic studies have focused on identifying common genetic vari...

Descripción completa

Detalles Bibliográficos
Autores principales: Horjus, Julia, van Mourik-Banda, Tineke, Heerings, Marco A. P., Hakobjan, Marina, De Witte, Ward, Heersema, Dorothea J., Jansen, Anne J., Strijbis, Eva M. M., de Jong, Brigit A., Slettenaar, Astrid E. J., Zeinstra, Esther M. P. E., Hoogervorst, Erwin L. J., Franke, Barbara, Kruijer, Wiebe, Jongen, Peter J., Visser, Leo J., Poelmans, Geert
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9570223/
https://www.ncbi.nlm.nih.gov/pubmed/36232761
http://dx.doi.org/10.3390/ijms231911461
_version_ 1784810053066293248
author Horjus, Julia
van Mourik-Banda, Tineke
Heerings, Marco A. P.
Hakobjan, Marina
De Witte, Ward
Heersema, Dorothea J.
Jansen, Anne J.
Strijbis, Eva M. M.
de Jong, Brigit A.
Slettenaar, Astrid E. J.
Zeinstra, Esther M. P. E.
Hoogervorst, Erwin L. J.
Franke, Barbara
Kruijer, Wiebe
Jongen, Peter J.
Visser, Leo J.
Poelmans, Geert
author_facet Horjus, Julia
van Mourik-Banda, Tineke
Heerings, Marco A. P.
Hakobjan, Marina
De Witte, Ward
Heersema, Dorothea J.
Jansen, Anne J.
Strijbis, Eva M. M.
de Jong, Brigit A.
Slettenaar, Astrid E. J.
Zeinstra, Esther M. P. E.
Hoogervorst, Erwin L. J.
Franke, Barbara
Kruijer, Wiebe
Jongen, Peter J.
Visser, Leo J.
Poelmans, Geert
author_sort Horjus, Julia
collection PubMed
description Multiple sclerosis (MS) is a degenerative disease of the central nervous system in which auto-immunity-induced demyelination occurs. MS is thought to be caused by a complex interplay of environmental and genetic risk factors. While most genetic studies have focused on identifying common genetic variants for MS through genome-wide association studies, the objective of the present study was to identify rare genetic variants contributing to MS susceptibility. We used whole exome sequencing (WES) followed by co-segregation analyses in nine multi-incident families with two to four affected individuals. WES was performed in 31 family members with and without MS. After applying a suite of selection criteria, co-segregation analyses for a number of rare variants selected from the WES results were performed, adding 24 family members. This approach resulted in 12 exonic rare variants that showed acceptable co-segregation with MS within the nine families, implicating the genes MBP, PLK1, MECP2, MTMR7, TOX3, CPT1A, SORCS1, TRIM66, ITPR3, TTC28, CACNA1F, and PRAM1. Of these, three genes (MBP, MECP2, and CPT1A) have been previously reported as carrying MS-related rare variants. Six additional genes (MTMR7, TOX3, SORCS1, ITPR3, TTC28, and PRAM1) have also been implicated in MS through common genetic variants. The proteins encoded by all twelve genes containing rare variants interact in a molecular framework that points to biological processes involved in (de-/re-)myelination and auto-immunity. Our approach provides clues to possible molecular mechanisms underlying MS that should be studied further in cellular and/or animal models.
format Online
Article
Text
id pubmed-9570223
institution National Center for Biotechnology Information
language English
publishDate 2022
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-95702232022-10-17 Whole Exome Sequencing in Multi-Incident Families Identifies Novel Candidate Genes for Multiple Sclerosis Horjus, Julia van Mourik-Banda, Tineke Heerings, Marco A. P. Hakobjan, Marina De Witte, Ward Heersema, Dorothea J. Jansen, Anne J. Strijbis, Eva M. M. de Jong, Brigit A. Slettenaar, Astrid E. J. Zeinstra, Esther M. P. E. Hoogervorst, Erwin L. J. Franke, Barbara Kruijer, Wiebe Jongen, Peter J. Visser, Leo J. Poelmans, Geert Int J Mol Sci Article Multiple sclerosis (MS) is a degenerative disease of the central nervous system in which auto-immunity-induced demyelination occurs. MS is thought to be caused by a complex interplay of environmental and genetic risk factors. While most genetic studies have focused on identifying common genetic variants for MS through genome-wide association studies, the objective of the present study was to identify rare genetic variants contributing to MS susceptibility. We used whole exome sequencing (WES) followed by co-segregation analyses in nine multi-incident families with two to four affected individuals. WES was performed in 31 family members with and without MS. After applying a suite of selection criteria, co-segregation analyses for a number of rare variants selected from the WES results were performed, adding 24 family members. This approach resulted in 12 exonic rare variants that showed acceptable co-segregation with MS within the nine families, implicating the genes MBP, PLK1, MECP2, MTMR7, TOX3, CPT1A, SORCS1, TRIM66, ITPR3, TTC28, CACNA1F, and PRAM1. Of these, three genes (MBP, MECP2, and CPT1A) have been previously reported as carrying MS-related rare variants. Six additional genes (MTMR7, TOX3, SORCS1, ITPR3, TTC28, and PRAM1) have also been implicated in MS through common genetic variants. The proteins encoded by all twelve genes containing rare variants interact in a molecular framework that points to biological processes involved in (de-/re-)myelination and auto-immunity. Our approach provides clues to possible molecular mechanisms underlying MS that should be studied further in cellular and/or animal models. MDPI 2022-09-28 /pmc/articles/PMC9570223/ /pubmed/36232761 http://dx.doi.org/10.3390/ijms231911461 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Horjus, Julia
van Mourik-Banda, Tineke
Heerings, Marco A. P.
Hakobjan, Marina
De Witte, Ward
Heersema, Dorothea J.
Jansen, Anne J.
Strijbis, Eva M. M.
de Jong, Brigit A.
Slettenaar, Astrid E. J.
Zeinstra, Esther M. P. E.
Hoogervorst, Erwin L. J.
Franke, Barbara
Kruijer, Wiebe
Jongen, Peter J.
Visser, Leo J.
Poelmans, Geert
Whole Exome Sequencing in Multi-Incident Families Identifies Novel Candidate Genes for Multiple Sclerosis
title Whole Exome Sequencing in Multi-Incident Families Identifies Novel Candidate Genes for Multiple Sclerosis
title_full Whole Exome Sequencing in Multi-Incident Families Identifies Novel Candidate Genes for Multiple Sclerosis
title_fullStr Whole Exome Sequencing in Multi-Incident Families Identifies Novel Candidate Genes for Multiple Sclerosis
title_full_unstemmed Whole Exome Sequencing in Multi-Incident Families Identifies Novel Candidate Genes for Multiple Sclerosis
title_short Whole Exome Sequencing in Multi-Incident Families Identifies Novel Candidate Genes for Multiple Sclerosis
title_sort whole exome sequencing in multi-incident families identifies novel candidate genes for multiple sclerosis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9570223/
https://www.ncbi.nlm.nih.gov/pubmed/36232761
http://dx.doi.org/10.3390/ijms231911461
work_keys_str_mv AT horjusjulia wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT vanmourikbandatineke wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT heeringsmarcoap wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT hakobjanmarina wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT dewitteward wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT heersemadorotheaj wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT jansenannej wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT strijbisevamm wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT dejongbrigita wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT slettenaarastridej wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT zeinstraesthermpe wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT hoogervorsterwinlj wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT frankebarbara wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT kruijerwiebe wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT jongenpeterj wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT visserleoj wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis
AT poelmansgeert wholeexomesequencinginmultiincidentfamiliesidentifiesnovelcandidategenesformultiplesclerosis

Ejemplares similares