Linshan Hu scite author profile

Linshan Hu

3Publications

89Citation Statements Received

170Citation Statements Given

How they've been cited

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131

159

Affiliations

Center for Cancer Research, Sichuan University, National Cancer Institute

Publications

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ΔNp63α is a common inhibitory target in oncogenic PI3K/Ras/Her2-induced cell motility and tumor metastasis

Liang

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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Activation of phosphatidylinositol 3 kinase (PI3K), Ras, and Her2 signaling plays a critical role in cancer development. Hotspot constitutive activating mutations in oncogenes, such as PIK3CA encoding the p110α catalytic subunit or RAS, as well as overexpression of Her2, are frequently found in human tumors and cancers. It has been well established that activation of these oncogenes profoundly promotes tumor metastasis, whereas decreased expression of ΔNp63α, the major protein isoform of the p53-related p63 expressed in epithelial cells, has been associated with cancer metastasis. In this study, we demonstrate that hotspot oncogenic mutations on PIK3CA and RAS, including p110α H1047R , K-Ras G12V , and H-Ras G12V , as well as activation of Her2, all led to suppression of ΔNp63α expression via Akt-fork-head transcription factor 3a (Akt-FOXO3a) signaling, resulting in increased cell motility and tumor metastasis. Expression of ΔNp63α effectively reversed p110α H1047R -, K-Ras G12V -, H-Ras G12V -, or Her2-induced cell motility in vitro and tumor metastasis in mouse models. We show that ΔNp63α was a direct FOXO3a transcriptional target and that expression of FOXO3a and ΔNp63α was correlated in human cancer biopsy samples. Together, these results demonstrate that ΔNp63α is a common inhibitory target of oncogenic PI3K, Ras, and Her2, and that ΔNp63α may function as a critical integrator of oncogenic signaling in cancer metastasis.PIK3CA | Ras | Her2 | ΔNp63α | cancer metastasis

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MDM2/MDMX: Master negative regulators for p53 and RB

Zhang

Bergholz

et al. 2016

Molecular & Cellular Oncology

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3’UTR-directed, kinase proximal mRNA decay inhibits C/EBPβ phosphorylation/activation to suppress senescence in tumor cells

Salotti

Karim

Misra

et al. 2022

Preprint

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C/EBPβ is a potent regulator of RAS-induced senescence (RIS) and the SASP. C/EBPβ is post-translationally activated in RIS cells by the effector kinases ERK1/2 and CK2, but in tumor cells activation is suppressed by the CEBPB 3'UTR. 3'UTR regulation of protein activity (UPA) requires a G/U-rich element (GRE) and its cognate binding protein, HuR. These components segregate CEBPB transcripts away from a perinuclear compartment harboring ERK1/2 and CK2, restricting C/EBPβ from its activating kinases. We report here that the mRNA decay proteins UPF1 and Staufen1/2 are essential UPA factors enriched within the perinuclear cytoplasm. STAU1/2 colocalize with CK2 on perinuclear signaling endosomes where they promote localized CEBPB mRNA decay. UPF1 or STAU1/2 depletion in tumor cells increased CEBPB transcripts adjacent to CK2 foci, coinciding with C/EBPβ activation and senescence. The GRE and an adjacent STAU binding site act to suppress C/EBPβ-mediated senescence, while a separate 3'UTR region inhibits SASP induction. Accordingly, KrasG12D-driven lung tumors in mice carrying a Cebpb GRE deletion rarely progressed to malignant adenocarcinomas. Our findings identify kinase-proximal mRNA decay as a novel mechanism to inhibit C/EBPβ activating modifications in tumor cells to facilitate senescence bypass.

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Linshan Hu

ΔNp63α is a common inhibitory target in oncogenic PI3K/Ras/Her2-induced cell motility and tumor metastasis

MDM2/MDMX: Master negative regulators for p53 and RB

3’UTR-directed, kinase proximal mRNA decay inhibits C/EBPβ phosphorylation/activation to suppress senescence in tumor cells

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