Induction of Dopaminergic Neurons for Neuronal Subtype-Specific Modeling of Psychiatric Disease Risk

Powell, Samuel K.; O'Shea, Callan; Townsley, Kayla G.; Prytkova, Iya; Dobrindt, Kristina; Elahi, Rahat; Iskhakova, Marina; Lambert, Tova; Valada, Aditi; Liao, Will; Ho, Seok‐Man; Slesinger, Paul A.; Huckins, Laura; Akbarian, Schahram; Brennand, Kristen J.

doi:10.1101/2021.04.01.438094

Cited by 4 publications

References 82 publications

(108 reference statements)

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Dynamic convergence of autism disorder risk genes across neurodevelopment

Fernandez Garcia,

Retallick-Townsley,

Pruitt

et al. 2024

Preprint

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Over a hundred risk genes underlie risk for autism spectrum disorder (ASD) but the extent to which they converge on shared downstream targets to increase ASD risk is unknown. To test the hypothesis that cellular context impacts the nature of convergence, here we apply a pooled CRISPR approach to target 29 ASD loss-of-function genes in human induced pluripotent stem cell (hiPSC)-derived neural progenitor cells, glutamatergic neurons, and GABAergic neurons. Two distinct approaches (gene-level and network-level analyses) demonstrate that convergence is greatest in mature glutamatergic neurons. Convergent effects are dynamic, varying in strength, composition, and biological role between cell types, increasing with functional similarity of the ASD genes examined, and driven by cell-type-specific gene co-expression patterns. Stratification of ASD genes yield targeted drug predictions capable of reversing gene-specific convergent signatures in human cells and ASD-related behaviors in zebrafish. Altogether, convergent networks downstream of ASD risk genes represent novel points of individualized therapeutic intervention.

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Dynamic convergence of autism disorder risk genes across neurodevelopment

Fernandez Garcia,

Retallick-Townsley,

Pruitt

et al. 2024

Preprint

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3D Genome Plasticity in Normal and Diseased Neurodevelopment

Plaza-Jennings

Valada

Akbarian

2022

Genes

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Non-random spatial organization of the chromosomal material inside the nuclei of brain cells emerges as an important regulatory layer of genome organization and function in health and disease. Here, we discuss how integrative approaches assessing chromatin in context of the 3D genome is providing new insights into normal and diseased neurodevelopment. Studies in primate (incl. human) and rodent brain have confirmed that chromosomal organization in neurons and glia undergoes highly dynamic changes during pre- and early postnatal development, with potential for plasticity across a much wider age window. For example, neuronal 3D genomes from juvenile and adult cerebral cortex and hippocampus undergo chromosomal conformation changes at hundreds of loci in the context of learning and environmental enrichment, viral infection, and neuroinflammation. Furthermore, locus-specific structural DNA variations, such as micro-deletions, duplications, repeat expansions, and retroelement insertions carry the potential to disrupt the broader epigenomic and transcriptional landscape far beyond the boundaries of the site-specific variation, highlighting the critical importance of long-range intra- and inter-chromosomal contacts for neuronal and glial function.

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Cannabis Use in Autism: Reasons for Concern about Risk for Psychosis

Bortoletto

Colizzi

2022

Healthcare

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Being particularly vulnerable to the pro-psychotic effects of cannabinoid exposure, autism spectrum individuals present with an increased risk of psychosis, which may be passed on to their own children. More specifically, cannabis exposure among autism spectrum individuals seems to exert disruptive epigenetic effects that can be intergenerationally inherited in brain areas which play a critical role in schizophrenia pathophysiology. Additionally, because of such cannabinoid-induced epigenetic effects, autism candidate genes present with bivalent chromatin markings which make them more vulnerable to subsequent disruption, possibly leading to psychosis onset later in life. Thus, findings support a developmental trajectory between autism and psychosis, as per endocannabinoid system modulation. However, such evidence has not received the attention it deserves.

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Induction of Dopaminergic Neurons for Neuronal Subtype-Specific Modeling of Psychiatric Disease Risk

Cited by 4 publications

References 82 publications

Dynamic convergence of autism disorder risk genes across neurodevelopment

Dynamic convergence of autism disorder risk genes across neurodevelopment

3D Genome Plasticity in Normal and Diseased Neurodevelopment

Cannabis Use in Autism: Reasons for Concern about Risk for Psychosis

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