Zhi Ren Liu scite author profile

The nuclear p68 RNA helicase (referred to as p68) is a prototypical member of the DEAD box family of RNA helicases. The protein plays a very important role in early organ development. In the present study, we characterized the tyrosine phosphorylation of p68 under platelet-derived growth factor (PDGF) stimulation. We demonstrated that tyrosine phosphorylation of p68 at Y593 mediated PDGF-stimulated epithelial-mesenchymal transition (EMT). We showed that PDGF treatment led to phosphorylation of p68 at Y593 in the cell nucleus. The Y593-phosphorylated p68 (referred to as phosphor-p68) promotes beta-catenin nuclear translocation via a Wnt-independent pathway. The phosphor-p68 facilitates beta-catenin nuclear translocation by blocking phosphorylation of beta-catenin by GSK-3beta and displacing Axin from beta-catenin. The beta-catenin nuclear translocation and subsequent interaction with the LEF/TCF was required for the EMT process. These data demonstrated a novel mechanism of phosphor-p68 in mediating the growth factor-induced EMT and uncovered a new pathway to promote beta-catenin nuclear translocation.

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Phosphorylation of p68 RNA Helicase Plays a Role in Platelet-derived Growth Factor-induced Cell Proliferation by Up-regulating Cyclin D1 and c-Myc Expression

Yang¹,

Lin

Zhao

et al. 2007

Journal of Biological Chemistry

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p68 RNA helicase is a protypical member of DEAD box family RNA helicase. The protein plays an important role in the cell developmental program and organ maturation. We demonstrated previously that, in response to growth factor platelet-derived growth factor (PDGF)-BB stimulation, p68 is phosphorylated at Tyr(593), and the phosphorylation of p68 promotes epithelial-mesenchymal transition via promoting beta-catenin nuclear translocation (Yang, L., Lin, C., and Liu, Z. R. (2006) Cell 127, 139-155). We show here that the tyrosine phosphorylation of p68 also mediates the effects of PDGF in stimulating cell proliferation. The phosphorylated p68 (referred to as phospho-p68) promotes cell proliferation by activating the transcription of cyclin D1 and c-Myc genes. We show that the ATPase/helicase activities of p68 are required for the activation of cyclin D1 transcription. The phospho-p68 participates in the complex assembled at the cyclin D1 and c-Myc promoters, which strongly suggests a direct role in transcriptional regulation. Furthermore, our data demonstrated that the phosphorylation of p68 at Tyr(593) plays a role in mediating the autocrine loop effects of PDGF, suggesting an important role for p68 phosphorylation in cell proliferation.

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Phosphorylations of DEAD Box p68 RNA Helicase Are Associated with Cancer Development and Cell Proliferation

Yang

Lin

Liu

2005

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The nuclear p68 RNA helicase is essential for normal cell growth. The protein plays a very important role in early organ development and maturation. In our previous report, we showed that recombinant p68 RNA helicase was phosphorylated at serine/threonine and tyrosine residue(s). In the present study, we examined the phosphorylation status of p68 in six different cancer cell lines and compared the results with those in cells derived from the corresponding normal tissues. We showed here that p68 was phosphorylated at tyrosine residue(s) in all tested cancer cells but not in the corresponding normal cells/tissues. The tyrosyl phosphorylation of p68 also responded to platelet-derived growth factor. It is thus clear that p68 phosphorylation at tyrosine residue(s) is associated with abnormal cell proliferation and cancer development. The tyrosyl phosphorylation(s) was diminished if the cancer cells were treated with apoptosis agents, such as tumor necrosis factor-A, tumor necrosis factor -related apoptosis-inducer ligand, and STI-571. The tyrosyl phosphorylation of p68, however, was not affected by other anticancer drugs, such as piceatannol, etoposide, and taxol. The close correlation between p68 phosphorylations and cancer may provide a useful diagnostic marker and potential therapeutic target for cancer treatment. (Mol Cancer Res 2005;3(6):355 -63)

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LIV-1 Promotes Prostate Cancer Epithelial-to-Mesenchymal Transition and Metastasis through HB-EGF Shedding and EGFR-Mediated ERK Signaling

et al. 2011

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LIV-1, a zinc transporter, is an effector molecule downstream from soluble growth factors. This protein has been shown to promote epithelial-to-mesenchymal transition (EMT) in human pancreatic, breast, and prostate cancer cells. Despite the implication of LIV-1 in cancer growth and metastasis, there has been no study to determine the role of LIV-1 in prostate cancer progression. Moreover, there was no clear delineation of the molecular mechanism underlying LIV-1 function in cancer cells. In the present communication, we found increased LIV-1 expression in benign, PIN, primary and bone metastatic human prostate cancer. We characterized the mechanism by which LIV-1 drives human prostate cancer EMT in an androgen-refractory prostate cancer cells (ARCaP) prostate cancer bone metastasis model. LIV-1, when overexpressed in ARCaPE (derivative cells of ARCaP with epithelial phenotype) cells, promoted EMT irreversibly. LIV-1 overexpressed ARCaPE cells had elevated levels of HB-EGF and matrix metalloproteinase (MMP) 2 and MMP 9 proteolytic enzyme activities, without affecting intracellular zinc concentration. The activation of MMPs resulted in the shedding of heparin binding-epidermal growth factor (HB-EGF) from ARCaPE cells that elicited constitutive epidermal growth factor receptor (EGFR) phosphorylation and its downstream extracellular signal regulated kinase (ERK) signaling. These results suggest that LIV-1 is involved in prostate cancer progression as an intracellular target of growth factor receptor signaling which promoted EMT and cancer metastasis. LIV-1 could be an attractive therapeutic target for the eradication of pre-existing human prostate cancer and bone and soft tissue metastases.

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Early detection and staging of chronic liver diseases with a protein MRI contrast agent

Salarian¹,

Turaga²,

Xue³

et al. 2019

Nat Commun

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Early diagnosis and noninvasive detection of liver fibrosis and its heterogeneity remain as major unmet medical needs for stopping further disease progression toward severe clinical consequences. Here we report a collagen type I targeting protein-based contrast agent (ProCA32.collagen1) with strong collagen I affinity. ProCA32.collagen1 possesses high relaxivities per particle (r1 and r2) at both 1.4 and 7.0 T, which enables the robust detection of early-stage (Ishak stage 3 of 6) liver fibrosis and nonalcoholic steatohepatitis (Ishak stage 1 of 6 or 1 A Mild) in animal models via dual contrast modes. ProCA32.collagen1 also demonstrates vasculature changes associated with intrahepatic angiogenesis and portal hypertension during late-stage fibrosis, and heterogeneity via serial molecular imaging. ProCA32.collagen1 mitigates metal toxicity due to lower dosage and strong resistance to transmetallation and unprecedented metal selectivity for Gd3+ over physiological metal ions with strong translational potential in facilitating effective treatment to halt further chronic liver disease progression.

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Zhi Ren Liu

P68 RNA Helicase Mediates PDGF-Induced Epithelial Mesenchymal Transition by Displacing Axin from β-Catenin

Phosphorylation of p68 RNA Helicase Plays a Role in Platelet-derived Growth Factor-induced Cell Proliferation by Up-regulating Cyclin D1 and c-Myc Expression

Phosphorylations of DEAD Box p68 RNA Helicase Are Associated with Cancer Development and Cell Proliferation

LIV-1 Promotes Prostate Cancer Epithelial-to-Mesenchymal Transition and Metastasis through HB-EGF Shedding and EGFR-Mediated ERK Signaling

Early detection and staging of chronic liver diseases with a protein MRI contrast agent

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