Yougong Peng scite author profile

As a member of tumor suppressor p53 family, p63, a gene encoding versatile protein variant, has been documented to correlate with cancer formation and progression, though it is rarely mutated in cancer patients. However, it has long been controversial on whether p63 is an oncogene or a tumor suppressor. Here, we comprehensively reviewed reports on roles of p63 in development, tumorigenesis and tumor progression. According to data from molecular cell biology, genetic models and clinic research, we conclude that p63 may act as either an oncogene or a tumor suppressor gene in different scenarios: TA isoforms of p63 gene are generally tumor-suppressive through repressing cell proliferation, survival and metastasis; ΔN isoforms, however, may initiate tumorigenesis via promoting cell proliferation and survival, but inhibit tumor metastasis and progression; effects of p63 on tumor formation and progression depend on the context of the whole p53 family, and either amplification or loss of p63 gene locus can break the balance to cause tumorigenesis.

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ΔNp63α down-regulates c-Myc modulator MM1 via E3 ligase HERC3 in the regulation of cell senescence

Chen

Peng

et al. 2018

Cell Death Differ

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p63 and c-Myc are key transcription factors controlling genes involved in the cell cycle and cellular senescence. We previously reported that p63α can destabilize MM1 protein to derepress c-Myc, resulting in cell cycle progress and tumorigenesis. However, how the proteasomal degradation of MM1 is facilitated remains unclear. In the present study, we identified a novel E3 ligase, HERC3, which can mediate ubiquitination of MM1 and promote its proteasome-dependent degradation. We found that ΔNp63α transcriptionally up-regulates HERC3 and knockdown of HERC3 abrogates ΔNp63α-induced down-regulation of MM1. Either overexpression of MM1 or ablation of HERC3 induces cell senescence, while knockdown of MM1 rescues cell senescence induced by deficiency of either ΔNp63α or HERC3, implicating the involvement of the ΔNp63α/HERC3/MM1/c-Myc axis in the modulation of cell senescence. Additionally, our Oncomine analysis indicates activation of the ΔNp63α/HERC3/MM1/c-Myc axis in invasive breast carcinoma. Together, our data illuminate a novel axis regulating cell senescence: ΔNp63α stimulates transcription of E3 ligase HERC3, which mediates ubiquitination of c-Myc modulator MM1 and targets it to proteasomal degradation; subsequently, c-Myc is derepressed by ΔNp63α, thereby cell senescence is modulated by this axis. Our work provides a new interpretation of crosstalk between p63 and c-Myc, and also sheds new light on ΔNp63α-controlled cell senescence and tumorigenesis.

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Copper metabolism in Saccharomyces cerevisiae: an update

et al. 2020

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Cullin3/KCTD5 induces monoubiquitination of ΔNp63α and impairs its activity

Peng

Fan

et al. 2018

FEBS Letters

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Potassium channel tetramerization domain containing 5 (KCTD5) was previously documented as a component of the Cullin3-RING ligase (CRL3). It has been reported that KCTD5 can induce enrichment of polyubiquitinated proteins, and KCTD5-based CRL3 destabilizes several proteins. In our present study, we report that KCTD5 may physically interact with ΔNp63α, which is a member of the p53 family. Our further investigation revealed that Cullin3/KCTD5 can induce monoubiquitination of ΔNp63α. Cullin3/KCTD5 downregulates the DNA-binding affinity of ΔNp63α, impairing either its transactivity or its transinhibitory activity. Functionally, Cullin3/KCTD5 abates the proproliferation activity of ΔNp63α. These findings suggest that KCTD5-based CRL3 may mediate monoubiquitination and is a novel regulator of ΔNp63α.

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Yougong Peng

The molecular mechanisms of copper metabolism and its roles in human diseases

A double dealing tale of p63: an oncogene or a tumor suppressor

ΔNp63α down-regulates c-Myc modulator MM1 via E3 ligase HERC3 in the regulation of cell senescence

Copper metabolism in Saccharomyces cerevisiae: an update

Cullin3/KCTD5 induces monoubiquitination of ΔNp63α and impairs its activity

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