Zebin Mao scite author profile

p53 is an essential tumor suppressor, whose activity is finely tuned by the posttranslational modifications. Previous research has reported that β-hydroxybutyrate (BHB) induces β-hydroxybutyrylation (Kbhb), which is a novel histone posttranslational modification. Here we report that p53 is modified by kbhb and that this modification occurs at lysines 120, 319, and 370 of p53. We demonstrate that the level of p53 kbhb is dramatically increased in cultured cells treated with BHB and in thymus tissues of fasted mice, and that CBP catalyze p53 kbhb. We show that p53 kbhb results in lower levels of p53 acetylation and reduced expression of the p53 downstream genes p21 and PUMA, as well as reduced cell growth arrest and apoptosis in cultured cells under p53-activating conditions. Similar results were observed in mouse thymus tissue under starvation conditions, which result in increased concentrations of serum BHB, and in response to genotoxic stress caused by γ-irradiation to activate p53. Our findings thus show that BHB-mediated p53 kbhb is a novel mechanism of p53 activity regulation, which may explain the link between ketone bodies and tumor, and which may provide promising therapeutic target for cancer treatment.

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Ca ²⁺ channel subunit α 1D promotes proliferation and migration of endometrial cancer cells mediated by 17β‐estradiol via the G protein‐coupled estrogen receptor

Hao

Bao

Jin

et al. 2015

FASEB j.

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Calcium and calcium channels are closely related to the estrogen-induced nongenomic effect of endometrial carcinoma, but the specific role of calcium channels is unknown. This study aimed to explore the expression and the biologic effect of the L-type calcium channel in endometrial carcinoma cells and to clarify the molecular mechanism of the relationship between L-type calcium channels and estrogen. The immunohistochemical results showed that Ca(2+) channel subunit α 1D (Cav1.3) expression was high in atypical hyperplasia (1.90 ± 0.35) and endometrial carcinoma tissues (2.05 ± 0.82) but weak (0.80 ± 0.15) in benign endometrial tissues (P < 0.05). Treatment with 17β-estradiol rapidly increased Cav1.3 expression in a dose- and time-dependent manner, and 100 nM cell-impermeable β-estradiol-6-(O-carboxymethyl)oxime:bovine serum albumin also promoted Cav1.3 expression. Transfection with small interfering RNA against G protein-coupled estrogen receptor (GPER) suppressed estrogen-induced up-regulation of Cav1.3 compared with control cells and markedly reduced the estrogen-induced phosphorylation of ERK1/2 and CREB. Knocking down the Cav1.3 significantly suppressed estrogen-stimulated Ca(2+) influx, cell proliferation, and migration in endometrial cancer cells. Taken together, Cav1.3 was overexpressed in atypical hyperplasia and endometrial carcinoma, and the estrogen-induced phosphorylation of downstream molecular ERK1/2 and CREB is the result of activation of the GPER pathway. L-type channel Cav1.3 is required for estrogen-stimulated Ca(2+) influx and contributes broadly to the development of endometrial cancer. The Cav1.3 channel may be a new target for endometrial carcinoma treatment.

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Effects of transforming growth factor-β1 and vascular endothelial growth factor 165 gene transfer on Achilles tendon healing

et al. 2009

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Parkin Regulates the Activity of Pyruvate Kinase M2

Liu

Han

et al. 2016

Journal of Biological Chemistry

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Parkin, a ubiquitin E3 ligase, is mutated in most cases of autosomal recessive early onset Parkinson disease. It was discovered that Parkin is also mutated in glioblastoma and other human malignancies and that it inhibits tumor cell growth. Here, we identified pyruvate kinase M2 (PKM2) as a unique substrate for parkin through biochemical purification. We found that parkin interacts with PKM2 both in vitro and in vivo, and this interaction dramatically increases during glucose starvation. Ubiquitylation of PKM2 by parkin does not affect its stability but decreases its enzymatic activity. Parkin regulates the glycolysis pathway and affects the cell metabolism. Our studies revealed the novel important roles of parkin in tumor cell metabolism and provided new insight for therapy of Parkinson disease.

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Local administration of TGFβ-1/VEGF165 gene-transduced bone mesenchymal stem cells for Achilles allograft replacement of the anterior cruciate ligament in rabbits

Wei¹,

Mao²,

Hou³

et al. 2011

Biochemical and Biophysical Research Communications

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Macrophage migration inhibitory factor is a direct target of HBP1-mediated transcriptional repression that is overexpressed in prostate cancer

et al. 2010

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Macrophage migration inhibitory factor (MIF) is a welldescribed proinflammatory mediator. MIF overexpression has been observed in many tumors and is implicated in oncogenic transformation and tumor progression. However, the molecular mechanisms responsible for regulating MIF expression remain poorly understood. In this study, we showed that the transcriptional repressor HBP1 (HMG box-containing protein 1) negatively regulates MIF expression. We first identified a large high-affinity HBP1 DNA-binding element at positions À811 to À792 from the transcriptional start site within the MIF promoter by computer analysis. Reporter analyses showed that this element was required for HBP1-mediated transcriptional repression. Furthermore, HBP1 associated with the MIF promoter in vivo and repressed endogenous MIF gene expression. Consistent with HBP1-mediated repression of MIF, low levels of HBP1 expression were associated with high levels of MIF expression in prostate cancer samples. Importantly, HBP1-mediated repression of MIF inhibited tumorigenic growth and invasion, and the repressive effect of HBP1 on tumorigenic growth and invasion could be partially rescued by the addition of recombinant MIF to the culture medium. Finally, prostate tumor samples with low HBP1 and high MIF expression were associated with a significant decrease in relapse-free survival. Taken together, these results indicated that HBP1 directly inhibited MIF gene transcription, and suggested that the loss of HBP1 expression or activity may contribute to the upregulation of MIF expression in prostate tumor tissue.

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MiR-30d induces apoptosis and is regulated by the Akt/FOXO pathway in renal cell carcinoma

Jin

Chen

et al. 2013

Cellular Signalling

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CSTP1, a Novel Protein Phosphatase, Blocks Cell Cycle, Promotes Cell Apoptosis, and Suppresses Tumor Growth of Bladder Cancer by Directly Dephosphorylating Akt at Ser473 Site

et al. 2013

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Akt/protein kinase B is a pivotal component downstream of phosphatidylinositol 3-kinase (PI3K) pathway, whose activity regulates the balance between cell survival and apoptosis. Phosphorylation of Akt occurs at two key sites either at Thr308 site in the activation loop or at Ser473 site in the hydrophobic motif. The phosphorylated form of Akt (pAkt) is activated to promote cell survival. The mechanisms of pAkt dephosphorylation and how the signal transduction of Akt pathway is terminated are still largely unknown. In this study, we identified a novel protein phosphatase CSTP1(complete s transactivated protein 1), which interacts and dephosphorylates Akt specifically at Ser473 site in vivo and in vitro, blocks cell cycle progression and promotes cell apoptosis. The effects of CSTP1 on cell survival and cell cycle were abrogated by depletion of phosphatase domain of CSTP1 or by expression of a constitutively active form of Akt (S473D), suggesting Ser473 site of Akt as a primary cellular target of CSTP1. Expression profile analysis showed that CSTP1 expression is selectively down-regulated in non-invasive bladder cancer tissues and over-expression of CSTP1 suppressed the size of tumors in nude mice. Kaplan-Meier curves revealed that decreased expression of CSTP1 implicated significantly reduced recurrence-free survival in patients suffered from non-invasive bladder cancers.

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Zebin Mao

p53 β-hydroxybutyrylation attenuates p53 activity

Ca ²⁺ channel subunit α 1D promotes proliferation and migration of endometrial cancer cells mediated by 17β‐estradiol via the G protein‐coupled estrogen receptor

Effects of transforming growth factor-β1 and vascular endothelial growth factor 165 gene transfer on Achilles tendon healing

Parkin Regulates the Activity of Pyruvate Kinase M2

Local administration of TGFβ-1/VEGF165 gene-transduced bone mesenchymal stem cells for Achilles allograft replacement of the anterior cruciate ligament in rabbits

Macrophage migration inhibitory factor is a direct target of HBP1-mediated transcriptional repression that is overexpressed in prostate cancer

MiR-30d induces apoptosis and is regulated by the Akt/FOXO pathway in renal cell carcinoma

CSTP1, a Novel Protein Phosphatase, Blocks Cell Cycle, Promotes Cell Apoptosis, and Suppresses Tumor Growth of Bladder Cancer by Directly Dephosphorylating Akt at Ser473 Site

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Zebin Mao

p53 β-hydroxybutyrylation attenuates p53 activity

Ca 2+ channel subunit α 1D promotes proliferation and migration of endometrial cancer cells mediated by 17β‐estradiol via the G protein‐coupled estrogen receptor

Effects of transforming growth factor-β1 and vascular endothelial growth factor 165 gene transfer on Achilles tendon healing

Parkin Regulates the Activity of Pyruvate Kinase M2

Local administration of TGFβ-1/VEGF165 gene-transduced bone mesenchymal stem cells for Achilles allograft replacement of the anterior cruciate ligament in rabbits

Macrophage migration inhibitory factor is a direct target of HBP1-mediated transcriptional repression that is overexpressed in prostate cancer

MiR-30d induces apoptosis and is regulated by the Akt/FOXO pathway in renal cell carcinoma

CSTP1, a Novel Protein Phosphatase, Blocks Cell Cycle, Promotes Cell Apoptosis, and Suppresses Tumor Growth of Bladder Cancer by Directly Dephosphorylating Akt at Ser473 Site

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Product

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Ca ²⁺ channel subunit α 1D promotes proliferation and migration of endometrial cancer cells mediated by 17β‐estradiol via the G protein‐coupled estrogen receptor