Regional vulnerability of brain white matter in vanishing white matter

Jodie H.K. Man; Charlotte A.G.H. van Gelder; Marjolein Breur; Douwe Molenaar; Truus Abbink; Maarten Altelaar; Marianna Bugiani; Marjo S. van der Knaap

doi:10.1186/s40478-023-01599-6

Regional vulnerability of brain white matter in vanishing white matter

Jodie H.K. Man, Charlotte A.G.H. van Gelder, Marjolein Breur, Douwe Molenaar, Truus Abbink, Maarten Altelaar, Marianna Bugiani^*, Marjo S. van der Knaap^*

^*Corresponding author for this work

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

Abstract

Vanishing white matter (VWM) is a leukodystrophy that primarily manifests in young children. In this disease, the brain white matter is differentially affected in a predictable pattern with telencephalic brain areas being most severely affected, while others remain allegedly completely spared. Using high-resolution mass spectrometry-based proteomics, we investigated the proteome patterns of the white matter in the severely affected frontal lobe and normal appearing pons in VWM and control cases to identify molecular bases underlying regional vulnerability. By comparing VWM patients to controls, we identified disease-specific proteome patterns. We showed substantial changes in both the VWM frontal and pons white matter at the protein level. Side-by-side comparison of brain region-specific proteome patterns further revealed regional differences. We found that different cell types were affected in the VWM frontal white matter than in the pons. Gene ontology and pathway analyses identified involvement of region specific biological processes, of which pathways involved in cellular respiratory metabolism were overarching features. In the VWM frontal white matter, proteins involved in glycolysis/gluconeogenesis and metabolism of various amino acids were decreased compared to controls. By contrast, in the VWM pons white matter, we found a decrease in proteins involved in oxidative phosphorylation. Taken together, our data show that brain regions are affected in parallel in VWM, but to different degrees. We found region-specific involvement of different cell types and discovered that cellular respiratory metabolism is likely to be differentially affected across white matter regions in VWM. These region-specific changes help explain regional vulnerability to pathology in VWM.

Original language	English
Article number	103
Pages (from-to)	1-14
Number of pages	14
Journal	Acta Neuropathologica Communications
Volume	11
DOIs	https://doi.org/10.1186/s40478-023-01599-6
Publication status	Published - 22 Jun 2023

Bibliographical note

Funding Information:
The research was funded by the ZonMw TOP grant 91217006. M.Bu. is supported by the ZonMw VENI grant 016.196.107.

Funding Information:
We are grateful to all patients who participated in this study and their families, the Netherlands Brain Bank for providing the tissue of controls, and the autopsy assistants of the Amsterdam University Medical Centers. M.S.v.d.K. and M.Bu. are members of the European Reference Network for Rare Neurological Disorders, project ID 739510.

Publisher Copyright:
© 2023, The Author(s).

Funding

The research was funded by the ZonMw TOP grant 91217006. M.Bu. is supported by the ZonMw VENI grant 016.196.107. We are grateful to all patients who participated in this study and their families, the Netherlands Brain Bank for providing the tissue of controls, and the autopsy assistants of the Amsterdam University Medical Centers. M.S.v.d.K. and M.Bu. are members of the European Reference Network for Rare Neurological Disorders, project ID 739510.

Funders	Funder number
ZonMw TOP	91217006
ZonMw Veni	016.196.107
Nederlandse Hersenbank	739510
Nederlandse Hersenbank

Keywords

Astrocytopathy
Leukodystrophy
Proteomics
Regional vulnerability
Vanishing white matter

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title = "Regional vulnerability of brain white matter in vanishing white matter",

abstract = "Vanishing white matter (VWM) is a leukodystrophy that primarily manifests in young children. In this disease, the brain white matter is differentially affected in a predictable pattern with telencephalic brain areas being most severely affected, while others remain allegedly completely spared. Using high-resolution mass spectrometry-based proteomics, we investigated the proteome patterns of the white matter in the severely affected frontal lobe and normal appearing pons in VWM and control cases to identify molecular bases underlying regional vulnerability. By comparing VWM patients to controls, we identified disease-specific proteome patterns. We showed substantial changes in both the VWM frontal and pons white matter at the protein level. Side-by-side comparison of brain region-specific proteome patterns further revealed regional differences. We found that different cell types were affected in the VWM frontal white matter than in the pons. Gene ontology and pathway analyses identified involvement of region specific biological processes, of which pathways involved in cellular respiratory metabolism were overarching features. In the VWM frontal white matter, proteins involved in glycolysis/gluconeogenesis and metabolism of various amino acids were decreased compared to controls. By contrast, in the VWM pons white matter, we found a decrease in proteins involved in oxidative phosphorylation. Taken together, our data show that brain regions are affected in parallel in VWM, but to different degrees. We found region-specific involvement of different cell types and discovered that cellular respiratory metabolism is likely to be differentially affected across white matter regions in VWM. These region-specific changes help explain regional vulnerability to pathology in VWM.",

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note = "Funding Information: The research was funded by the ZonMw TOP grant 91217006. M.Bu. is supported by the ZonMw VENI grant 016.196.107. Funding Information: We are grateful to all patients who participated in this study and their families, the Netherlands Brain Bank for providing the tissue of controls, and the autopsy assistants of the Amsterdam University Medical Centers. M.S.v.d.K. and M.Bu. are members of the European Reference Network for Rare Neurological Disorders, project ID 739510. Publisher Copyright: {\textcopyright} 2023, The Author(s).",

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AU - Man, Jodie H.K.

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AU - Molenaar, Douwe

AU - Abbink, Truus

AU - Altelaar, Maarten

AU - Bugiani, Marianna

AU - van der Knaap, Marjo S.

N1 - Funding Information: The research was funded by the ZonMw TOP grant 91217006. M.Bu. is supported by the ZonMw VENI grant 016.196.107. Funding Information: We are grateful to all patients who participated in this study and their families, the Netherlands Brain Bank for providing the tissue of controls, and the autopsy assistants of the Amsterdam University Medical Centers. M.S.v.d.K. and M.Bu. are members of the European Reference Network for Rare Neurological Disorders, project ID 739510. Publisher Copyright: © 2023, The Author(s).

PY - 2023/6/22

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N2 - Vanishing white matter (VWM) is a leukodystrophy that primarily manifests in young children. In this disease, the brain white matter is differentially affected in a predictable pattern with telencephalic brain areas being most severely affected, while others remain allegedly completely spared. Using high-resolution mass spectrometry-based proteomics, we investigated the proteome patterns of the white matter in the severely affected frontal lobe and normal appearing pons in VWM and control cases to identify molecular bases underlying regional vulnerability. By comparing VWM patients to controls, we identified disease-specific proteome patterns. We showed substantial changes in both the VWM frontal and pons white matter at the protein level. Side-by-side comparison of brain region-specific proteome patterns further revealed regional differences. We found that different cell types were affected in the VWM frontal white matter than in the pons. Gene ontology and pathway analyses identified involvement of region specific biological processes, of which pathways involved in cellular respiratory metabolism were overarching features. In the VWM frontal white matter, proteins involved in glycolysis/gluconeogenesis and metabolism of various amino acids were decreased compared to controls. By contrast, in the VWM pons white matter, we found a decrease in proteins involved in oxidative phosphorylation. Taken together, our data show that brain regions are affected in parallel in VWM, but to different degrees. We found region-specific involvement of different cell types and discovered that cellular respiratory metabolism is likely to be differentially affected across white matter regions in VWM. These region-specific changes help explain regional vulnerability to pathology in VWM.

AB - Vanishing white matter (VWM) is a leukodystrophy that primarily manifests in young children. In this disease, the brain white matter is differentially affected in a predictable pattern with telencephalic brain areas being most severely affected, while others remain allegedly completely spared. Using high-resolution mass spectrometry-based proteomics, we investigated the proteome patterns of the white matter in the severely affected frontal lobe and normal appearing pons in VWM and control cases to identify molecular bases underlying regional vulnerability. By comparing VWM patients to controls, we identified disease-specific proteome patterns. We showed substantial changes in both the VWM frontal and pons white matter at the protein level. Side-by-side comparison of brain region-specific proteome patterns further revealed regional differences. We found that different cell types were affected in the VWM frontal white matter than in the pons. Gene ontology and pathway analyses identified involvement of region specific biological processes, of which pathways involved in cellular respiratory metabolism were overarching features. In the VWM frontal white matter, proteins involved in glycolysis/gluconeogenesis and metabolism of various amino acids were decreased compared to controls. By contrast, in the VWM pons white matter, we found a decrease in proteins involved in oxidative phosphorylation. Taken together, our data show that brain regions are affected in parallel in VWM, but to different degrees. We found region-specific involvement of different cell types and discovered that cellular respiratory metabolism is likely to be differentially affected across white matter regions in VWM. These region-specific changes help explain regional vulnerability to pathology in VWM.

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Regional vulnerability of brain white matter in vanishing white matter

Abstract

Bibliographical note

Funding

Keywords

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