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Association of histone modification with the development of schizophrenia

Yun-zhou Chen, Xiu-mei Zhu, Peng Lv, Xi-kai Hou, Ying Pan, Ang Li, Zhe Du, Jin‐feng Xuan, Xiaochong Guo, Jiaxin Xing, K. D. Liu, Jun Yao

2024Biomedicine & Pharmacotherapy13 citationsDOIOpen Access PDF

Abstract

Schizophrenia, influenced by genetic and environmental factors, may involve epigenetic alterations, notably histone modifications, in its pathogenesis. This review summarizes various histone modifications including acetylation, methylation, phosphorylation, ubiquitination, serotonylation, lactylation, palmitoylation, and dopaminylation, and their implications in schizophrenia. Current research predominantly focuses on histone acetylation and methylation, though other modifications also play significant roles. These modifications are crucial in regulating transcription through chromatin remodeling, which is vital for understanding schizophrenia's development. For instance, histone acetylation enhances transcriptional efficiency by loosening chromatin, while increased histone methyltransferase activity on H3K9 and altered histone phosphorylation, which reduces DNA affinity and destabilizes chromatin structure, are significant markers of schizophrenia.

Topics & Concepts

Histone methylationHistone methyltransferaseChromatin remodelingHistoneHistone codeHistone H2AEpigeneticsAcetylationEpigenomicsBiologyChromatinCell biologyGeneticsDNA methylationNucleosomeDNAGeneGene expressionEpigenetics and DNA MethylationGenetics and Neurodevelopmental DisordersHIV Research and Treatment