Cellular mechanisms underlying <i>Pax3-</i>related neural tube defects and their prevention by folic acid

Sudiwala, Sonia; Palmer, Alexandra; Massa, Valentina; Burns, Alan J.; Dunlevy, Louisa P. E.; Castro, Sandra C. P. De; Savery, Dawn; Leung, Kit‐Yi; Copp, Andrew J.; Greene, Nicholas D. E.

doi:10.1242/dmm.042234

Cited by 26 publications

(28 citation statements)

References 65 publications

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“…An in vitro study demonstrated that folate receptors, which have TF function, regulate the expression of other TFs involved in neurodevelopment like Sox2 and Klf4 (kruppel like factor 4) (Mohanty et al, 2016). Interestingly, in a neural tube defect animal model based on the deletion of Pax3 , supplementation with folate restored the proliferative status of the neuroepithelium, demonstrating a possible common pathway regarding PAX3 and folate signaling (Sudiwala et al, 2019). Analysis of DNA methylation patterns in blood and tissue from the human umbilical cord demonstrated that folate deficiency during pregnancy is associated with methylation alterations in HOX, LIM, PAX, and TBOX TF families (Sakurai et al, 2019).…”

Section: Environmental Factors and Tfs In Psychiatric Disordersmentioning

confidence: 99%

Transcription factors in neurodevelopmental and associated psychiatric disorders: A potential convergence for genetic and environmental risk factors

Santos-Terra

Deckmann

Fontes-Dutra

et al. 2021

Intl J of Devlp Neuroscience

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Neurodevelopmental disorders (NDDs) are a heterogeneous and highly prevalent group of psychiatric conditions marked by impairments in the nervous system. Their onset occurs during gestation, and the alterations are observed throughout the postnatal life. Although many genetic and environmental risk factors have been described in this context, the interactions between them challenge the understanding of the pathways associated with NDDs. Transcription factors (TFs)—a group of over 1,600 proteins that can interact with DNA, regulating gene expression through modulation of RNA synthesis—represent a point of convergence for different risk factors. In addition, TFs organize critical processes like angiogenesis, blood‐brain barrier formation, myelination, neuronal migration, immune activation, and many others in a time and location‐dependent way. In this review, we summarize important TF alterations in NDD and associated disorders, along with specific impairments observed in animal models, and, finally, establish hypotheses to explain how these proteins may be critical mediators in the context of genome‐environment interactions.

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Section: Environmental Factors and Tfs In Psychiatric Disordersmentioning

confidence: 99%

Transcription factors in neurodevelopmental and associated psychiatric disorders: A potential convergence for genetic and environmental risk factors

Santos-Terra

Deckmann

Fontes-Dutra

et al. 2021

Intl J of Devlp Neuroscience

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“…Specifically for human therapies of the trunk and spine ( Figures 4 , 5 ), information arising from developmental neurotechnologies, including embryology, can now be analyzed to inform and improve treatments beyond trauma. Most recently, this includes neuromuscular disorders such as ALS and myasthenia gravis (reviewed in Sances et al, 2016 ; Faustino Martins et al, 2020 ), neural tube defects such as spina bifida that can be related to the Pax3 gene (Sudiwala et al, 2019 ), neurocristopathies such as Hirschsprung’s disease resulting from NCC migration defects (Fattahi et al, 2016 ; Workman et al, 2017 ), neurodegeneration or demyelinating process originating in the CNS (Garden and La Spada, 2012 ), and sensory disorders such as neuropathic pain (Manion et al, 2020 ). We expect that human stem cell developmental neurotechnologies will continue to play an essential role in understanding and treating these disorders through the elementary discovery of fundamental processes, in vitro models, and scalable high throughput platforms for drug testing, as well as by supplying an unlimited customized cell resource for replacement therapies.…”

Section: Conclusion and Future Perspectivesmentioning

confidence: 99%

Stem Cell Neurodevelopmental Solutions for Restorative Treatments of the Human Trunk and Spine

Olmsted

Paluh

2021

Front. Cell. Neurosci.

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The ability to reliably repair spinal cord injuries (SCI) will be one of the greatest human achievements realized in regenerative medicine. Until recently, the cellular path to this goal has been challenging. However, as detailed developmental principles are revealed in mouse and human models, their application in the stem cell community brings trunk and spine embryology into efforts to advance human regenerative medicine. New models of posterior embryo development identify neuromesodermal progenitors (NMPs) as a major bifurcation point in generating the spinal cord and somites and is leading to production of cell types with the full range of axial identities critical for repair of trunk and spine disorders. This is coupled with organoid technologies including assembloids, circuitoids, and gastruloids. We describe a paradigm for applying developmental principles towards the goal of cell-based restorative therapies to enable reproducible and effective near-term clinical interventions.

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“…Sudiwala et al state that mutations in paired box 3 ( Pax3 ) gene lead to neural tube defects, Pax3 gene being responsible for neurulation to proceed. Supplements of folic acid restore proliferation in the cranial neuroepithelium, being state that the effect of folic acid to promote cell cycle compensates for the loss of Pax3 and therefore folic acid prevents cranial neural tube defects, such as anencephaly [ 26 ].…”

Section: ⧉ Etiopathogenesismentioning

confidence: 99%

The etiopathogenic and morphological spectrum of anencephaly: a comprehensive review of literature

Munteanu

Cîrstoiu²,

Filipoiu

et al. 2020

Rom J Morphol Embryol

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Anencephaly is a severe malformation of the central nervous system (CNS), being one of the most common types of neural tube defects. It is defined as total or partial absence of the calvarium , with absence of the brain. Anencephaly has an incidence of 1 to 5 in every 1000 births, and the mortality rate is 100% during intrauterine life or within hours or days after birth. The etiology of anencephaly remains unclear, but various maternal-related environmental and genetic risk factors have been reported, which include diabetes, obesity, exposure to different drugs or toxins, genetic polymorphisms and mutations, as well as positive family history for neural tube defects. One of the most important nutritional factors in the development of anencephaly is folate deficiency. Methylenetetrahydrofolate reductase ( MTHFR ) gene codes the enzyme involved in the intracellular metabolism of folic acid; the 677C-T polymorphism of this gene causes the thermolability of the enzyme and decreased enzymatic activity, which is also dependent of folate plasmatic level. Etiopathogenesis of anencephaly includes several mutations in various other genes, such as: platelet-derived growth factor receptor alpha ( PDGFRA ), cadherin epidermal growth factor (EGF) laminin G (LAG) seven-pass G-type receptor 1 ( CELSR1 ), Vang-like 1 ( VANGL1 ) and Vang-like 2 ( VANGL2 ), the last two being involved in the process of neurulation. Screening tests include maternal serum alpha-fetoprotein level and ultrasound (US) examination. During the first trimester US screening, anencephaly is now detected in all cases, but in order to decrease the complication rate of pregnancy termination, the diagnosis should be established as soon as possible, during the pregnancy confirmation US. We conclude that given that anencephaly is a severe malformation of the CNS, morphological characterization could improve the screening by US that is mandatory in the first trimester in order to plan the best, safe and early management.

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Cellular mechanisms underlying Pax3-related neural tube defects and their prevention by folic acid

Cited by 26 publications

References 65 publications

Transcription factors in neurodevelopmental and associated psychiatric disorders: A potential convergence for genetic and environmental risk factors

Transcription factors in neurodevelopmental and associated psychiatric disorders: A potential convergence for genetic and environmental risk factors

Stem Cell Neurodevelopmental Solutions for Restorative Treatments of the Human Trunk and Spine

The etiopathogenic and morphological spectrum of anencephaly: a comprehensive review of literature

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