Loss of presenilin function causes impairments of memory and synaptic plasticity followed by age-dependent neurodegeneration

Carlos A. Saura; Se Young Choi; Vassilios Beglopoulos; Seema Malkani; Dawei Zhang; B. S.Shankaranarayana Rao; Sumantra Chattarji; Raymond J. Kelleher; Eric R. Kandel; Karen Duff; Alfredo Kirkwood; Jie Shen

doi:10.1016/S0896-6273(04)00182-5

Loss of presenilin function causes impairments of memory and synaptic plasticity followed by age-dependent neurodegeneration

Carlos A. Saura, Se Young Choi, Vassilios Beglopoulos, Seema Malkani, Dawei Zhang, B. S.Shankaranarayana Rao, Sumantra Chattarji, Raymond J. Kelleher, Eric R. Kandel, Karen Duff, Alfredo Kirkwood, Jie Shen

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Mutations in presenilins are the major cause of familial Alzheimer's disease, but the pathogenic mechanism by which presenilin mutations cause memory loss and neurodegeneration remains unclear. Here we demonstrate that conditional double knockout mice lacking both presenilins in the postnatal forebrain exhibit impairments in hippocampal memory and synaptic plasticity. These deficits are associated with specific reductions in NMDA receptor-mediated responses and synaptic levels of NMDA receptors and αCaMKII. Furthermore, loss of presenilins causes reduced expression of CBP and CREB/CBP target genes, such as c-fos and BDNF. With increasing age, mutant mice develop striking neurodegeneration of the cerebral cortex and worsening impairments of memory and synaptic function. Neurodegeneration is accompanied by increased levels of the Cdk5 activator p25 and hyperphosphorylated tau. These results define essential roles and molecular targets of presenilins in synaptic plasticity, learning and memory, and neuronal survival in the adult cerebral cortex.

Original language	English (US)
Pages (from-to)	23-36
Number of pages	14
Journal	Neuron
Volume	42
Issue number	1
DOIs	https://doi.org/10.1016/S0896-6273(04)00182-5
State	Published - Apr 8 2004

ASJC Scopus subject areas

Neuroscience(all)

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Loss of presenilin function causes impairments of memory and synaptic plasticity followed by age-dependent neurodegeneration. / Saura, Carlos A.; Choi, Se Young; Beglopoulos, Vassilios; Malkani, Seema; Zhang, Dawei; Rao, B. S.Shankaranarayana; Chattarji, Sumantra; Kelleher, Raymond J.; Kandel, Eric R.; Duff, Karen; Kirkwood, Alfredo; Shen, Jie.

In: Neuron, Vol. 42, No. 1, 08.04.2004, p. 23-36.

Research output: Contribution to journal › Article › peer-review

Saura, Carlos A. ; Choi, Se Young ; Beglopoulos, Vassilios ; Malkani, Seema ; Zhang, Dawei ; Rao, B. S.Shankaranarayana ; Chattarji, Sumantra ; Kelleher, Raymond J. ; Kandel, Eric R. ; Duff, Karen ; Kirkwood, Alfredo ; Shen, Jie. / Loss of presenilin function causes impairments of memory and synaptic plasticity followed by age-dependent neurodegeneration. In: Neuron. 2004 ; Vol. 42, No. 1. pp. 23-36.

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title = "Loss of presenilin function causes impairments of memory and synaptic plasticity followed by age-dependent neurodegeneration",

abstract = "Mutations in presenilins are the major cause of familial Alzheimer's disease, but the pathogenic mechanism by which presenilin mutations cause memory loss and neurodegeneration remains unclear. Here we demonstrate that conditional double knockout mice lacking both presenilins in the postnatal forebrain exhibit impairments in hippocampal memory and synaptic plasticity. These deficits are associated with specific reductions in NMDA receptor-mediated responses and synaptic levels of NMDA receptors and αCaMKII. Furthermore, loss of presenilins causes reduced expression of CBP and CREB/CBP target genes, such as c-fos and BDNF. With increasing age, mutant mice develop striking neurodegeneration of the cerebral cortex and worsening impairments of memory and synaptic function. Neurodegeneration is accompanied by increased levels of the Cdk5 activator p25 and hyperphosphorylated tau. These results define essential roles and molecular targets of presenilins in synaptic plasticity, learning and memory, and neuronal survival in the adult cerebral cortex.",

author = "Saura, {Carlos A.} and Choi, {Se Young} and Vassilios Beglopoulos and Seema Malkani and Dawei Zhang and Rao, {B. S.Shankaranarayana} and Sumantra Chattarji and Kelleher, {Raymond J.} and Kandel, {Eric R.} and Karen Duff and Alfredo Kirkwood and Jie Shen",

note = "Funding Information: We thank P. Davis for CP13 and PHF-1 and B. De Strooper for B19.2 antibodies; R. Kopan, M. Feany, L.-H. Tsai, B. Alger, and members of our laboratory for helpful discussions; W. Cheng, S. Lincoln, A. Martins, and W. Wang for assistance; and M. Irizarry for advice on the stereological counting method. The work was supported by grants from the Alzheimer's Association (C.A.S., J.S.) and the NINDS (NS41783 to J.S.). E.R.K. is one of four founders of Memory Pharmaceuticals and Chairman of its Scientific Advisory Board. Memory Pharmaceuticals is concerned with developing drugs for age-related memory loss. Some of these drugs are also potentially useful in depression and schizophrenia. ",

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AU - Kelleher, Raymond J.

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AU - Duff, Karen

AU - Kirkwood, Alfredo

AU - Shen, Jie

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N2 - Mutations in presenilins are the major cause of familial Alzheimer's disease, but the pathogenic mechanism by which presenilin mutations cause memory loss and neurodegeneration remains unclear. Here we demonstrate that conditional double knockout mice lacking both presenilins in the postnatal forebrain exhibit impairments in hippocampal memory and synaptic plasticity. These deficits are associated with specific reductions in NMDA receptor-mediated responses and synaptic levels of NMDA receptors and αCaMKII. Furthermore, loss of presenilins causes reduced expression of CBP and CREB/CBP target genes, such as c-fos and BDNF. With increasing age, mutant mice develop striking neurodegeneration of the cerebral cortex and worsening impairments of memory and synaptic function. Neurodegeneration is accompanied by increased levels of the Cdk5 activator p25 and hyperphosphorylated tau. These results define essential roles and molecular targets of presenilins in synaptic plasticity, learning and memory, and neuronal survival in the adult cerebral cortex.

AB - Mutations in presenilins are the major cause of familial Alzheimer's disease, but the pathogenic mechanism by which presenilin mutations cause memory loss and neurodegeneration remains unclear. Here we demonstrate that conditional double knockout mice lacking both presenilins in the postnatal forebrain exhibit impairments in hippocampal memory and synaptic plasticity. These deficits are associated with specific reductions in NMDA receptor-mediated responses and synaptic levels of NMDA receptors and αCaMKII. Furthermore, loss of presenilins causes reduced expression of CBP and CREB/CBP target genes, such as c-fos and BDNF. With increasing age, mutant mice develop striking neurodegeneration of the cerebral cortex and worsening impairments of memory and synaptic function. Neurodegeneration is accompanied by increased levels of the Cdk5 activator p25 and hyperphosphorylated tau. These results define essential roles and molecular targets of presenilins in synaptic plasticity, learning and memory, and neuronal survival in the adult cerebral cortex.

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