The developing mouse dopaminergic system: Cortical-subcortical shift in D1/D2 receptor balance and increasing regional differentiation.

IF 4.4 3区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Ingvild E Bjerke, Harry Carey, Jan G Bjaalie, Trygve B Leergaard, Jee Hyun Kim
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引用次数: 0

Abstract

The dopaminergic system of the brain is involved in complex cognitive functioning and undergoes extensive reorganization during development. Yet, these changes are poorly characterized. We have quantified the density of dopamine 1- and 2-receptor (D1 and D2) positive cells across the forebrain of male and female mice at five developmental stages using validated transgenic mice expressing green fluorescent protein in cells producing D1 or D2 mRNA. After analyzing >4,500 coronal brain images, a cortico-subcortical shift in D1/D2 balance was discovered, with increasing D1 dominance in cortical regions as a maturational pattern that occurs earlier in females. We describe postnatal trajectories of D1 and D2 cell densities across major brain regions and observe increasing regional differentiation of D1 densities through development. Our results provide the most comprehensive overview of the developing dopaminergic system to date, and an empirical foundation for further experimental and computational investigations of dopaminergic signaling.

发育中的小鼠多巴胺能系统:皮层-皮层下 D1/D2 受体平衡的转变和区域分化的加剧
大脑多巴胺能系统参与了复杂的认知功能,并在发育过程中经历了广泛的重组。然而,这些变化的特征还很不清楚。我们利用在产生 D1 或 D2 mRNA 的细胞中表达绿色荧光蛋白的有效转基因小鼠,量化了雌雄小鼠前脑五个发育阶段中多巴胺 1 和 2 受体(D1 和 D2)阳性细胞的密度。在对超过 4500 张冠状脑图像进行分析后,我们发现 D1/D2 平衡在皮质-皮质下发生了转变,皮质区域的 D1 优势不断增强,这种成熟模式在雌性小鼠中出现得更早。我们描述了出生后各主要脑区 D1 和 D2 细胞密度的变化轨迹,并观察到 D1 密度在整个发育过程中的区域分化不断加剧。我们的研究结果提供了迄今为止对发育中多巴胺能系统最全面的概述,并为多巴胺能信号转导的进一步实验和计算研究奠定了经验基础。
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
Neurochemistry international
Neurochemistry international 医学-神经科学
CiteScore
8.40
自引率
2.40%
发文量
128
审稿时长
37 days
期刊介绍: Neurochemistry International is devoted to the rapid publication of outstanding original articles and timely reviews in neurochemistry. Manuscripts on a broad range of topics will be considered, including molecular and cellular neurochemistry, neuropharmacology and genetic aspects of CNS function, neuroimmunology, metabolism as well as the neurochemistry of neurological and psychiatric disorders of the CNS.
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