The epigenetic reader PHF21B modulates murine social memory and synaptic plasticity–related genes

Synaptic dysfunction is a manifestation of several neurobehavioral and neurological disorders. A major therapeutic challenge lies in uncovering the upstream regulatory factors controlling synaptic processes. Plant homeodomain (PHD) finger proteins are epigenetic readers whose dysfunctions are implic...

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Autores principales: Chin, Eunice W.M., Ma, Qi, Ruan, Hongyu, Chin, Camille, Somasundaram, Aditya, Zhang, Chunling, Liu, Chunyu, Lewis, Martin D., White, Melissa, Smith, Tracey L., Battersby, Malcolm, Yao, Wei-Dong, Lu, Xin-Yun, Arap, Wadih, Licinio, Julio, Wong, Ma-Li
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Clinical Investigation 2022
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9431697/
https://www.ncbi.nlm.nih.gov/pubmed/35866480
http://dx.doi.org/10.1172/jci.insight.158081
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author Chin, Eunice W.M.
Ma, Qi
Ruan, Hongyu
Chin, Camille
Somasundaram, Aditya
Zhang, Chunling
Liu, Chunyu
Lewis, Martin D.
White, Melissa
Smith, Tracey L.
Battersby, Malcolm
Yao, Wei-Dong
Lu, Xin-Yun
Arap, Wadih
Licinio, Julio
Wong, Ma-Li
author_facet Chin, Eunice W.M.
Ma, Qi
Ruan, Hongyu
Chin, Camille
Somasundaram, Aditya
Zhang, Chunling
Liu, Chunyu
Lewis, Martin D.
White, Melissa
Smith, Tracey L.
Battersby, Malcolm
Yao, Wei-Dong
Lu, Xin-Yun
Arap, Wadih
Licinio, Julio
Wong, Ma-Li
author_sort Chin, Eunice W.M.
collection PubMed
description Synaptic dysfunction is a manifestation of several neurobehavioral and neurological disorders. A major therapeutic challenge lies in uncovering the upstream regulatory factors controlling synaptic processes. Plant homeodomain (PHD) finger proteins are epigenetic readers whose dysfunctions are implicated in neurological disorders. However, the molecular mechanisms linking PHD protein deficits to disease remain unclear. Here, we generated a PHD finger protein 21B–depleted (Phf21b-depleted) mutant CRISPR mouse model (hereafter called Phf21b(Δ4/Δ4)) to examine Phf21b’s roles in the brain. Phf21b(Δ4/Δ4) animals exhibited impaired social memory. In addition, reduced expression of synaptic proteins and impaired long-term potentiation were observed in the Phf21b(Δ4/Δ4) hippocampi. Transcriptome profiling revealed differential expression of genes involved in synaptic plasticity processes. Furthermore, we characterized a potentially novel interaction of PHF21B with histone H3 trimethylated lysine 36 (H3K36me3), a histone modification associated with transcriptional activation, and the transcriptional factor CREB. These results establish PHF21B as an important upstream regulator of synaptic plasticity–related genes and a candidate therapeutic target for neurobehavioral dysfunction in mice, with potential applications in human neurological and psychiatric disorders.
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spelling pubmed-94316972022-09-02 The epigenetic reader PHF21B modulates murine social memory and synaptic plasticity–related genes Chin, Eunice W.M. Ma, Qi Ruan, Hongyu Chin, Camille Somasundaram, Aditya Zhang, Chunling Liu, Chunyu Lewis, Martin D. White, Melissa Smith, Tracey L. Battersby, Malcolm Yao, Wei-Dong Lu, Xin-Yun Arap, Wadih Licinio, Julio Wong, Ma-Li JCI Insight Research Article Synaptic dysfunction is a manifestation of several neurobehavioral and neurological disorders. A major therapeutic challenge lies in uncovering the upstream regulatory factors controlling synaptic processes. Plant homeodomain (PHD) finger proteins are epigenetic readers whose dysfunctions are implicated in neurological disorders. However, the molecular mechanisms linking PHD protein deficits to disease remain unclear. Here, we generated a PHD finger protein 21B–depleted (Phf21b-depleted) mutant CRISPR mouse model (hereafter called Phf21b(Δ4/Δ4)) to examine Phf21b’s roles in the brain. Phf21b(Δ4/Δ4) animals exhibited impaired social memory. In addition, reduced expression of synaptic proteins and impaired long-term potentiation were observed in the Phf21b(Δ4/Δ4) hippocampi. Transcriptome profiling revealed differential expression of genes involved in synaptic plasticity processes. Furthermore, we characterized a potentially novel interaction of PHF21B with histone H3 trimethylated lysine 36 (H3K36me3), a histone modification associated with transcriptional activation, and the transcriptional factor CREB. These results establish PHF21B as an important upstream regulator of synaptic plasticity–related genes and a candidate therapeutic target for neurobehavioral dysfunction in mice, with potential applications in human neurological and psychiatric disorders. American Society for Clinical Investigation 2022-07-22 /pmc/articles/PMC9431697/ /pubmed/35866480 http://dx.doi.org/10.1172/jci.insight.158081 Text en © 2022 Chin et al. https://creativecommons.org/licenses/by/4.0/This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Chin, Eunice W.M.
Ma, Qi
Ruan, Hongyu
Chin, Camille
Somasundaram, Aditya
Zhang, Chunling
Liu, Chunyu
Lewis, Martin D.
White, Melissa
Smith, Tracey L.
Battersby, Malcolm
Yao, Wei-Dong
Lu, Xin-Yun
Arap, Wadih
Licinio, Julio
Wong, Ma-Li
The epigenetic reader PHF21B modulates murine social memory and synaptic plasticity–related genes
title The epigenetic reader PHF21B modulates murine social memory and synaptic plasticity–related genes
title_full The epigenetic reader PHF21B modulates murine social memory and synaptic plasticity–related genes
title_fullStr The epigenetic reader PHF21B modulates murine social memory and synaptic plasticity–related genes
title_full_unstemmed The epigenetic reader PHF21B modulates murine social memory and synaptic plasticity–related genes
title_short The epigenetic reader PHF21B modulates murine social memory and synaptic plasticity–related genes
title_sort epigenetic reader phf21b modulates murine social memory and synaptic plasticity–related genes
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9431697/
https://www.ncbi.nlm.nih.gov/pubmed/35866480
http://dx.doi.org/10.1172/jci.insight.158081
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