@article{ART002397276,
author={Teng-jiao Ma and Zhi-wei Zhang and Yilu Lu and Ying-ying Zhang and Da-chang Tao and Yun-qiang Liu and Yong-xin Ma},
title={CLOCK and BMAL1 stabilize and activate RHOA to promote F-actin formation in cancer cells},
journal={Experimental and Molecular Medicine},
issn={1226-3613},
year={2018},
volume={50},
pages={1-15}
}

TY - JOUR
AU - Teng-jiao Ma
AU - Zhi-wei Zhang
AU - Yilu Lu
AU - Ying-ying Zhang
AU - Da-chang Tao
AU - Yun-qiang Liu
AU - Yong-xin Ma
TI - CLOCK and BMAL1 stabilize and activate RHOA to promote F-actin formation in cancer cells
T2 - Experimental and Molecular Medicine
JO - Experimental and Molecular Medicine
PY - 2018
VL - 50
IS - null
PB - 생화학분자생물학회
SP - 1
EP - 15
SN - 1226-3613
AB - 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,
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Teng-jiao Ma, Zhi-wei Zhang, Yilu Lu, Ying-ying Zhang, Da-chang Tao, Yun-qiang Liu and Yong-xin Ma. 2018, "CLOCK and BMAL1 stabilize and activate RHOA to promote F-actin formation in cancer cells", Experimental and Molecular Medicine, vol.50, pp.1-15.

Teng-jiao Ma, Zhi-wei Zhang, Yilu Lu, Ying-ying Zhang, Da-chang Tao, Yun-qiang Liu, Yong-xin Ma "CLOCK and BMAL1 stabilize and activate RHOA to promote F-actin formation in cancer cells" Experimental and Molecular Medicine 50 pp.1-15 (2018) : 1.

Teng-jiao Ma, Zhi-wei Zhang, Yilu Lu, Ying-ying Zhang, Da-chang Tao, Yun-qiang Liu, Yong-xin Ma. CLOCK and BMAL1 stabilize and activate RHOA to promote F-actin formation in cancer cells. 2018; 50 1-15.

Teng-jiao Ma, Zhi-wei Zhang, Yilu Lu, Ying-ying Zhang, Da-chang Tao, Yun-qiang Liu and Yong-xin Ma. "CLOCK and BMAL1 stabilize and activate RHOA to promote F-actin formation in cancer cells" Experimental and Molecular Medicine 50(2018) : 1-15.

Teng-jiao Ma; Zhi-wei Zhang; Yilu Lu; Ying-ying Zhang; Da-chang Tao; Yun-qiang Liu; Yong-xin Ma. CLOCK and BMAL1 stabilize and activate RHOA to promote F-actin formation in cancer cells. Experimental and Molecular Medicine, 50, 1-15.

Teng-jiao Ma; Zhi-wei Zhang; Yilu Lu; Ying-ying Zhang; Da-chang Tao; Yun-qiang Liu; Yong-xin Ma. CLOCK and BMAL1 stabilize and activate RHOA to promote F-actin formation in cancer cells. Experimental and Molecular Medicine. 2018; 50 1-15.

Teng-jiao Ma, Zhi-wei Zhang, Yilu Lu, Ying-ying Zhang, Da-chang Tao, Yun-qiang Liu, Yong-xin Ma. CLOCK and BMAL1 stabilize and activate RHOA to promote F-actin formation in cancer cells. 2018; 50 1-15.

Teng-jiao Ma, Zhi-wei Zhang, Yilu Lu, Ying-ying Zhang, Da-chang Tao, Yun-qiang Liu and Yong-xin Ma. "CLOCK and BMAL1 stabilize and activate RHOA to promote F-actin formation in cancer cells" Experimental and Molecular Medicine 50(2018) : 1-15.