Frontiers | Dissecting the contribution of human chromosome 21 syntenic regions to recognition memory processes in adult and aged mouse models of Down syndrome

IF 2.6 3区医学 Q2 BEHAVIORAL SCIENCES

Frontiers in Behavioral Neuroscience Pub Date : 2024-06-24 DOI:10.3389/fnbeh.2024.1428146

Tara Canonica, Emma J. Kidd, Dorota Gibbins, Eva Lana-Elola, Elizabeth M. C. Fisher, Victor L. J. Tybulewicz, Mark Good

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Abstract

BackgroundTrisomy of human chromosome 21 (Hsa21) results in a constellation of features known as Down syndrome (DS), the most common genetic form of intellectual disability. Hsa21 is orthologous to three regions in the mouse genome on mouse chromosome 16 (Mmu16), Mmu17 and Mmu10. We investigated genotype-phenotype relationships by assessing the contribution of these three regions to memory function and age-dependent cognitive decline, using three mouse models of DS, Dp1Tyb, Dp(17)3Yey, Dp(10)2Yey, that carry an extra copy of the Hsa21-orthologues on Mmu16, Mmu17 and Mmu10, respectively.HypothesisPrior research on cognitive function in DS mouse models has largely focused on models with an extra copy of the Mmu16 region and relatively little is known about the effects of increased copy number on Mmu17 and Mmu10 on cognition and how this interacts with the effects of aging. As aging is is a critical contributor to cognitive and psychiatric changes in DS, we hypothesised that ageing would differentially impact memory function in Dp1Tyb, Dp(17)3Yey, and Dp(10)2Yey, models of DS.MethodsYoung (12-13 months and old (18-20 months mice Dp1Tyb, Dp(17)3Yey and Dp(10)2Yey mice were tested on a battery of object recognition memory test that assessed object novelty detection, novel location detection and associative object-in place memory. Following behavioral testing, hippocampal and frontal cortical tissue was analysed for expression of glutamatergic receptor proteins using standard immunoblot techniques.ResultsYoung (12-13 months and old (18-20 months mice Dp1Tyb, Dp(17)3Yey and Dp(10)2Yey mice were tested on a battery of object recognition memory test that assessed object novelty detection, novel location detection and associative object-in place memory. Following behavioral testing, hippocampal and frontal cortical tissue was analysed for expression of glutamatergic receptor proteins using standard immunoblot techniques.ConclusionOur results show that distinct Hsa21-orthologous regions contribute differentially to cognitive dysfunction in DS mouse models and that aging interacts with triplication of Hsa21-orthologous genes on Mmu10.

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前沿 | 剖析人类 21 号染色体同源区对成年和老年唐氏综合征小鼠模型识别记忆过程的贡献

背景人类 21 号染色体（Hsa21）三体综合征（DS）是最常见的遗传性智力残疾。Hsa21与小鼠基因组中的三个区域正交，分别位于小鼠第16号染色体（Mmu16）、Mmu17和Mmu10上。我们使用三种小鼠 DS 模型（Dp1Tyb、Dp(17)3Yey 和 Dp(10)2Yey）研究了基因型与表型之间的关系，通过评估这三个区域对记忆功能和年龄依赖性认知衰退的贡献，这三种模型分别携带 Mmu16、Mmu17 和 Mmu10 上 Hsa21 同源物的额外拷贝。假说先前对 DS 小鼠模型认知功能的研究主要集中在带有 Mmu16 区域额外拷贝的模型上，而对于 Mmu17 和 Mmu10 拷贝数增加对认知的影响以及这种影响与衰老的影响之间的相互作用则知之甚少。由于衰老是导致DS认知和精神变化的关键因素，我们假设衰老会对Dp1Tyb、Dp（17）3Yey和Dp（10）2Yey等DS模型的记忆功能产生不同的影响。方法对幼年（12-13 个月）和老年（18-20 个月）的 Dp1Tyb、Dp(17)3Yey 和 Dp(10)2Yey 小鼠进行了一系列物体识别记忆测试，以评估物体新奇性检测、新位置检测和关联性物体在位记忆。在行为测试之后，使用标准免疫印迹技术分析了海马和额叶皮层组织中谷氨酸能受体蛋白的表达情况。结果年轻（12-13 个月和年老（18-20 个月的 Dp1Tyb、Dp(17)3Yey 和 Dp(10)2Yey 小鼠）小鼠接受了一系列物体识别记忆测试，这些测试评估了物体新奇度检测、新位置检测和联想物体到位记忆。结论我们的研究结果表明，不同的 Hsa21 同源区域对 DS 小鼠模型的认知功能障碍有不同的贡献，而且衰老与 Mmu10 上的 Hsa21 同源基因的三倍化相互影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Behavioral Neuroscience BEHAVIORAL SCIENCES-NEUROSCIENCES

CiteScore

4.70

自引率

3.30%

发文量

506

审稿时长

6-12 weeks

期刊介绍： Frontiers in Behavioral Neuroscience is a leading journal in its field, publishing rigorously peer-reviewed research that advances our understanding of the neural mechanisms underlying behavior. Field Chief Editor Nuno Sousa at the Instituto de Pesquisa em Ciências da Vida e da Saúde (ICVS) is supported by an outstanding Editorial Board of international experts. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide. This journal publishes major insights into the neural mechanisms of animal and human behavior, and welcomes articles studying the interplay between behavior and its neurobiological basis at all levels: from molecular biology and genetics, to morphological, biochemical, neurochemical, electrophysiological, neuroendocrine, pharmacological, and neuroimaging studies.