Progress in the molecular mechanisms of genetic epilepsies using patient‐induced pluripotent stem cells

Zhou, Ruijiao; Jiang, Guohui; Tian, Xin; Wang, Xuefeng

doi:10.1002/epi4.12238

Cited by 5 publications

(4 citation statements)

References 113 publications

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“…These findings revealed the fundamental physiological mechanism of Epilepsy caused by SCN1A loss-of-function mutations 117 . Simultaneously, the iPSCs model research confirmed that astrocyte activation 118 - 120 , mitochondrial dysfunction 121 , 122 , and abnormal signaling pathway activity 123 , 124 were also important factors to the molecular mechanisms of GE 108 .…”

Section: Application Of Ipscs In Epilepsymentioning

confidence: 75%

“…Related neurodevelopmental HCN1, FGF12, SLC12A5, ARX, PCDH19, KCNA2, DENND5A, AARS, SCN8A, CDKL5, STXBP1, SCN1B, SLC1A2, PLCB1, DOCK7, TBC1D24, SCN2A, SPTAN1, SZT2, GABRB3, KCNQ2, GNAO1 and other genes can all lead to epileptic encephalopathy 106 , 107 . Epilepsy caused by single-gene mutations is the dominating reason for a variety of epilepsy syndromes 108 . Utilizing iPSCs models for genetic epilepsies (GE), gene mutations induced GE by altering the balance between neuronal excitation and inhibition, which is associated, among other factors, with neuronal developmental disturbances, ion channel abnormalities, and synaptic dysfunction 83 , 84 , 109 , 110 .…”

Section: Application Of Ipscs In Epilepsymentioning

confidence: 99%

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Great Expectations: Induced pluripotent stem cell technologies in neurodevelopmental impairments

Zhang

Liu

et al. 2021

Int. J. Med. Sci.

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Somatic cells such as skin fibroblasts, umbilical cord blood, peripheral blood, urinary epithelial cells, etc., are transformed into induced pluripotent stem cells (iPSCs) by reprogramming technology, a milestone in the stem-cell research field. IPSCs are similar to embryonic stem cells (ESCs), exhibiting the potential to differentiate into various somatic cells. Still, the former avoid problems of immune rejection and medical ethics in the study of ESCs and clinical trials. Neurodevelopmental disorders are chronic developmental brain dysfunctions that affect cognition, exercise, social adaptability, behavior, etc. Due to various inherited or acquired causes, they seriously affect the physical and psychological health of infants and children. These include generalized stunting / mental disability (GDD/ID), Epilepsy, autism spectrum disease (ASD), and attention deficit hyperactivity disorder (ADHD). Most neurodevelopmental disorders are challenging to cure. Establishing a neurodevelopmental disorder system model is essential for researching and treating neurodevelopmental disorders. At this stage, the scarcity of samples is a bigger problem for studying neurological diseases based on the donor, ethics, etc. Some iPSCs are reprogrammed from somatic cells that carry disease-causing mutations. They differentiate into nerve cells by induction, which has the original characteristics of diseases. Disease-specific iPSCs are used to study the mechanism and pathogenesis of neurodevelopmental disorders. The process provided samples and the impetus for developing drugs and developing treatment plans for neurodevelopmental disorders. Here, this article mainly introduced the development of iPSCs, the currently established iPSCs disease models, and artificial organoids related to neurodevelopmental impairments. This technology will promote our understanding of neurodevelopmental impairments and bring great expectations to children with neurological disorders.

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Section: Application Of Ipscs In Epilepsymentioning

confidence: 75%

Section: Application Of Ipscs In Epilepsymentioning

confidence: 99%

Great Expectations: Induced pluripotent stem cell technologies in neurodevelopmental impairments

Zhang

Liu

et al. 2021

Int. J. Med. Sci.

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“…Finally, dissociated cultures represent the only method for growing human-induced pluripotent stem cells (hiPSCs). These precursors can be differentiated into neurons, allowing the investigation of their molecular and electrophysiological properties (42,43). Most of all, they can be derived from patients for the purpose of specific drug development or cell therapies.…”

Section: "Traditional" Dissociated Cultures -Methods Applications and Spontaneous Activitymentioning

confidence: 99%

Evaluation of in vitro neuronal networks for the study of spontaneous activity

Pozzi

2020

STEMedicine

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In the absence of external stimuli, the nervous system exhibits a spontaneous electrical activity whose functions are not fully understood, and that represents the background noise of brain operations. Spontaneous activity has been proven to arise not only in vivo, but in in vitro neuronal networks as well, following some stereotypical patterns that reproduce the time course of development of the mammalian nervous system. This review provides an overview of in vitro models for the study of spontaneous network activity, discussing their ability to reproduce in vivo - like dynamics and the main findings obtained with each particular model. While explanted brain slices are able to reproduce the neuronal oscillations typically observed in anaesthetized animals, dissociated cultures allow the use of patient-derived neurons and limit the number of animals used for sample preparation.

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“…Childhood epileptic encephalopathies (CEEs) such as Dravet syndrome, Angelman syndrome, and Rett syndrome (RTT) are increasingly linked to specific genetic mutations. iPSC-derived neural cells, including GABAergic or glutamatergic neurons, have come to be a common tool to model epileptic disorders [80]. Astrocyte regulates neurotransmission by encasing thousands of synapses to form tripartite synapses between pre- and postsynaptic structures of two neurons and the surrounding astrocytic process [81].…”

Section: Modeling Neurological Disorders Using Human Psc-derived Amentioning

confidence: 99%

Modeling Neurological Disorders with Human Pluripotent Stem Cell-Derived Astrocytes

Suga

Kondo

Inoue

2019

IJMS

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Progress in the molecular mechanisms of genetic epilepsies using patient‐induced pluripotent stem cells

Cited by 5 publications

References 113 publications

Great Expectations: Induced pluripotent stem cell technologies in neurodevelopmental impairments

Great Expectations: Induced pluripotent stem cell technologies in neurodevelopmental impairments

Evaluation of in vitro neuronal networks for the study of spontaneous activity

Modeling Neurological Disorders with Human Pluripotent Stem Cell-Derived Astrocytes

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