Upregulation of adenosine A2A receptor in astrocytes is sufficient to trigger hippocampal multicellular dysfunctions and memory deficits

IF 9.6 1区医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Molecular Psychiatry Pub Date : 2025-07-23 DOI:10.1038/s41380-025-03115-9

Agathe Launay, Kevin Carvalho, Athénais Genin, Thibaut Gauvrit, Paola Nobili, Victoria Gomez-Murcia, Emma Augustin, Anaëlle Burgard, Johanne Gambi, Déborah Fourmy, Bryan Thiroux, Didier Vieau, Alexis-Pierre Bemelmans, Stephanie Le Gras, Luc Buée, Miranda E. Orr, Etienne Audinat, Anne-Laurence Boutillier, Gilles Bonvento, Karine Cambon, Emilie Faivre, David Blum

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Abstract

Adenosine is an ubiquitous neuromodulator that ensures cerebral homeostasis. It exerts numerous functions through the activation of G-protein-coupled adenosine receptors (ARs), in particular A₁ (A₁R) and A_2A (A_2AR) receptors. Interestingly, A_2AR levels are upregulated in cortical and hippocampal regions in several pathological conditions such as Alzheimer’s disease, tauopathies or epilepsia. Such abnormal upregulations have been particularly reported in astrocytes, glial cells that play a key role in regulating synaptic plasticity. However, the overall impact and the underlying mechanisms associated with increased A_2AR in astrocytes remain poorly understood. In the present study, we induced the upregulation of A_2AR in hippocampal astrocytes using dedicated AAVs and comprehensively evaluated the functional consequences in 4 months-old C57Bl6/J mice. Our results show that A_2AR upregulation primarily promotes alterations of astrocyte reactivity, morphology and transcriptome, with a link to aging-like phenotype as well as secondary impairments of neuronal excitability and microglial phenotype. These changes driven by a restricted A_2AR upregulation in hippocampal astrocytes were sufficient to induce impairments of short-term spatial memory and spatial learning. This study highlights the impact of astrocytic A_2AR upregulation, as seen in various neurological conditions, on the development of a detrimental multicellular response associated with memory alterations and provides an additional proof-of-concept for the value of targeting this receptor in different neurodegenerative conditions.

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星形胶质细胞中腺苷A2A受体的上调足以引发海马多细胞功能障碍和记忆缺陷

腺苷是一种普遍存在的神经调节剂，可确保大脑内稳态。它通过激活g蛋白偶联腺苷受体（ARs）发挥多种功能，特别是A1 （A1R）和A2A （A2AR）受体。有趣的是，在阿尔茨海默病、牛头病或癫痫等多种病理情况下，皮质和海马区域的A2AR水平上调。这种异常的上调在星形胶质细胞中被特别报道，星形胶质细胞在调节突触可塑性中起关键作用。然而，与星形胶质细胞中A2AR增加相关的总体影响和潜在机制仍然知之甚少。本研究在4月龄C57Bl6/J小鼠中，采用专用aav诱导海马星形胶质细胞A2AR上调，并综合评价其功能后果。我们的研究结果表明，A2AR上调主要促进星形胶质细胞反应性、形态和转录组的改变，与衰老样表型以及神经元兴奋性和小胶质细胞表型的继发性损伤有关。这些变化是由海马星形胶质细胞中受限的A2AR上调驱动的，足以诱导短期空间记忆和空间学习的损伤。这项研究强调了星形细胞A2AR上调的影响，正如在各种神经系统疾病中看到的那样，在与记忆改变相关的有害多细胞反应的发展中，并为在不同的神经退行性疾病中靶向这种受体的价值提供了额外的概念证明。

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

Molecular Psychiatry 医学-精神病学

CiteScore

20.50

自引率

4.50%

发文量

459

审稿时长

4-8 weeks

期刊介绍： Molecular Psychiatry focuses on publishing research that aims to uncover the biological mechanisms behind psychiatric disorders and their treatment. The journal emphasizes studies that bridge pre-clinical and clinical research, covering cellular, molecular, integrative, clinical, imaging, and psychopharmacology levels.