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Modeling Somatic Mutations Associated With Neurodevelopmental Disorders in Human Brain Organoids

Deb, Bipan K. ; Bateup, Helen S.

Frontiers Media SA ; 2022

In: Frontiers in Molecular Neuroscience Vol. 14 ( 2022-1-4)

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In: Frontiers in Molecular Neuroscience, Frontiers Media SA, Vol. 14 ( 2022-1-4)

Abstract: Neurodevelopmental disorders (NDDs) are a collection of diseases with early life onset that often present with developmental delay, cognitive deficits, and behavioral conditions. In some cases, severe outcomes such as brain malformations and intractable epilepsy can occur. The mutations underlying NDDs may be inherited or de novo , can be gain- or loss-of-function, and can affect one or more genes. Recent evidence indicates that brain somatic mutations contribute to several NDDs, in particular malformations of cortical development. While advances in sequencing technologies have enabled the detection of these somatic mutations, the mechanisms by which they alter brain development and function are not well understood due to limited model systems that recapitulate these events. Human brain organoids have emerged as powerful models to study the early developmental events of the human brain. Brain organoids capture the developmental progression of the human brain and contain human-enriched progenitor cell types. Advances in human stem cell and genome engineering provide an opportunity to model NDD-associated somatic mutations in brain organoids. These organoids can be tracked throughout development to understand the impact of somatic mutations on early human brain development and function. In this review, we discuss recent evidence that somatic mutations occur in the developing human brain, that they can lead to NDDs, and discuss how they could be modeled using human brain organoids.

Type of Medium: Online Resource

ISSN: 1662-5099

URL: Article

DOI: 10.3389/fnmol.2021.787243

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2022

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Dopaminergic Dysregulation in Syndromic Autism Spectrum Disorders: Insights From Genetic Mouse Models

Kosillo, Polina ; Bateup, Helen S.

Frontiers Media SA ; 2021

In: Frontiers in Neural Circuits Vol. 15 ( 2021-7-23)

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In: Frontiers in Neural Circuits, Frontiers Media SA, Vol. 15 ( 2021-7-23)

Abstract: Autism spectrum disorder (ASD) is a neurodevelopmental disorder defined by altered social interaction and communication, and repetitive, restricted, inflexible behaviors. Approximately 1.5-2% of the general population meet the diagnostic criteria for ASD and several brain regions including the cortex, amygdala, cerebellum and basal ganglia have been implicated in ASD pathophysiology. The midbrain dopamine system is an important modulator of cellular and synaptic function in multiple ASD-implicated brain regions via anatomically and functionally distinct dopaminergic projections. The dopamine hypothesis of ASD postulates that dysregulation of dopaminergic projection pathways could contribute to the behavioral manifestations of ASD, including altered reward value of social stimuli, changes in sensorimotor processing, and motor stereotypies. In this review, we examine the support for the idea that cell-autonomous changes in dopaminergic function are a core component of ASD pathophysiology. We discuss the human literature supporting the involvement of altered dopamine signaling in ASD including genetic, brain imaging and pharmacologic studies. We then focus on genetic mouse models of syndromic neurodevelopmental disorders in which single gene mutations lead to increased risk for ASD. We highlight studies that have directly examined dopamine neuron number, morphology, physiology, or output in these models. Overall, we find considerable support for the idea that the dopamine system may be dysregulated in syndromic ASDs; however, there does not appear to be a consistent signature and some models show increased dopaminergic function, while others have deficient dopamine signaling. We conclude that dopamine dysregulation is common in syndromic forms of ASD but that the specific changes may be unique to each genetic disorder and may not account for the full spectrum of ASD-related manifestations.

Type of Medium: Online Resource

ISSN: 1662-5110

URL: Article

DOI: 10.3389/fncir.2021.700968

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2021

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Temporal dynamics of a homeostatic pathway controlling neural network activity

Bateup, Helen S. ; Denefrio, Cassandra L. ; Johnson, Caroline A. ; [et al.]

Frontiers Media SA ; 2013

In: Frontiers in Molecular Neuroscience Vol. 6 ( 2013)

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In: Frontiers in Molecular Neuroscience, Frontiers Media SA, Vol. 6 ( 2013)

Type of Medium: Online Resource

ISSN: 1662-5099

URL: Article

DOI: 10.3389/fnmol.2013.00028

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2013

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