Your search keyword '"Rauch, Simone"' showing total 2 results

1. Synapse-Enriched m6A-Modified Malat1 Interacts with the Novel m6A Reader, DPYSL2, and Is Required for Fear-Extinction Memory.

Author

Madugalle, Sachithrani, Madugalle, Sachithrani, Liau, Wei-Siang, Zhao, Qiongyi, Li, Xiang, Gong, Hao, Marshall, Paul, Periyakaruppiah, Ambika, Zajaczkowski, Esmi, Leighton, Laura, Ren, Haobin, Musgrove, Mason, Davies, Joshua, Kim, Gwangmin, Rauch, Simone, He, Chuan, Dickinson, Bryan, Fulopova, Barbora, Fletcher, Lee, Williams, Stephen, Bredy, Timothy, Spitale, Robert, Madugalle, Sachithrani, Madugalle, Sachithrani, Liau, Wei-Siang, Zhao, Qiongyi, Li, Xiang, Gong, Hao, Marshall, Paul, Periyakaruppiah, Ambika, Zajaczkowski, Esmi, Leighton, Laura, Ren, Haobin, Musgrove, Mason, Davies, Joshua, Kim, Gwangmin, Rauch, Simone, He, Chuan, Dickinson, Bryan, Fulopova, Barbora, Fletcher, Lee, Williams, Stephen, Bredy, Timothy, and Spitale, Robert

Abstract

The RNA modification N6-methyladenosine (m6A) regulates the interaction between RNA and various RNA binding proteins within the nucleus and other subcellular compartments and has recently been shown to be involved in experience-dependent plasticity, learning, and memory. Using m6A RNA-sequencing, we have discovered a distinct population of learning-related m6A- modified RNAs at the synapse, which includes the long noncoding RNA metastasis-associated lung adenocarcinoma transcript 1 (Malat1). RNA immunoprecipitation and mass spectrometry revealed 12 new synapse-specific learning-induced m6A readers in the mPFC of male C57/BL6 mice, with m6A-modified Malat1 binding to a subset of these, including CYFIP2 and DPYSL2. In addition, a cell type- and synapse-specific, and state-dependent, reduction of m6A on Malat1 impairs fear-extinction memory; an effect that likely occurs through a disruption in the interaction between Malat1 and DPYSL2 and an associated decrease in dendritic spine formation. These findings highlight the critical role of m6A in regulating the functional state of RNA during the consolidation of fear-extinction memory, and expand the repertoire of experience-dependent m6A readers in the synaptic compartment.SIGNIFICANCE STATEMENT We have discovered that learning-induced m6A-modified RNA (including the long noncoding RNA, Malat1) accumulates in the synaptic compartment. We have identified several new m6A readers that are associated with fear extinction learning and demonstrate a causal relationship between m6A-modified Malat1 and the formation of fear-extinction memory. These findings highlight the role of m6A in regulating the functional state of an RNA during memory formation and expand the repertoire of experience-dependent m6A readers in the synaptic compartment.

Published

2023

2. Fear extinction is regulated by the activity of long noncoding RNAs at the synapse.

Author

Liau, Wei-Siang, Liau, Wei-Siang, Zhao, Qiongyi, Bademosi, Adekunle, Gormal, Rachel, Gong, Hao, Marshall, Paul, Periyakaruppiah, Ambika, Madugalle, Sachithrani, Zajaczkowski, Esmi, Leighton, Laura, Ren, Haobin, Musgrove, Mason, Davies, Joshua, Rauch, Simone, He, Chuan, Dickinson, Bryan, Li, Xiang, Wei, Wei, Meunier, Frédéric, Fernández-Moya, Sandra, Kiebler, Michael, Srinivasan, Balakumar, Banerjee, Sourav, Clark, Michael, Bredy, Timothy, Spitale, Robert, Liau, Wei-Siang, Liau, Wei-Siang, Zhao, Qiongyi, Bademosi, Adekunle, Gormal, Rachel, Gong, Hao, Marshall, Paul, Periyakaruppiah, Ambika, Madugalle, Sachithrani, Zajaczkowski, Esmi, Leighton, Laura, Ren, Haobin, Musgrove, Mason, Davies, Joshua, Rauch, Simone, He, Chuan, Dickinson, Bryan, Li, Xiang, Wei, Wei, Meunier, Frédéric, Fernández-Moya, Sandra, Kiebler, Michael, Srinivasan, Balakumar, Banerjee, Sourav, Clark, Michael, Bredy, Timothy, and Spitale, Robert

Abstract

Long noncoding RNAs (lncRNAs) represent a multidimensional class of regulatory molecules that are involved in many aspects of brain function. Emerging evidence indicates that lncRNAs are localized to the synapse; however, a direct role for their activity in this subcellular compartment in memory formation has yet to be demonstrated. Using lncRNA capture-seq, we identified a specific set of lncRNAs that accumulate in the synaptic compartment within the infralimbic prefrontal cortex of adult male C57/Bl6 mice. Among these was a splice variant related to the stress-associated lncRNA, Gas5. RNA immunoprecipitation followed by mass spectrometry and single-molecule imaging revealed that this Gas5 isoform, in association with the RNA binding proteins G3BP2 and CAPRIN1, regulates the activity-dependent trafficking and clustering of RNA granules. In addition, we found that cell-type-specific, activity-dependent, and synapse-specific knockdown of the Gas5 variant led to impaired fear extinction memory. These findings identify a new mechanism of fear extinction that involves the dynamic interaction between local lncRNA activity and RNA condensates in the synaptic compartment.

Published

2023