A SMARTR workflow for multi-ensemble atlas mapping and brain-wide network analysis

bioRxiv Pub Date : 2024-07-16 DOI:10.1101/2024.07.12.603299
Michelle Jin, Simon O. Ogundare, Marcos Lanio, Sophia Sorid, Alicia R. Whye, Sofia Leal Santos, Alessandra Franceschini, Christine A. Denny
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Abstract

In the last decade, activity-dependent strategies for labelling multiple immediate early gene (IEG) ensembles in mice have generated unprecedented insight into the mechanisms of memory encoding, storage, and retrieval. However, few strategies exist for brain-wide mapping of multiple ensembles, including their overlapping population, and none incorporate capabilities for downstream network analysis. Here, we introduce a scalable workflow to analyze traditionally coronally-sectioned datasets produced by activity-dependent tagging systems. Intrinsic to this pipeline is simple multi-ensemble atlas registration and statistical testing in R (SMARTR), an R package which wraps mapping capabilities with functions for statistical analysis and network visualization. We demonstrate the versatility of SMARTR by mapping the ensembles underlying the acquisition and expression of learned helplessness (LH), a robust stress model. Applying network analysis, we find that exposure to inescapable shock (IS), compared to context training (CT), results in decreased centrality of regions engaged in spatial and contextual processing and higher influence of regions involved in somatosensory and affective processing. During LH expression, the substantia nigra emerges as a highly influential region which shows a functional reversal following IS, indicating a possible regulatory function of motor activity during helplessness. We also report that IS results in a robust decrease in reactivation activity across a number of cortical, hippocampal, and amygdalar regions, indicating suppression of ensemble reactivation may be a neurobiological signature of LH. These results highlight the emergent insights uniquely garnered by applying our analysis approach to multiple ensemble datasets and demonstrate the strength of our workflow as a hypothesis-generating toolkit.
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用于多集合图谱绘制和全脑网络分析的 SMARTR 工作流程
在过去的十年中,对小鼠体内多个即时早期基因(IEG)集合进行标记的活动依赖性策略对记忆编码、存储和检索的机制产生了前所未有的洞察力。然而,很少有策略能对多个基因组(包括其重叠群体)进行全脑图谱绘制,也没有一种策略具有下游网络分析功能。在此,我们介绍一种可扩展的工作流程,用于分析由活动依赖性标记系统产生的传统冠状切面数据集。该流程的本质是简单的多集合图集注册和 R 语言统计测试(SMARTR),它是一个 R 软件包,将映射功能与统计分析和网络可视化功能结合在一起。我们通过映射习得性无助(LH)这一稳健压力模型的习得和表达所依赖的集合,展示了 SMARTR 的多功能性。应用网络分析,我们发现与情境训练(CT)相比,暴露于无法逃避的冲击(IS)会导致参与空间和情境处理的区域中心性降低,而参与躯体感觉和情感处理的区域的影响力增加。在 LH 表达过程中,黑质是一个极具影响力的区域,在 IS 之后该区域的功能发生了逆转,这表明在无助期运动活动可能具有调节功能。我们还报告说,IS导致许多皮层、海马和杏仁核区域的再激活活动显著减少,这表明抑制集合再激活可能是LH的一个神经生物学特征。这些结果凸显了将我们的分析方法应用于多个集合数据集所获得的独特见解,并证明了我们的工作流程作为假设生成工具包的优势。
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