Role of intracellular Ca2+ stores for an impairment of visual processing in a mouse model of Alzheimer's disease
Besides deficits in memory and cognition, impaired visual processing is common for Alzheimer's disease (AD) patients and mouse models of AD but underlying mechanisms still remain unclear. Using in vivo Ca2+ imaging of the mouse primary visual cortex (V1) we tested whether such impairment is cau...
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doaj-c3ff986c53454773a4dac4946adba7a62021-03-22T12:47:01ZengElsevierNeurobiology of Disease1095-953X2019-01-01121315326Role of intracellular Ca2+ stores for an impairment of visual processing in a mouse model of Alzheimer's diseaseNithi Asavapanumas0Bianca Brawek1Peter Martus2Olga Garaschuk3Institute of Physiology, Department of Neurophysiology, Eberhard Karls University of Tübingen, Tübingen, GermanyInstitute of Physiology, Department of Neurophysiology, Eberhard Karls University of Tübingen, Tübingen, GermanyInstitute for Clinical Epidemiology and Applied Biostatistics, Eberhard Karls University of Tübingen, Tübingen, GermanyInstitute of Physiology, Department of Neurophysiology, Eberhard Karls University of Tübingen, Tübingen, Germany; Corresponding author at: Department of Neurophysiology, University of Tübingen, Keplerstr. 15, 72074 Tübingen, Germany.Besides deficits in memory and cognition, impaired visual processing is common for Alzheimer's disease (AD) patients and mouse models of AD but underlying mechanisms still remain unclear. Using in vivo Ca2+ imaging of the mouse primary visual cortex (V1) we tested whether such impairment is caused by neuronal hyperactivity, an emerging functional hallmark of AD. Profound neuronal hyperactivity was indeed found in V1 of APPSWE/PS1G384A and even of PS1G384A mice, presenting neither with plaque accumulation nor with neuroinflammation. This hyperactivity was accompanied by over-responsiveness to visual stimuli and impaired visual tuning properties of individual neurons, largely caused by insufficient suppression of responses to non-preferred orientation/direction stimuli. Moreover, visual stimulation robustly suppressed the ongoing spontaneous activity in WT but not in APPSWE/PS1G384A mice. Emptying intracellular Ca2+ stores significantly reduced neuronal hyperactivity and the pathological over-responsiveness to visual stimuli, but could not rescue stimulus-induced suppression of spontaneous activity and impaired tuning properties of individual cells. Thus, our data identify the AD-mediated dysfunction of intracellular Ca2+ stores as a main cause of pathologically increased visual responsiveness in APPSWE/PS1G384A mice. At the same time, the impairment of visual tuning and the stimulus-induced suppression of spontaneous activity, identified in this study, are likely caused by different mechanisms as, for example, dysfunction of local interneurons.http://www.sciencedirect.com/science/article/pii/S0969996118303243Alzheimer's diseaseNeuronal hyperactivityCalcium storesImpairment of visual signal processing |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Nithi Asavapanumas Bianca Brawek Peter Martus Olga Garaschuk |
spellingShingle |
Nithi Asavapanumas Bianca Brawek Peter Martus Olga Garaschuk Role of intracellular Ca2+ stores for an impairment of visual processing in a mouse model of Alzheimer's disease Neurobiology of Disease Alzheimer's disease Neuronal hyperactivity Calcium stores Impairment of visual signal processing |
author_facet |
Nithi Asavapanumas Bianca Brawek Peter Martus Olga Garaschuk |
author_sort |
Nithi Asavapanumas |
title |
Role of intracellular Ca2+ stores for an impairment of visual processing in a mouse model of Alzheimer's disease |
title_short |
Role of intracellular Ca2+ stores for an impairment of visual processing in a mouse model of Alzheimer's disease |
title_full |
Role of intracellular Ca2+ stores for an impairment of visual processing in a mouse model of Alzheimer's disease |
title_fullStr |
Role of intracellular Ca2+ stores for an impairment of visual processing in a mouse model of Alzheimer's disease |
title_full_unstemmed |
Role of intracellular Ca2+ stores for an impairment of visual processing in a mouse model of Alzheimer's disease |
title_sort |
role of intracellular ca2+ stores for an impairment of visual processing in a mouse model of alzheimer's disease |
publisher |
Elsevier |
series |
Neurobiology of Disease |
issn |
1095-953X |
publishDate |
2019-01-01 |
description |
Besides deficits in memory and cognition, impaired visual processing is common for Alzheimer's disease (AD) patients and mouse models of AD but underlying mechanisms still remain unclear. Using in vivo Ca2+ imaging of the mouse primary visual cortex (V1) we tested whether such impairment is caused by neuronal hyperactivity, an emerging functional hallmark of AD. Profound neuronal hyperactivity was indeed found in V1 of APPSWE/PS1G384A and even of PS1G384A mice, presenting neither with plaque accumulation nor with neuroinflammation. This hyperactivity was accompanied by over-responsiveness to visual stimuli and impaired visual tuning properties of individual neurons, largely caused by insufficient suppression of responses to non-preferred orientation/direction stimuli. Moreover, visual stimulation robustly suppressed the ongoing spontaneous activity in WT but not in APPSWE/PS1G384A mice. Emptying intracellular Ca2+ stores significantly reduced neuronal hyperactivity and the pathological over-responsiveness to visual stimuli, but could not rescue stimulus-induced suppression of spontaneous activity and impaired tuning properties of individual cells. Thus, our data identify the AD-mediated dysfunction of intracellular Ca2+ stores as a main cause of pathologically increased visual responsiveness in APPSWE/PS1G384A mice. At the same time, the impairment of visual tuning and the stimulus-induced suppression of spontaneous activity, identified in this study, are likely caused by different mechanisms as, for example, dysfunction of local interneurons. |
topic |
Alzheimer's disease Neuronal hyperactivity Calcium stores Impairment of visual signal processing |
url |
http://www.sciencedirect.com/science/article/pii/S0969996118303243 |
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