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Literature DB >> 35110736

Autism genes converge on asynchronous development of shared neuron classes.

Bruna Paulsen^1,2, Silvia Velasco^3,4,5, Amanda J Kedaigle^1,2,6, Martina Pigoni^1,2, Giorgia Quadrato^1,7, Anthony J Deo^1,2,8,9,10, Xian Adiconis^2,6, Ana Uzquiano^1,2, Rafaela Sartore^1,2, Sung Min Yang^1,2, Sean K Simmons^2,6, Panagiotis Symvoulidis¹¹, Kwanho Kim^1,2,6, Kalliopi Tsafou², Archana Podury^11,12, Catherine Abbate^1,2, Ashley Tucewicz^1,2, Samantha N Smith^1,2, Alexandre Albanese¹³, Lindy Barrett^1,2, Neville E Sanjana^2,14,15, Xi Shi², Kwanghun Chung^13,16,14, Kasper Lage^2,17, Edward S Boyden^{11,12,18,19,20,21,22,23}, Aviv Regev^6,24,25, Joshua Z Levin^2,6, Paola Arlotta^26,27.

Abstract

Genetic risk for autism spectrum disorder (ASD) is associated with hundreds of genes spanning a wide range of biological functions1-6. The alterations in the human brain resulting from mutations in these genes remain unclear. Furthermore, their phenotypic manifestation varies across individuals7,8. Here we used organoid models of the human cerebral cortex to identify cell-type-specific developmental abnormalities that result from haploinsufficiency in three ASD risk genes-SUV420H1 (also known as KMT5B), ARID1B and CHD8-in multiple cell lines from different donors, using single-cell RNA-sequencing (scRNA-seq) analysis of more than 745,000 cells and proteomic analysis of individual organoids, to identify phenotypic convergence. Each of the three mutations confers asynchronous development of two main cortical neuronal lineages-γ-aminobutyric-acid-releasing (GABAergic) neurons and deep-layer excitatory projection neurons-but acts through largely distinct molecular pathways. Although these phenotypes are consistent across cell lines, their expressivity is influenced by the individual genomic context, in a manner that is dependent on both the risk gene and the developmental defect. Calcium imaging in intact organoids shows that these early-stage developmental changes are followed by abnormal circuit activity. This research uncovers cell-type-specific neurodevelopmental abnormalities that are shared across ASD risk genes and are finely modulated by human genomic context, finding convergence in the neurobiological basis of how different risk genes contribute to ASD pathology.

Entities: Chemical

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Year: 2022 PMID： 35110736 PMCID： PMC8852827 DOI： 10.1038/s41586-021-04358-6

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 69.504

62 in total

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8. Individual brain organoids reproducibly form cell diversity of the human cerebral cortex.

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Journal: Nat Rev Dis Primers Date: 2020-01-16 Impact factor: 52.329

15 in total

Review 1. Genetics of bipolar disorder: insights into its complex architecture and biology from common and rare variants.

Authors: Tomonori Hara; Yuji Owada; Atsushi Takata
Journal: J Hum Genet Date: 2022-05-26 Impact factor: 3.172

Review 2. Genetic and Epigenetic Regulation of Brain Organoids.

Authors: You-Wei Wang; Nan Hu; Xiao-Hong Li
Journal: Front Cell Dev Biol Date: 2022-07-01

3. Loss of POGZ alters neural differentiation of human embryonic stem cells.

Authors: Lu Deng; Sandra P Mojica-Perez; Ruth D Azaria; Mark Schultz; Jack M Parent; Wei Niu
Journal: Mol Cell Neurosci Date: 2022-03-31 Impact factor: 4.626

4. Cntnap2-dependent molecular networks in autism spectrum disorder revealed through an integrative multi-omics analysis.

Authors: Wooyoung Eric Jang; Ji Hwan Park; Gaeun Park; Geul Bang; Chan Hyun Na; Jin Young Kim; Kwang-Youl Kim; Kwang Pyo Kim; Chan Young Shin; Joon-Yong An; Yong-Seok Lee; Min-Sik Kim
Journal: Mol Psychiatry Date: 2022-10-17 Impact factor: 13.437

Review 5. Pathophysiological Heterogeneity of the BBSOA Neurodevelopmental Syndrome.

Authors: Michele Bertacchi; Chiara Tocco; Christian P Schaaf; Michèle Studer
Journal: Cells Date: 2022-04-08 Impact factor: 7.666

Review 6. The SUV4-20H Histone Methyltransferases in Health and Disease.

Authors: Davide Gabellini; Simona Pedrotti
Journal: Int J Mol Sci Date: 2022-04-25 Impact factor: 6.208

Review 7. Oxytocin and serotonin in the modulation of neural function: Neurobiological underpinnings of autism-related behavior.

Authors: Feng Zhao; Hao Zhang; Peng Wang; Wenjie Cui; Kaiyong Xu; Dan Chen; Minghui Hu; Zifa Li; Xiwen Geng; Sheng Wei
Journal: Front Neurosci Date: 2022-07-22 Impact factor: 5.152

8. Human iPSC-derived cerebral organoids model features of Leigh syndrome and reveal abnormal corticogenesis.

Authors: Alejandra I Romero-Morales; Gabriella L Robertson; Anuj Rastogi; Megan L Rasmussen; Hoor Temuri; Gregory Scott McElroy; Ram Prosad Chakrabarty; Lawrence Hsu; Paula M Almonacid; Bryan A Millis; Navdeep S Chandel; Jean-Philippe Cartailler; Vivian Gama
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Review 9. Cerebral Organoids as an Experimental Platform for Human Neurogenomics.

Authors: Tomasz J Nowakowski; Sofie R Salama
Journal: Cells Date: 2022-09-08 Impact factor: 7.666

10. DNA Methylation Profiles of GAD1 in Human Cerebral Organoids of Autism Indicate Disrupted Epigenetic Regulation during Early Development.

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Journal: Int J Mol Sci Date: 2022-08-16 Impact factor: 6.208