Serotonin signaling is associated with lower amyloid-[Beta] levels and plaques in transgenic mice and humans

Aggregation of amyloid-β (Aβ) as toxic oligomers and amyloid plaques within the brain appears to be the pathogenic event that initiates Alzheimer's disease (AD) lesions. One therapeutic strategy has been to reduce A? levels to limit its accumulation. Activation of certain neurotransmitter recep...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2011-09, Vol.108 (36), p.14968
Hauptverfasser:	Cirrito, John R, Disabato, Brianne M, Restivo, Jessica L, Verges, Deborah K, Goebel, Whitney D, Sathyan, Anshul, Hayreh, Davinder, D'Angelo, Gina, Benzinger, Tammie, Yoon, Hyejin, Kim, Jungsu, Morris, John C, Mintun, Mark A, Sheline, Yvette I
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Schlagworte:	Alzheimer's disease Human subjects Rodents Serotonin Signal transduction
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creator	Cirrito, John R Disabato, Brianne M Restivo, Jessica L Verges, Deborah K Goebel, Whitney D Sathyan, Anshul Hayreh, Davinder D'Angelo, Gina Benzinger, Tammie Yoon, Hyejin Kim, Jungsu Morris, John C Mintun, Mark A Sheline, Yvette I
description	Aggregation of amyloid-β (Aβ) as toxic oligomers and amyloid plaques within the brain appears to be the pathogenic event that initiates Alzheimer's disease (AD) lesions. One therapeutic strategy has been to reduce A? levels to limit its accumulation. Activation of certain neurotransmitter receptors can regulate Aβ metabolism. We assessed the ability of serotonin signaling to alter brain Aβ levels and plaques in a mouse model of AD and in humans. In mice, brain interstitial fluid (ISF) Aβ levels were decreased by 25% following administration of several selective serotonin reuptake inhibitor (SSRI) antidepressant drugs. Similarly, direct infusion of serotonin into the hippocampus reduced ISF Aβ levels. Serotonin-dependent reductions in Aβ were reversed if mice were pretreated with inhibitors of the extracellular regulated kinase (ERK) signaling cascade. Chronic treatment with an SSRI, citalopram, caused a 50% reduction in brain plaque load in mice. To test whether serotonin signaling could impact A? plaques in humans, we retrospectively compared brain amyloid load in cognitively normal elderly participants who were exposed to antidepressant drugs within the past 5 y to participants who were not. Antidepressant-treated participants had significantly less amyloid load as quantified by positron emission tomography (PET) imaging with Pittsburgh Compound B (PIB). Cumulative time of antidepressant use within the 5-y period preceding the scan correlated with less plaque load. These data suggest that serotonin signaling was associated with less Aβ accumulation in cognitively normal individuals. [PUBLICATION ABSTRACT]
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One therapeutic strategy has been to reduce A? levels to limit its accumulation. Activation of certain neurotransmitter receptors can regulate Aβ metabolism. We assessed the ability of serotonin signaling to alter brain Aβ levels and plaques in a mouse model of AD and in humans. In mice, brain interstitial fluid (ISF) Aβ levels were decreased by 25% following administration of several selective serotonin reuptake inhibitor (SSRI) antidepressant drugs. Similarly, direct infusion of serotonin into the hippocampus reduced ISF Aβ levels. Serotonin-dependent reductions in Aβ were reversed if mice were pretreated with inhibitors of the extracellular regulated kinase (ERK) signaling cascade. Chronic treatment with an SSRI, citalopram, caused a 50% reduction in brain plaque load in mice. 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subjects	Alzheimer's disease Human subjects Rodents Serotonin Signal transduction
title	Serotonin signaling is associated with lower amyloid-[Beta] levels and plaques in transgenic mice and humans
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