Depletion of Progranulin Reduces GluN2B-Containing NMDA Receptor Density, Tau Phosphorylation, and Dendritic Arborization in Mouse Primary Cortical Neurons

Loss-of-function mutations in the progranulin (PGRN) gene are a common cause of familial frontotemporal lobar degeneration (FTLD). This age-related neurodegenerative disorder, characterized by brain atrophy in the frontal and temporal lobes and such typical symptoms as cognitive and memory impairmen...

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Veröffentlicht in:	The Journal of pharmacology and experimental therapeutics 2017-11, Vol.363 (2), p.164-175
Hauptverfasser:	Longhena, Francesca, Zaltieri, Michela, Grigoletto, Jessica, Faustini, Gaia, La Via, Luca, Ghidoni, Roberta, Benussi, Luisa, Missale, Cristina, Spano, PierFranco, Bellucci, Arianna
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Schlagworte:	Aging Animals Base Sequence Cell Survival Cerebral Cortex - cytology Gene Expression Regulation Glycosylation Hippocampus - cytology Intercellular Signaling Peptides and Proteins - chemistry Intercellular Signaling Peptides and Proteins - deficiency Intercellular Signaling Peptides and Proteins - genetics Intercellular Signaling Peptides and Proteins - metabolism Mice Mice, Inbred C57BL Molecular Weight Neuronal Plasticity Neurons - cytology Neurons - metabolism Phosphorylation Receptors, N-Methyl-D-Aspartate - metabolism RNA Interference tau Proteins - metabolism
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container_title	The Journal of pharmacology and experimental therapeutics
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creator	Longhena, Francesca Zaltieri, Michela Grigoletto, Jessica Faustini, Gaia La Via, Luca Ghidoni, Roberta Benussi, Luisa Missale, Cristina Spano, PierFranco Bellucci, Arianna
description	Loss-of-function mutations in the progranulin (PGRN) gene are a common cause of familial frontotemporal lobar degeneration (FTLD). This age-related neurodegenerative disorder, characterized by brain atrophy in the frontal and temporal lobes and such typical symptoms as cognitive and memory impairment, profound behavioral abnormalities, and personality changes is thought to be related to connectome dysfunctions. Recently, PGRN reduction has been found to induce a behavioral phenotype reminiscent of FTLD symptoms in mice by affecting neuron spine density and morphology, suggesting that the protein can influence neuronal structural plasticity. Here, we evaluated whether a partial haploinsufficiency-like PGRN depletion, achieved by using RNA interference in primary mouse cortical neurons, could modulate GluN2B-containing -methyl-d-aspartate (NMDA) receptors and tau phosphorylation, which are crucially involved in the regulation of the structural plasticity of these cells. In addition, we studied the effect of PGRN decrease on neuronal cell arborization both in the presence and absence of GluN2B-containing NMDA receptor stimulation. We found that PGRN decline diminished GluN2B-containing NMDA receptor levels and density as well as NMDA-dependent tau phosphorylation. These alterations were accompanied by a marked drop in neuronal arborization that was prevented by an acute GluN2B-containing NMDA receptor stimulation. Our findings support that PGRN decrease, resulting from pathogenic mutations, might compromise the trophism of cortical neurons by affecting GluN2B-contaning NMDA receptors. These mechanisms might be implicated in the pathogenesis of FTLD.
doi_str_mv	10.1124/jpet.117.242164
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This age-related neurodegenerative disorder, characterized by brain atrophy in the frontal and temporal lobes and such typical symptoms as cognitive and memory impairment, profound behavioral abnormalities, and personality changes is thought to be related to connectome dysfunctions. Recently, PGRN reduction has been found to induce a behavioral phenotype reminiscent of FTLD symptoms in mice by affecting neuron spine density and morphology, suggesting that the protein can influence neuronal structural plasticity. Here, we evaluated whether a partial haploinsufficiency-like PGRN depletion, achieved by using RNA interference in primary mouse cortical neurons, could modulate GluN2B-containing -methyl-d-aspartate (NMDA) receptors and tau phosphorylation, which are crucially involved in the regulation of the structural plasticity of these cells. In addition, we studied the effect of PGRN decrease on neuronal cell arborization both in the presence and absence of GluN2B-containing NMDA receptor stimulation. We found that PGRN decline diminished GluN2B-containing NMDA receptor levels and density as well as NMDA-dependent tau phosphorylation. These alterations were accompanied by a marked drop in neuronal arborization that was prevented by an acute GluN2B-containing NMDA receptor stimulation. Our findings support that PGRN decrease, resulting from pathogenic mutations, might compromise the trophism of cortical neurons by affecting GluN2B-contaning NMDA receptors. 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In addition, we studied the effect of PGRN decrease on neuronal cell arborization both in the presence and absence of GluN2B-containing NMDA receptor stimulation. We found that PGRN decline diminished GluN2B-containing NMDA receptor levels and density as well as NMDA-dependent tau phosphorylation. These alterations were accompanied by a marked drop in neuronal arborization that was prevented by an acute GluN2B-containing NMDA receptor stimulation. Our findings support that PGRN decrease, resulting from pathogenic mutations, might compromise the trophism of cortical neurons by affecting GluN2B-contaning NMDA receptors. 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subjects	Aging Animals Base Sequence Cell Survival Cerebral Cortex - cytology Gene Expression Regulation Glycosylation Hippocampus - cytology Intercellular Signaling Peptides and Proteins - chemistry Intercellular Signaling Peptides and Proteins - deficiency Intercellular Signaling Peptides and Proteins - genetics Intercellular Signaling Peptides and Proteins - metabolism Mice Mice, Inbred C57BL Molecular Weight Neuronal Plasticity Neurons - cytology Neurons - metabolism Phosphorylation Receptors, N-Methyl-D-Aspartate - metabolism RNA Interference tau Proteins - metabolism
title	Depletion of Progranulin Reduces GluN2B-Containing NMDA Receptor Density, Tau Phosphorylation, and Dendritic Arborization in Mouse Primary Cortical Neurons
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