"The ubiquitin ligase SIAH2 is a female-specific regulator of circadian rhythms and metabolism"

Circadian clocks enable organisms to predict and align their behaviors and physiologies to constant daily day-night environmental cycle. Because the ubiquitin ligase Siah2 has been identified as a potential regulator of circadian clock function in cultured cells, we have used SIAH2-deficient mice to...

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Veröffentlicht in:PLoS genetics 2022-07, Vol.18 (7), p.e1010305
Hauptverfasser: Mekbib, Tsedey, Suen, Ting-Chung, Rollins-Hairston, Aisha, Smith, Kiandra, Armstrong, Ariel, Gray, Cloe, Owino, Sharon, Baba, Kenkichi, Baggs, Julie E, Ehlen, J Christopher, Tosini, Gianluca, DeBruyne, Jason P
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Sprache:eng
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Zusammenfassung:Circadian clocks enable organisms to predict and align their behaviors and physiologies to constant daily day-night environmental cycle. Because the ubiquitin ligase Siah2 has been identified as a potential regulator of circadian clock function in cultured cells, we have used SIAH2-deficient mice to examine its function in vivo. Our experiments demonstrate a striking and unexpected sexually dimorphic effect of SIAH2-deficiency on the regulation of rhythmically expressed genes in the liver. The absence of SIAH2 in females, but not in males, altered the expression of core circadian clock genes and drastically remodeled the rhythmic transcriptome in the liver by increasing the number of day-time expressed genes, and flipping the rhythmic expression from nighttime expressed genes to the daytime. These effects are not readily explained by effects on known sexually dimorphic pathways in females. Moreover, loss of SIAH2 in females, not males, preferentially altered the expression of transcription factors and genes involved in regulating lipid and lipoprotein metabolism. Consequently, SIAH2-deficient females, but not males, displayed disrupted daily lipid and lipoprotein patterns, increased adiposity and impaired metabolic homeostasis. Overall, these data suggest that SIAH2 may be a key component of a female-specific circadian transcriptional output circuit that directs the circadian timing of gene expression to regulate physiological rhythms, at least in the liver. In turn, our findings imply that sex-specific transcriptional mechanisms may closely interact with the circadian clock to tailor overt rhythms for sex-specific needs.
ISSN:1553-7404
1553-7390
1553-7404
DOI:10.1371/journal.pgen.1010305