<i>PGAP3</i> Associated with Hyperphosphatasia with Mental Retardation Plays a Novel Role in Brain Morphogenesis and Neuronal Wiring at Early Development

<i>PGAP3</i> Associated with Hyperphosphatasia with Mental Retardation Plays a Novel Role in Brain Morphogenesis and Neuronal Wiring at Early Development

Recessive mutations in Post-GPI attachment to proteins 3 (<i>PGAP3</i>) cause the rare neurological disorder hyperphosphatasia with mental retardation syndrome 4 type (HPMRS4). Here, we report a novel homozygous nonsense mutation in <i>PGAP3</i> (c.265C>T-p.Gln89*), in a 3...

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Main Authors: Sahar I. Da’as, Waleed Aamer, Waseem Hasan, Aljazi Al-Maraghi, Alya Al-Kurbi, Houda Kilani, Jehan AlRayahi, Khaled Zamel, Mitchell A. Stotland, Khalid A. Fakhro
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:Cells
Subjects:
hyperphosphatasia mental retardation syndrome 4 (HPMRS4)
post-GPI attachment to proteins 3 (<i>PGAP3</i>)
neurological disorder
human disease model
zebrafish
neural tube defect
Online Access:https://www.mdpi.com/2073-4409/9/8/1782
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spelling doaj-2e1f0282cd124b28bbb6564353573ee62020-11-25T03:38:38ZengMDPI AGCells2073-44092020-07-0191782178210.3390/cells9081782<i>PGAP3</i> Associated with Hyperphosphatasia with Mental Retardation Plays a Novel Role in Brain Morphogenesis and Neuronal Wiring at Early DevelopmentSahar I. Da’as0Waleed Aamer1Waseem Hasan2Aljazi Al-Maraghi3Alya Al-Kurbi4Houda Kilani5Jehan AlRayahi6Khaled Zamel7Mitchell A. Stotland8Khalid A. Fakhro9Department of Human Genetics, Sidra Medicine, Doha 26999, QatarDepartment of Human Genetics, Sidra Medicine, Doha 26999, QatarDepartment of Human Genetics, Sidra Medicine, Doha 26999, QatarDepartment of Human Genetics, Sidra Medicine, Doha 26999, QatarDepartment of Human Genetics, Sidra Medicine, Doha 26999, QatarDivision of Plastic and Craniofacial Surgery, Sidra Medicine, Doha 26999, QatarDivision of Pediatric Neurology, Sidra Medicine, Doha 26999, QatarDivision of Pediatric Neurology, Sidra Medicine, Doha 26999, QatarDivision of Plastic and Craniofacial Surgery, Sidra Medicine, Doha 26999, QatarDepartment of Human Genetics, Sidra Medicine, Doha 26999, QatarRecessive mutations in Post-GPI attachment to proteins 3 (<i>PGAP3</i>) cause the rare neurological disorder hyperphosphatasia with mental retardation syndrome 4 type (HPMRS4). Here, we report a novel homozygous nonsense mutation in <i>PGAP3</i> (c.265C>T-p.Gln89*), in a 3-year-old boy with unique novel clinical features. These include decreased intrauterine fetal movements, dysgenesis of the corpus callosum, olfactory bulb agenesis, dysmorphic features, cleft palate, left ear constriction, global developmental delay, and hypotonia. The zebrafish functional modeling of PGAP3 loss resulted in HPMRS4-like features, including structural brain abnormalities, dysmorphic cranial and facial features, hypotonia, and seizure-like behavior. Remarkably, morphants displayed defective neural tube formation during the early stages of nervous system development, affecting brain morphogenesis. The significant aberrant midbrain and hindbrain formation demonstrated by separation of the left and right tectal ventricles, defects in the cerebellar corpus, and caudal hindbrain formation disrupted oligodendrocytes expression leading to shorter motor neurons axons. Assessment of zebrafish neuromuscular responses revealed epileptic-like movements at early development, followed by seizure-like behavior, loss of touch response, and hypotonia, mimicking the clinical phenotype human patients. Altogether, we report a novel pathogenic <i>PGAP3</i> variant associated with unique phenotypic hallmarks, which may be related to the gene’s novel role in brain morphogenesis and neuronal wiring.https://www.mdpi.com/2073-4409/9/8/1782hyperphosphatasia mental retardation syndrome 4 (HPMRS4)post-GPI attachment to proteins 3 (<i>PGAP3</i>)neurological disorderhuman disease modelzebrafishneural tube defect
collection DOAJ
language English
format Article
sources DOAJ
author Sahar I. Da’as
Waleed Aamer
Waseem Hasan
Aljazi Al-Maraghi
Alya Al-Kurbi
Houda Kilani
Jehan AlRayahi
Khaled Zamel
Mitchell A. Stotland
Khalid A. Fakhro
spellingShingle Sahar I. Da’as
Waleed Aamer
Waseem Hasan
Aljazi Al-Maraghi
Alya Al-Kurbi
Houda Kilani
Jehan AlRayahi
Khaled Zamel
Mitchell A. Stotland
Khalid A. Fakhro
<i>PGAP3</i> Associated with Hyperphosphatasia with Mental Retardation Plays a Novel Role in Brain Morphogenesis and Neuronal Wiring at Early Development
Cells
hyperphosphatasia mental retardation syndrome 4 (HPMRS4)
post-GPI attachment to proteins 3 (<i>PGAP3</i>)
neurological disorder
human disease model
zebrafish
neural tube defect
author_facet Sahar I. Da’as
Waleed Aamer
Waseem Hasan
Aljazi Al-Maraghi
Alya Al-Kurbi
Houda Kilani
Jehan AlRayahi
Khaled Zamel
Mitchell A. Stotland
Khalid A. Fakhro
author_sort Sahar I. Da’as
title <i>PGAP3</i> Associated with Hyperphosphatasia with Mental Retardation Plays a Novel Role in Brain Morphogenesis and Neuronal Wiring at Early Development
title_short <i>PGAP3</i> Associated with Hyperphosphatasia with Mental Retardation Plays a Novel Role in Brain Morphogenesis and Neuronal Wiring at Early Development
title_full <i>PGAP3</i> Associated with Hyperphosphatasia with Mental Retardation Plays a Novel Role in Brain Morphogenesis and Neuronal Wiring at Early Development
title_fullStr <i>PGAP3</i> Associated with Hyperphosphatasia with Mental Retardation Plays a Novel Role in Brain Morphogenesis and Neuronal Wiring at Early Development
title_full_unstemmed <i>PGAP3</i> Associated with Hyperphosphatasia with Mental Retardation Plays a Novel Role in Brain Morphogenesis and Neuronal Wiring at Early Development
title_sort <i>pgap3</i> associated with hyperphosphatasia with mental retardation plays a novel role in brain morphogenesis and neuronal wiring at early development
publisher MDPI AG
series Cells
issn 2073-4409
publishDate 2020-07-01
description Recessive mutations in Post-GPI attachment to proteins 3 (<i>PGAP3</i>) cause the rare neurological disorder hyperphosphatasia with mental retardation syndrome 4 type (HPMRS4). Here, we report a novel homozygous nonsense mutation in <i>PGAP3</i> (c.265C>T-p.Gln89*), in a 3-year-old boy with unique novel clinical features. These include decreased intrauterine fetal movements, dysgenesis of the corpus callosum, olfactory bulb agenesis, dysmorphic features, cleft palate, left ear constriction, global developmental delay, and hypotonia. The zebrafish functional modeling of PGAP3 loss resulted in HPMRS4-like features, including structural brain abnormalities, dysmorphic cranial and facial features, hypotonia, and seizure-like behavior. Remarkably, morphants displayed defective neural tube formation during the early stages of nervous system development, affecting brain morphogenesis. The significant aberrant midbrain and hindbrain formation demonstrated by separation of the left and right tectal ventricles, defects in the cerebellar corpus, and caudal hindbrain formation disrupted oligodendrocytes expression leading to shorter motor neurons axons. Assessment of zebrafish neuromuscular responses revealed epileptic-like movements at early development, followed by seizure-like behavior, loss of touch response, and hypotonia, mimicking the clinical phenotype human patients. Altogether, we report a novel pathogenic <i>PGAP3</i> variant associated with unique phenotypic hallmarks, which may be related to the gene’s novel role in brain morphogenesis and neuronal wiring.
topic hyperphosphatasia mental retardation syndrome 4 (HPMRS4)
post-GPI attachment to proteins 3 (<i>PGAP3</i>)
neurological disorder
human disease model
zebrafish
neural tube defect
url https://www.mdpi.com/2073-4409/9/8/1782
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