Overexpression of PKMζ alters morphology and function of dendritic spines in cultured cortical neurons

Shiri Ron; Yadin Dudai; Menahem Segal

doi:10.1093/cercor/bhr323

Overexpression of PKMζ alters morphology and function of dendritic spines in cultured cortical neurons

Shiri Ron, Yadin Dudai, Menahem Segal^*

^*Corresponding author for this work

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

28 Citations (Scopus)

Abstract

Protein kinase M zeta (PKMζ), an atypical isoform of protein kinase C (PKC), has been implicated in long-term maintenance of neuronal plasticity and memory. However, the cellular machinery involved in these functions has yet to be elucidated. Here, we investigated the effects of PKMζ overexpression on the morphology and function of cortical neurons in primary cultures. Transfection with a plasmid construct expressing the PKMζ gene modified the distribution of spine morphologies and reduced spine length, while leaving total spine density and dendritic branching unchanged. A significant increase in magnitude but not frequency of miniature excitatory post synaptic currents was detected in the PKMζ overexpressing cells. These results suggest that PKMζ is involved in regulation of dendritic spine structure and function, which may underlie its role in long-term synaptic and behavioral plasticity.

Original language	English
Pages (from-to)	2519-2528
Number of pages	10
Journal	Cerebral Cortex
Volume	22
Issue number	11
DOIs	https://doi.org/10.1093/cercor/bhr323
Publication status	Published - Nov 2012

Funding

Israel Science Foundation; Pratt Foundation; US-Israel Binational Science Foundation [2007141]Israel Science Foundation (M.S.) and the Pratt Foundation and the US-Israel Binational Science Foundation Grant 2007141 (Y.D.).

All Science Journal Classification (ASJC) codes

Cognitive Neuroscience
Cellular and Molecular Neuroscience

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10.1093/cercor/bhr323

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abstract = "Protein kinase M zeta (PKMζ), an atypical isoform of protein kinase C (PKC), has been implicated in long-term maintenance of neuronal plasticity and memory. However, the cellular machinery involved in these functions has yet to be elucidated. Here, we investigated the effects of PKMζ overexpression on the morphology and function of cortical neurons in primary cultures. Transfection with a plasmid construct expressing the PKMζ gene modified the distribution of spine morphologies and reduced spine length, while leaving total spine density and dendritic branching unchanged. A significant increase in magnitude but not frequency of miniature excitatory post synaptic currents was detected in the PKMζ overexpressing cells. These results suggest that PKMζ is involved in regulation of dendritic spine structure and function, which may underlie its role in long-term synaptic and behavioral plasticity.",

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AU - Dudai, Yadin

AU - Segal, Menahem

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AB - Protein kinase M zeta (PKMζ), an atypical isoform of protein kinase C (PKC), has been implicated in long-term maintenance of neuronal plasticity and memory. However, the cellular machinery involved in these functions has yet to be elucidated. Here, we investigated the effects of PKMζ overexpression on the morphology and function of cortical neurons in primary cultures. Transfection with a plasmid construct expressing the PKMζ gene modified the distribution of spine morphologies and reduced spine length, while leaving total spine density and dendritic branching unchanged. A significant increase in magnitude but not frequency of miniature excitatory post synaptic currents was detected in the PKMζ overexpressing cells. These results suggest that PKMζ is involved in regulation of dendritic spine structure and function, which may underlie its role in long-term synaptic and behavioral plasticity.

UR - https://www.scopus.com/pages/publications/84864320625

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DO - 10.1093/cercor/bhr323

M3 - Article

SN - 1047-3211

VL - 22

SP - 2519

EP - 2528

JO - Cerebral Cortex

JF - Cerebral Cortex

IS - 11

ER -

Overexpression of PKMζ alters morphology and function of dendritic spines in cultured cortical neurons

Abstract

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