Lauren LaPlante scite author profile

AKT is a kinase regulating numerous cellular processes in the brain, and mutations in AKT are known to affect brain function. AKT is indirectly implicated in synaptic plasticity, but its direct role has not been studied. Moreover, three highly related AKT isoforms are expressed in the brain, but their individual roles are poorly understood. We find in Mus musculus, each AKT isoform has a unique expression pattern in the hippocampus, with AKT1 and AKT3 primarily in neurons but displaying local differences, while AKT2 is in astrocytes. We also find isoform-specific roles for AKT in multiple paradigms of hippocampal synaptic plasticity in area CA1. AKT1, but not AKT2 or AKT3, is required for L-LTP through regulating activity-induced protein synthesis. Interestingly, AKT activity inhibits mGluR-LTD, with overlapping functions for AKT1 and AKT3. In summary, our studies identify distinct expression patterns and roles in synaptic plasticity for AKT isoforms in the hippocampus.

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AKT isoforms have distinct hippocampal expression and roles in synaptic plasticity

Levenga

Wong

Milstead

et al. 2017

Preprint

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13AKT is a kinase that regulates numerous cellular processes in the brain and mutations in AKT 14 are known to affect brain function. AKT is indirectly implicated in synaptic plasticity, but its direct 15 role has not been studied. Moreover, three highly related AKT isoforms are expressed in the 16 brain, but their individual roles are poorly understood. We find that each AKT isoform has a 17 unique expression pattern in the hippocampus, with AKT1 and AKT3 primarily in neurons but 18 displaying local differences, while AKT2 is in astrocytes. We also find isoform-specific roles for 19 AKT in multiple paradigms of hippocampal synaptic plasticity. AKT1, but not AKT2 or AKT3, is 20 required for L-LTP through regulating activity-induced protein synthesis. Interestingly, AKT 21 activity inhibits mGluR-LTD, with overlapping functions for AKT1 and AKT3. In summary, our 22

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Isoform-specific roles for AKT in affective behavior, spatial memory, and extinction related to psychiatric disorders

Wong

Levenga

LaPlante

et al. 2020

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AKT is implicated in neurological disorders. AKT has three isoforms, AKT1/AKT2/AKT3, with brain cell type-specific expression that may differentially influence behavior. Therefore, we examined single Akt isoform, conditional brain-specific Akt1, and double Akt1/3 mutant mice in behaviors relevant to neuropsychiatric disorders. Because sex is a determinant of these disorders but poorly understood, sex was an experimental variable in our design. Our studies revealed AKT isoform- and sex-specific effects on anxiety, spatial and contextual memory, and fear extinction. In Akt1 mutant males, viral-mediated AKT1 restoration in the prefrontal cortex rescued extinction phenotypes. We identified a novel role for AKT2 and overlapping roles for AKT1 and AKT3 in long-term memory. Finally, we found that sex-specific behavior effects were not mediated by AKT expression or activation differences between sexes. These results highlight sex as a biological variable and isoform- or cell type-specific AKT signaling as potential targets for improving treatment of neuropsychiatric disorders.

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Lauren LaPlante

AKT isoforms have distinct hippocampal expression and roles in synaptic plasticity

AKT isoforms have distinct hippocampal expression and roles in synaptic plasticity

Isoform-specific roles for AKT in affective behavior, spatial memory, and extinction related to psychiatric disorders

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