Yong-Seok Lee scite author profile

The RAS signaling pathway is involved in the regulation of developmental processes, including cell growth, proliferation, and differentiation, in the central nervous system (CNS). Germline mutations in the RAS signaling pathway genes are associated with a group of neurodevelopmental disorders, collectively called RASopathy, which includes neurofibromatosis type 1, Noonan syndrome, cardio-facio-cutaneous syndrome, and Costello syndrome. Most mutations associated with RASopathies increase the activity of the RAS-ERK signaling pathway, and therefore, most individuals with RASopathies share common phenotypes, such as a short stature, heart defects, facial abnormalities, and cognitive impairments, which are often accompanied by abnormal CNS development. Recent studies using mouse models of RASopathies demonstrated that particular mutations associated with each disorder disrupt CNS development in a mutation-specific manner. Here, we reviewed the recent literatures that investigated the developmental role of RASopathy-associated mutations using mutant mice, which provided insights into the specific contribution of RAS-ERK signaling molecules to CNS development and the subsequent impact on cognitive function in adult mice.

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Ablation of STAT3 in Purkinje cells reorganizes cerebellar synaptic plasticity in long-term fear memory network

Han

Kwon

Kim

et al. 2021

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Emotional memory processing engages a large neuronal network of brain regions including the cerebellum. However, the molecular and cellular mechanisms of the cerebellar cortex modulating the fear memory network are unclear. Here, we illustrate that synaptic signaling in cerebellar Purkinje cells (PCs) via STAT3 regulates long-term fear memory. Transcriptome analyses revealed that PC-specific STAT3 knockout (STAT3PKO) results in transcriptional changes that lead to an increase in the expression of glutamate receptors. The amplitude of AMPA receptor-mediated excitatory postsynaptic currents at parallel fiber (PF) to PC synapses was larger in STAT3PKO mice than in wild-type (WT) littermates. Fear conditioning induced long-term depression of PF–PC synapses in STAT3PKO mice while the same manipulation induced long-term potentiation in WT littermates. STAT3PKO mice showed an aberrantly enhanced long-term fear memory. Neuronal activity in fear-related regions increased in fear-conditioned STAT3PKO mice. Our data suggest that STAT3-dependent molecular regulation in PCs is indispensable for proper expression of fear memory.

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Social isolation impairs the prefrontal-nucleus accumbens circuit subserving social recognition in mice

Park

Ryu

Kim

et al. 2020

Preprint

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The medial prefrontal cortex (mPFC) plays important roles in social behaviors, but it is not clear how early social experiences affect the mPFC and its subcortical circuit. We report that mice singly housed for 8 weeks immediately after weaning (SH mice) show a deficit in social recognition, even after 4 weeks of re-socialization. In SH mice, prefrontal infralimbic (IL) neurons projecting to the shell region of nucleus accumbens (NAcSh) showed decreased excitability compared to normally group housed (GH) mice. Furthermore, NAcSh-projecting IL neurons were activated when the mice encountered a familiar conspecific, which was not shown in SH mice. Chemogenetic inhibition of NAcSh-projecting IL neurons in normal mice selectively impaired social recognition without affecting social interaction, whereas activation of these neurons reversed social recognition deficit in SH mice. Therefore, mPFC IL-NAcSh projection is a novel brain circuit affected by early social experience; its activation is required for the social recognition.

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Yong-Seok Lee

Social isolation impairs the prefrontal-nucleus accumbens circuit subserving social recognition in mice

The impact of RASopathy-associated mutations on CNS development in mice and humans

Ablation of STAT3 in Purkinje cells reorganizes cerebellar synaptic plasticity in long-term fear memory network

Social isolation impairs the prefrontal-nucleus accumbens circuit subserving social recognition in mice

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