AI Article Synopsis
- Impairment of the circadian clock is linked to cancer development, especially in hepatocellular carcinoma (HCC) cells.
- Receptor tyrosine kinase activation leads to the phosphorylation of CLOCK at S106, which disrupts its dimerization with BMAL1, reducing gene expression related to the circadian rhythm.
- This phosphorylation also allows CLOCK to be exported from the nucleus, where it then stabilizes proteins PRPS1/2, enhancing nucleotide synthesis and supporting HCC growth, which correlates with poor patient prognosis.
Article Abstract
Impairment of the circadian clock is linked to cancer development. However, whether the circadian clock is modulated by oncogenic receptor tyrosine kinases remains unclear. Here we demonstrated that receptor tyrosine kinase activation promotes CK2-mediated CLOCK S106 phosphorylation and subsequent disassembly of the CLOCK-BMAL1 dimer and suppression of the downstream gene expression in hepatocellular carcinoma (HCC) cells. In addition, CLOCK S106 phosphorylation exposes its nuclear export signal to bind Exportin1 for nuclear exportation. Cytosolic CLOCK acetylates PRPS1/2 K29 and blocks HSC70-mediated and lysosome-dependent PRPS1/2 degradation. Stabilized PRPS1/2 promote de novo nucleotide synthesis and HCC cell proliferation and liver tumour growth. Furthermore, CLOCK S106 phosphorylation and PRPS1/2 K29 acetylation are positively correlated in human HCC specimens and with HCC poor prognosis. These findings delineate a critical mechanism by which oncogenic signalling inhibits canonical CLOCK transcriptional activity and simultaneously confers CLOCK with instrumental moonlighting functions to promote nucleotide synthesis and tumour growth.
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| http://dx.doi.org/10.1038/s41556-022-01061-0 | DOI Listing |
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