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一个可扩展的高通量神经发育平台确定了自闭症谱系障碍(ASD)基因对细胞命运和分化的共同影响。

A scalable, high-throughput neural development platform identifies shared impact of ASD genes on cell fate and differentiation.

作者信息

Wang Xuran, Lalli Matthew, Thopte Urvashi, Buxbaum Joseph D

机构信息

Seaver Autism Center for Research and Treatment, Icahn School of Medicine at Mount Sinai, New York, NY, USA.

Department of Psychiatry, Icahn School of Medicine at Mount Sinai, New York, NY, USA.

出版信息

bioRxiv. 2024 Sep 26:2024.09.25.614184. doi: 10.1101/2024.09.25.614184.

DOI:10.1101/2024.09.25.614184
PMID:39386704
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11463611/
Abstract

BACKGROUND

Deleterious mutations in hundreds of genes confer high risk for neurodevelopmental disorders (NDDs), posing significant challenges for therapeutic development. Identifying convergent pathways shared across NDD genes could reveal high-impact therapeutic targets.

METHODS

To identity convergent pathways in NDD genes, we optimized Perturb-seq, a method combining CRISPR perturbation with single-cell RNA sequencing (scRNA-seq), and applied structural topic modeling (STM) to simultaneously assess impact on cell fate and developmental stage. We then studied a subset of autism spectrum disorder (ASD) genes implicated in regulation of gene expression using these improved molecular and analytical approaches.

RESULTS

Results from targeting 60 high-confidence ASD risk genes revealed significant effects on neural development. As expected, ASD risk genes impacted both progenitor fate and/or neuronal differentiation. Using STM, we could identify latent topics jointly capturing cell types, cell fate, and differentiation stages. Repression of ASD risk genes led to changes in topic proportions and effects of four genes (, and ) were validated in an independent dataset.

CONCLUSIONS

Our optimized Perturb-seq method, combined with a novel analytical approach, provides a powerful, cost-effective framework for uncovering convergent mechanisms among genes involved in complex neurodevelopmental processes. Application of these methods advanced understanding of the impact of ASD mutations on multiple dimensions of neural development, and provides a framework for a broader examination of the function of NDD risk genes.

摘要

背景

数百个基因中的有害突变会导致神经发育障碍(NDD)的高风险,给治疗开发带来重大挑战。识别NDD基因共有的趋同途径可能会揭示具有高影响力的治疗靶点。

方法

为了识别NDD基因中的趋同途径,我们优化了Perturb-seq,这是一种将CRISPR干扰与单细胞RNA测序(scRNA-seq)相结合的方法,并应用结构主题模型(STM)来同时评估对细胞命运和发育阶段的影响。然后,我们使用这些改进的分子和分析方法研究了一部分与基因表达调控有关的自闭症谱系障碍(ASD)基因。

结果

靶向60个高可信度ASD风险基因的结果显示对神经发育有显著影响。正如预期的那样,ASD风险基因影响祖细胞命运和/或神经元分化。使用STM,我们可以识别共同捕捉细胞类型、细胞命运和分化阶段的潜在主题。ASD风险基因的抑制导致主题比例发生变化,并且四个基因(,和)的作用在一个独立数据集中得到了验证。

结论

我们优化的Perturb-seq方法与一种新颖的分析方法相结合,为揭示参与复杂神经发育过程的基因之间的趋同机制提供了一个强大且具有成本效益的框架。这些方法的应用加深了对ASD突变对神经发育多个维度影响的理解,并为更广泛地研究NDD风险基因的功能提供了一个框架。

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Molecular cascades and cell type-specific signatures in ASD revealed by single-cell genomics.单细胞基因组学揭示的 ASD 中的分子级联和细胞类型特异性特征。
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