进一步利用基因表达和连接精细刻画海马 CA2 的边界：潜在的亚区和异质细胞类型。

Further refining the boundaries of the hippocampus CA2 with gene expression and connectivity: Potential subregions and heterogeneous cell types.

机构信息

USC Mark and Mary Stevens Neuroimaging and Informatics Institute, Keck School of Medicine of USC, University of Southern California, Los Angeles, California, USA.

Zilkha Neurogenetic Institute, Keck School of Medicine of University of Southern California, Los Angeles, California, USA.

出版信息

Hippocampus. 2023 Mar;33(3):150-160. doi: 10.1002/hipo.23508. Epub 2023 Feb 14.

DOI:10.1002/hipo.23508

PMID:36786207

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9987718/

Abstract

Over the last two decades, the definition of hippocampal area CA2 has evolved from Lorente de Nó's original Golgi-based morphological description with the discovery of specific CA2 gene expression markers. Exploiting the specificity of these molecules has allowed for the genetic dissection of CA2 structure and function in transgenic mice. With this change in criteria, the anatomical boundaries of the CA2 have expanded across the hippocampal axis but the CA2's full rostrocaudal extent is not consistently delineated across atlases. The Hippocampus Gene Expression Atlas (HGEA) provides a comprehensive map of 20 gene expression domains across the entire mouse hippocampus including the CA2. In this commentary, I will review the consensus gene expression patterns that demarcate the expanded CA2 boundaries in the HGEA. Using DropViz single-cell transcriptomics and Mouse Connectome Project connectomics data, I will then suggest potential differences in CA2 cell type heterogeneity and connectivity that may identify and characterize further CA2 subregions.

摘要

在过去的二十年中，随着特定 CA2 基因表达标记的发现，海马体 CA2 区域的定义已经从 Lorente de Nó 的原始基于高尔基的形态描述中演变而来。利用这些分子的特异性，使得在转基因小鼠中对 CA2 结构和功能进行基因操作成为可能。随着标准的改变，CA2 的解剖边界已经在海马体轴上扩展，但 CA2 的全长前后范围并没有在图谱上一致划定。海马体基因表达图谱 (HGEA) 提供了一个跨越整个小鼠海马体的 20 个基因表达区域的综合图谱，包括 CA2。在这篇评论中，我将回顾在 HGEA 中划定扩展的 CA2 边界的共识基因表达模式。然后，我将使用 DropViz 单细胞转录组学和 Mouse Connectome Project 连接组学数据，提出 CA2 细胞类型异质性和连接性的潜在差异，这些差异可能会识别和描述进一步的 CA2 亚区。

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