Bo Yuan Hsiao scite author profile

Bo Yuan Hsiao

2Publications

40Citation Statements Received

24Citation Statements Given

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Affiliations

Institute of Molecular Biology, Academia Sinica

Publications

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Rad is a p53 direct transcriptional target that inhibits cell migration and is frequently silenced in lung carcinoma cells

et al. 2011

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The p53 tumor suppressor exerts its function mainly as a transcriptional activator. Here we show that the Ras-related small GTPase Rad, an inhibitor of Rho kinase, is a direct transcriptional target of p53. Expression of Rad messenger RNA (mRNA) and protein was induced by DNA damage in a p53-dependent manner. The -2934/-2905-bp Rad promoter region, to which p53 bound, was required for p53-mediated Rad gene activation. Treatment by DNA damaging agents increased p53 occupancy and histone acetylation in the region of Rad promoter containing the p53-binding site. Expression of Rad diminished the inhibitory phosphorylation at Ser3 of cofilin, a regulator of actin dynamics, and suppressed migration and invasiveness of cancer cells. Knockdown of Rad promoted cell migration and alleviated the p53-mediated migration suppression. Frequent loss of Rad mRNA and protein expression was observed in non-small cell lung carcinoma tissues. Together our results reveal a mechanism that p53 may inhibit cell migration by disrupting actin dynamics via Rad activation and implicate a tumor suppressor role of Rad in lung cancer.

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Human Costars Family Protein ABRACL Modulates Actin Dynamics and Cell Migration and Associates with Tumorigenic Growth

Hsiao¹,

Chen²,

Yi³

et al. 2021

IJMS

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Regulation of cellular actin dynamics is pivotal in driving cell motility. During cancer development, cells migrate to invade and spread; therefore, dysregulation of actin regulators is often associated with cancer progression. Here we report the role of ABRACL, a human homolog of the Dictyostelium actin regulator Costars, in migration and tumorigenic growth of cancer cells. We found a correlation between ABRACL expression and the migratory ability of cancer cells. Cell staining revealed the colocalization of ABRACL and F-actin signals at the leading edge of migrating cells. Analysis of the relative F-/G-actin contents in cells lacking or overexpressing ABRACL suggested that ABRACL promotes cellular actin distribution to the polymerized fraction. Physical interaction between ABRACL and cofilin was supported by immunofluorescence staining and proximity ligation. Additionally, ABRACL hindered cofilin-simulated pyrene F-actin fluorescence decay in vitro, indicating a functional interplay. Lastly, analysis on a colorectal cancer cohort demonstrated that high ABRACL expression was associated with distant metastasis, and further exploration showed that depletion of ABRACL expression in colon cancer cells resulted in reduced cell proliferation and tumorigenic growth. Together, results suggest that ABRACL modulates actin dynamics through its interaction with cofilin and thereby regulates cancer cell migration and participates in cancer pathogenesis.

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Bo Yuan Hsiao

Rad is a p53 direct transcriptional target that inhibits cell migration and is frequently silenced in lung carcinoma cells

Human Costars Family Protein ABRACL Modulates Actin Dynamics and Cell Migration and Associates with Tumorigenic Growth

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