Abstract
Circadian genes control most of the physiological functions in cancer cells, including cell proliferation, migration, and invasion. The CLOCK and BMAL1 complex plays a central role in circadian rhythms. Previous studies have shown that circadian genes may act as oncogenes or tumor-suppressor genes. In addition, F-actin, regulated by RHOA, has been shown to participate in tumor progression. However, the roles of the CLOCK and BMAL1 genes in the regulation of tumor progression via the RHOA-ROCK-CFL pathway remain largely unclear. Here we first indicate that the rearrangement of F-actin is regulated by CLOCK and BMAL1. We found that CLOCK and BMAL1 can upregulate RHOA expression by inhibiting CUL3-mediated ubiquitination and activate RHOA by reducing the interaction between RHOA and RhoGDI. Consequently, CLOCK and BMAL1 control the expression of the components of the RHOA-ROCK-CFL pathway, which alters the dynamics of F-actin/G-actin turnover and promotes cancer cell proliferation, migration, and invasion. In conclusion, our research proposes a novel insight into the role of CLOCK and BMAL1 in tumor cells.
Highlights
The circadian rhythm, a ubiquitous mechanism, enables organisms to maintain temporal coordination between endogenous biological processes and the ambient environment[1]
CLOCK and BMAL1 control the expression of the components of the RHOA-ROCK-CFL pathway, which alters the dynamics of F-actin/G-actin turnover and promotes cancer cell proliferation, migration, and invasion
We demonstrate for the first time that CLOCK and BMAL1 promote cytoskeletal F-actin filament formation by regulating the RHOA-ROCK-CFL pathway, revealing a novel mechanism of circadian genes in tumor cells
Summary
The circadian rhythm, a ubiquitous mechanism, enables organisms to maintain temporal coordination between endogenous biological processes and the ambient environment[1]. Circadian clocks display oscillations with a periodicity of almost 24 h that matches the day–night cycle and can be found in most bodily tissues. These clocks control a wide variety of biological processes in organisms, including two hallmarks of cancer: cell division and metabolism[2]. Research has shown that the disruption of circadian timekeeping is associated with uncontrolled cell growth and cancer[3,4]. Circadian genes have been shown to interact with oncogenes and tumor-suppressor genes in tumorigenesis[5].
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