Zenghua Fan scite author profile

Mammalian circadian rhythm is established by the negative feedback loops consisting of a set of clock genes, which lead to the circadian expression of thousands of downstream genes in vivo. As genome-wide transcription is organized under the high-order chromosome structure, it is largely uncharted how circadian gene expression is influenced by chromosome architecture. We focus on the function of chromatin structure proteins cohesin as well as CTCF (CCCTC-binding factor) in circadian rhythm. Using circular chromosome conformation capture sequencing, we systematically examined the interacting loci of a Bmal1-bound super-enhancer upstream of a clock gene Nr1d1 in mouse liver. These interactions are largely stable in the circadian cycle and cohesin binding sites are enriched in the interactome. Global analysis showed that cohesin-CTCF co-binding sites tend to insulate the phases of circadian oscillating genes while cohesin-non-CTCF sites are associated with high circadian rhythmicity of transcription. A model integrating the effects of cohesin and CTCF markedly improved the mechanistic understanding of circadian gene expression. Further experiments in cohesin knockout cells demonstrated that cohesin is required at least in part for driving the circadian gene expression by facilitating the enhancer-promoter looping. This study provided a novel insight into the relationship between circadian transcriptome and the high-order chromosome structure.

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Mutant neuropeptide S receptor reduces sleep duration with preserved memory consolidation

Xing

Shi

Mostovoy

et al. 2019

Sci. Transl. Med.

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authors contributed equally to this work.One-sentence summaries: A human Neuropeptide S Receptor 1 (NPSR1) mutation found in natural short sleepers renders mutant mice to be short sleepers with more resilience to memory deficits caused by sleep deprivation.Abstract: Sleep is a crucial physiological process for our survival and cognitive performance, yet the factors controlling human sleep regulation remain poorly understood. Here we identified a missense mutation in a G-protein coupled Neuropeptide S Receptor 1 (NPSR1) that is associated with a natural short sleep phenotype in humans. Mice carrying the homologous mutation exhibit less sleep time despite increased sleep pressure. They are also resistant to contextual memory deficits associated with sleep deprivation. In vivo, the mutant receptors are more sensitive to Neuropeptide S ligand treatment. These results highlight an important role for the NPS/NPSR1 pathway in human sleep duration regulation and in the connection between sleep homeostasis and memory consolidation.

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A class of circadian long non-coding RNAs mark enhancers modulating long-range circadian gene regulation

Fan

Zhao

Joshi

et al. 2017

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Circadian rhythm exerts its influence on animal physiology and behavior by regulating gene expression at various levels. Here we systematically explored circadian long non-coding RNAs (lncRNAs) in mouse liver and examined their circadian regulation. We found that a significant proportion of circadian lncRNAs are expressed at enhancer regions, mostly bound by two key circadian transcription factors, BMAL1 and REV-ERBα. These circadian lncRNAs showed similar circadian phases with their nearby genes. The extent of their nuclear localization is higher than protein coding genes but less than enhancer RNAs. The association between enhancer and circadian lncRNAs is also observed in tissues other than liver. Comparative analysis between mouse and rat circadian liver transcriptomes showed that circadian transcription at lncRNA loci tends to be conserved despite of low sequence conservation of lncRNAs. One such circadian lncRNA termed lnc-Crot led us to identify a super-enhancer region interacting with a cluster of genes involved in circadian regulation of metabolism through long-range interactions. Further experiments showed that lnc-Crot locus has enhancer function independent of lnc-Crot's transcription. Our results suggest that the enhancer-associated circadian lncRNAs mark the genomic loci modulating long-range circadian gene regulation and shed new lights on the evolutionary origin of lncRNAs.

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Zenghua Fan

Long-Range Chromosome Interactions Mediated by Cohesin Shape Circadian Gene Expression

Mutant neuropeptide S receptor reduces sleep duration with preserved memory consolidation

A class of circadian long non-coding RNAs mark enhancers modulating long-range circadian gene regulation

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