2018
DOI: 10.1101/lm.047753.118
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Developmental changes in plasticity, synaptic, glia, and connectivity protein levels in rat medial prefrontal cortex

Abstract: The medial prefrontal cortex (mPFC) plays a critical role in complex brain functions including decision-making, integration of emotional, and cognitive aspects in memory processing and memory consolidation. Because relatively little is known about the molecular mechanisms underlying its development, we quantified rat mPFC basal expression levels of sets of plasticity, synaptic, glia, and connectivity proteins at different developmental ages. Specifically, we compared the mPFC of rats at postnatal day 17 (PN17)… Show more

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Cited by 13 publications
(16 citation statements)
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References 109 publications
(121 reference statements)
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“…Because mTOR and MAP2 levels may reflect neuron-specific cytoskeletal changes in dendrites, these data lead us to speculate that developmental regulation of dendritic structures follows distinct developmental kinetics in different brain regions. Also, the increase in the PSD95 level in the BLA followed the same kinetic as that observed in the mPFC (Jia et al 2018): a significant increase between PN17 and PN24 and a plateau between PN24 and adulthood. However, this kinetic differs from those observed previously in the dHC (Travaglia et al 2016a), which exhibited an elevation of PSD95 between PN24 and adulthood ( Fig.…”
Section: Discussionsupporting
confidence: 67%
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“…Because mTOR and MAP2 levels may reflect neuron-specific cytoskeletal changes in dendrites, these data lead us to speculate that developmental regulation of dendritic structures follows distinct developmental kinetics in different brain regions. Also, the increase in the PSD95 level in the BLA followed the same kinetic as that observed in the mPFC (Jia et al 2018): a significant increase between PN17 and PN24 and a plateau between PN24 and adulthood. However, this kinetic differs from those observed previously in the dHC (Travaglia et al 2016a), which exhibited an elevation of PSD95 between PN24 and adulthood ( Fig.…”
Section: Discussionsupporting
confidence: 67%
“…The increase in GluN2A/GluN2B ratio over development has been well established in other areas of the postnatal rat brain, including the cortices (Sheng et al 1994;Yashiro and Philpot 2008;Paoletti et al 2013), hippocampus (Travaglia et al 2016a), and mPFC (Jia et al 2018). This switch in NMDAR composition occurs throughout the CNS; is evolutionarily conserved from amphibians to mammals, significantly influences the functional properties of the synapses; and occurs during a time window that coincides with synapse maturation, circuit refinement, and acquisition of learning abilities (Sheng et al 1994;Flint et al 1997;Dumas 2005;Paoletti et al 2013).…”
Section: Resultsmentioning
confidence: 92%
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