Deletions in  CWH43  cause idiopathic normal pressure hydrocephalus

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Abstract

Idiopathic normal pressure hydrocephalus (iNPH) is a neurological disorder that occurs in about 1% of individuals over age 60 and is characterized by enlarged cerebral ventricles, gait difficulty, incontinence, and cognitive decline. The cause and pathophysiology of iNPH are largely unknown. We performed whole exome sequencing of DNA obtained from 53 unrelated iNPH patients. Two recurrent heterozygous loss of function deletions in CWH43 were observed in 15% of iNPH patients and were significantly enriched 6.6‐fold and 2.7‐fold, respectively, when compared to the general population. Cwh43 modifies the lipid anchor of glycosylphosphatidylinositol‐anchored proteins. Mice heterozygous for CWH43 deletion appeared grossly normal but displayed hydrocephalus, gait and balance abnormalities, decreased numbers of ependymal cilia, and decreased localization of glycosylphosphatidylinositol‐anchored proteins to the apical surfaces of choroid plexus and ependymal cells. Our findings provide novel mechanistic insights into the origins of iNPH and demonstrate that it represents a distinct disease entity.

Abstract

Idiopathic normal pressure hydrocephalus (iNPH) is a neurological disorder of aging characterized by enlarged cerebral ventricles, gait and balance difficulty, incontinence and cognitive impairment. The cause of iNPH is not known.

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Most cited references 45

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Genome-wide atlas of gene expression in the adult mouse brain.

Ed Lein, Michael Hawrylycz, Nancy Ao … (2007)

Molecular approaches to understanding the functional circuitry of the nervous system promise new insights into the relationship between genes, brain and behaviour. The cellular diversity of the brain necessitates a cellular resolution approach towards understanding the functional genomics of the nervous system. We describe here an anatomically comprehensive digital atlas containing the expression patterns of approximately 20,000 genes in the adult mouse brain. Data were generated using automated high-throughput procedures for in situ hybridization and data acquisition, and are publicly accessible online. Newly developed image-based informatics tools allow global genome-scale structural analysis and cross-correlation, as well as identification of regionally enriched genes. Unbiased fine-resolution analysis has identified highly specific cellular markers as well as extensive evidence of cellular heterogeneity not evident in classical neuroanatomical atlases. This highly standardized atlas provides an open, primary data resource for a wide variety of further studies concerning brain organization and function.

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The ExAC browser: displaying reference data information from over 60 000 exomes

Konrad J. Karczewski, Ben Weisburd, Brett Thomas … (2016)

Worldwide, hundreds of thousands of humans have had their genomes or exomes sequenced, and access to the resulting data sets can provide valuable information for variant interpretation and understanding gene function. Here, we present a lightweight, flexible browser framework to display large population datasets of genetic variation. We demonstrate its use for exome sequence data from 60 706 individuals in the Exome Aggregation Consortium (ExAC). The ExAC browser provides gene- and transcript-centric displays of variation, a critical view for clinical applications. Additionally, we provide a variant display, which includes population frequency and functional annotation data as well as short read support for the called variant. This browser is open-source, freely available at http://exac.broadinstitute.org, and has already been used extensively by clinical laboratories worldwide.

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Hydrocephalus in children.

Kristopher Kahle, Abhaya V Kulkarni, David Limbrick … (2016)

Hydrocephalus is a common disorder of cerebral spinal fluid (CSF) physiology resulting in abnormal expansion of the cerebral ventricles. Infants commonly present with progressive macrocephaly whereas children older than 2 years generally present with signs and symptoms of intracranial hypertension. The classic understanding of hydrocephalus as the result of obstruction to bulk flow of CSF is evolving to models that incorporate dysfunctional cerebral pulsations, brain compliance, and newly characterised water-transport mechanisms. Hydrocephalus has many causes. Congenital hydrocephalus, most commonly involving aqueduct stenosis, has been linked to genes that regulate brain growth and development. Hydrocephalus can also be acquired, mostly from pathological processes that affect ventricular outflow, subarachnoid space function, or cerebral venous compliance. Treatment options include shunt and endoscopic approaches, which should be individualised to the child. The long-term outcome for children that have received treatment for hydrocephalus varies. Advances in brain imaging, technology, and understanding of the pathophysiology should ultimately lead to improved treatment of the disorder.

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Author and article information

Contributors

Mark D Johnson:

ORCID: https://orcid.org/0000-0002-4010-2605

mark.johnson3@umassmemorial.org

Journal

Journal ID (nlm-ta): EMBO Mol Med

Journal ID (iso-abbrev): EMBO Mol Med

Journal ID (doi): 10.1002/(ISSN)1757-4684

Journal ID (publisher-id): EMMM

Journal ID (hwp): embomm

Title: EMBO Molecular Medicine

Publisher: John Wiley and Sons Inc. (Hoboken )

ISSN (Print): 1757-4676

ISSN (Electronic): 1757-4684

Publication date (Electronic): 18 January 2021

Publication date (Print): 05 March 2021

Volume: 13

Issue: 3 ( doiID: 10.1002/emmm.v13.3 )

Electronic Location Identifier: e13249

Affiliations

[ ¹ ] University of Massachusetts Medical School Worcester MA USA

[ ² ] Brigham and Women’s Hospital Boston MA USA

[ ³ ] Harvard Medical School Boston MA USA

[ ⁴ ] UMass Memorial Health Care Worcester MA USA

Author notes

[*] [* ] Corresponding author. Tel: +1 508 334 0605; Fax: +1 508 856 5074; E‐mail: mark.johnson3@ 123456umassmemorial.org

Author information

Mark D Johnson https://orcid.org/0000-0002-4010-2605

Article

Publisher ID: EMMM202013249

DOI: 10.15252/emmm.202013249

PMC ID: 7933959

PubMed ID: 33459505

SO-VID: cb34f853-7a5a-4431-b506-88cada506000

License:

This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

History

Date received : 06 August 2020

Date revision received : 04 December 2020

Date accepted : 10 December 2020

Page count

Figures: 6, Tables: 1, Pages: 0, Words: 8403

Funding

Funded by: HHS | NIH | National Institute of Neurological Disorders and Stroke (NINDS) , open-funder-registry 10.13039/100000065;

Award ID: R01 NS106985

Award ID: R56 NS100511

Custom metadata

source-schema-version-number 2.0

cover-date 05 March 2021

details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_JATSPMC version:5.9.9 mode:remove_FC converted:05.03.2021

ScienceOpen disciplines: Molecular medicine

Keywords: cwh43,gpi‐anchored protein,hydrocephalus,normal pressure hydrocephalus,genetics, gene therapy & genetic disease,neuroscience

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ScienceOpen disciplines: Molecular medicine

Keywords: cwh43, gpi‐anchored protein, hydrocephalus, normal pressure hydrocephalus, genetics, gene therapy & genetic disease, neuroscience

Deletions in CWH43 cause idiopathic normal pressure hydrocephalus

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Most cited references 45

Genome-wide atlas of gene expression in the adult mouse brain.

The ExAC browser: displaying reference data information from over 60 000 exomes

Hydrocephalus in children.

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