Optogenetic activation of intracellular adenosine A sub(2A) receptor signaling in the hippocampus is sufficient to trigger CREB phosphorylation and impair memory

Human and animal studies have converged to suggest that caffeine consumption prevents memory deficits in aging and Alzheimer's disease through the antagonism of adenosine A sub(2A) receptors (A sub(2A)Rs). To test if A sub(2A)R activation in the hippocampus is actually sufficient to impair memo...

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Published in:Molecular psychiatry 2015-11, Vol.20 (11), p.1339-1349
Main Authors: Li, P, Rial, D, Canas, P M, Yoo, J-H, Li, W, Zhou, X, Wang, Y, van Westen, G J P, Payen, M-P, Augusto, E, Goncalves, N, Tome, A R, Li, Z, Wu, Z, Hou, X, Zhou, Y, PIJzerman, Ad, Boyden, E S, Cunha, R A, Qu, J, Chen, J-F
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Language:English
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Summary:Human and animal studies have converged to suggest that caffeine consumption prevents memory deficits in aging and Alzheimer's disease through the antagonism of adenosine A sub(2A) receptors (A sub(2A)Rs). To test if A sub(2A)R activation in the hippocampus is actually sufficient to impair memory function and to begin elucidating the intracellular pathways operated by A sub(2A)R, we have developed a chimeric rhodopsin-A sub(2A)R protein (optoA sub(2A)R), which retains the extracellular and transmembrane domains of rhodopsin (conferring light responsiveness and eliminating adenosine-binding pockets) fused to the intracellular loop of A sub(2A)R to confer specific A sub(2A)R signaling. The specificity of the optoA sub(2A)R signaling was confirmed by light-induced selective enhancement of cAMP and phospho-mitogen-activated protein kinase (p-MAPK) (but not cGMP) levels in human embryonic kidney 293 (HEK293) cells, which was abolished by a point mutation at the C terminal of A sub(2A)R. Supporting its physiological relevance, optoA sub(2A)R activation and the A sub(2A)R agonist CGS21680 produced similar activation of cAMP and p-MAPK signaling in HEK293 cells, of p-MAPK in the nucleus accumbens and of c-Fos/phosphorylated-CREB (p-CREB) in the hippocampus, and similarly enhanced long-term potentiation in the hippocampus. Remarkably, optoA sub(2A)R activation triggered a preferential p-CREB signaling in the hippocampus and impaired spatial memory performance, while optoA sub(2A)R activation in the nucleus accumbens triggered MAPK signaling and modulated locomotor activity. This shows that the recruitment of intracellular A sub(2A)R signaling in the hippocampus is sufficient to trigger memory dysfunction. Furthermore, the demonstration that the biased A sub(2A)R signaling and functions depend on intracellular A sub(2A)R loops prompts the possibility of targeting the intracellular A sub(2A)R-interacting partners to selectively control different neuropsychiatric behaviors.
ISSN:1359-4184
DOI:10.1038/mp.2014.182