p53-Related Transcription Targets of TAp73 in Cancer Cells—Bona Fide or Distorted Reality?

Wang, Chao; Teo, Cui Rong; Sabapathy, Kanaga

doi:10.3390/ijms21041346

Cited by 13 publications

(13 citation statements)

References 126 publications

(73 reference statements)

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“…The complex phenotype of the Trp73 deficient mice have revealed that p73 function is essential for the organization and homeostasis of different complex microenvironments governing various aspects of tissue physiology. Altogether, this has raised the idea that TAp73 was not evolved for tumor suppression, but rather to perform unique functions in regulating developmental processes through p53-independent mechanisms (Wang et al, 2020). We propose that some of the, apparently unrelated, phenotypes observed in Trp73 −/− mice are the reflection of the p73 requirement for the establishment and/or maintenance of tissue organization (Figure 4).…”

Section: Discussionmentioning

confidence: 94%

“…The discovery of the TA-and DN-p73 isoforms with antagonist anti-and pro-oncogenic functions, and the TAp73KO mice predisposition to spontaneous tumorigenesis, demonstrated TAp73 role as a tumor suppressor gene (Tomasini et al, 2008). However, there is growing evidence indicating that while TAp73 has a role in tumor suppression, it is likely to be secondary (reviewed in Wang et al, 2020). The complex phenotype of the Trp73 deficient mice have revealed that p73 function is essential for the organization and homeostasis of different complex microenvironments governing various aspects of tissue physiology.…”

Section: Discussionmentioning

confidence: 99%

“…As mentioned before, the Trp73 gene gives raise to functionally different TA and DNp73 isoforms (Candi et al, 2014). TAp73 proteins can transactivate canonical-p53 targets as well as non-p53 related genes involved in development and/or other cell growth associated functions (Engelmann et al, 2015;Wang et al, 2020). TA-isoforms differ in their transactivation efficiency and target gene specificity depending on their carboxy terminus (De Laurenzi et al, 1998;Ueda et al, 1999).…”

Section: Diversifying Biological Activities: the Ying-yang Mode Of Action Of P73 Isoformsmentioning

confidence: 99%

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p73 as a Tissue Architect

Maeso‐Alonso

López-Ferreras

Marques

et al. 2021

Front. Cell Dev. Biol.

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The TP73 gene belongs to the p53 family comprised by p53, p63, and p73. In response to physiological and pathological signals these transcription factors regulate multiple molecular pathways which merge in an ensemble of interconnected networks, in which the control of cell proliferation and cell death occupies a prominent position. However, the complex phenotype of the Trp73 deficient mice has revealed that the biological relevance of this gene does not exclusively rely on its growth suppression effects, but it is also intertwined with other fundamental roles governing different aspects of tissue physiology. p73 function is essential for the organization and homeostasis of different complex microenvironments, like the neurogenic niche, which supports the neural progenitor cells and the ependyma, the male and female reproductive organs, the respiratory epithelium or the vascular network. We propose that all these, apparently unrelated, developmental roles, have a common denominator: p73 function as a tissue architect. Tissue architecture is defined by the nature and the integrity of its cellular and extracellular compartments, and it is based on proper adhesive cell-cell and cell-extracellular matrix interactions as well as the establishment of cellular polarity. In this work, we will review the current understanding of p73 role as a neurogenic niche architect through the regulation of cell adhesion, cytoskeleton dynamics and Planar Cell Polarity, and give a general overview of TAp73 as a hub modulator of these functions, whose alteration could impinge in many of the Trp73–/– phenotypes.

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Section: Discussionmentioning

confidence: 94%

Section: Discussionmentioning

confidence: 99%

Section: Diversifying Biological Activities: the Ying-yang Mode Of Action Of P73 Isoformsmentioning

confidence: 99%

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p73 as a Tissue Architect

Maeso‐Alonso

López-Ferreras

Marques

et al. 2021

Front. Cell Dev. Biol.

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“…Clinically, p63 has value in identifying malignancy and for tumour classification, and isoform‐specific ΔNp63 antibodies are superior to assessing total p63 in many situations (reviewed in ref 249). In addition, although not well studied in clinical material, TAp63 provides prognostic information [15,18,249–251] and requires more study in lymphomas and lymphocytes (including tumour‐infiltrating lymphocytes) to understand its prognostic impact and opportunities for therapy. Advances in understanding p63 isoforms and their regulation will inevitably lead to new diagnostic, prognostic and therapeutic opportunities for cancer and other pathological conditions.…”

Section: Discussionmentioning

confidence: 99%

The foggy world(s) of p63 isoform regulation in normal cells and cancer

Pokorná

Vysloužil

Hrabal

et al. 2021

The Journal of Pathology

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The p53 family member p63 exists as two major protein variants (TAp63 and ΔNp63) with distinct expression patterns and functional properties. Whilst downstream target genes of p63 have been studied intensively, how p63 variants are themselves controlled has been relatively neglected. Here, we review advances in understanding ΔNp63 and TAp63 regulation, highlighting their distinct pathways. TAp63 has roles in senescence and metabolism, and in germ cell genome maintenance, where it is activated post‐transcriptionally by phosphorylation cascades after DNA damage. The function and regulation of TAp63 in mesenchymal and haematopoietic cells is less clear but may involve epigenetic control through DNA methylation. ΔNp63 functions to maintain stem/progenitor cells in various epithelia and is overexpressed in squamous and certain other cancers. ΔNp63 is transcriptionally regulated through multiple enhancers in concert with chromatin modifying proteins. Many signalling pathways including growth factors, morphogens, inflammation, and the extracellular matrix influence ΔNp63 levels, with inconsistent results reported. There is also evidence for reciprocal regulation, including ΔNp63 activating its own transcription. ΔNp63 is downregulated during cell differentiation through transcriptional regulation, while post‐transcriptional events cause proteasomal degradation. Throughout the review, we identify knowledge gaps and highlight discordances, providing potential explanations including cell‐context and cell–matrix interactions. Identifying individual p63 variants has roles in differential diagnosis and prognosis, and understanding their regulation suggests clinically approved agents for targeting p63 that may be useful combination therapies for selected cancer patients. © 2021 The Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.

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“…Besides their well-demonstrated roles in DDR and apoptosis ( Wilhelm et al, 2010 ), p73 isoforms also have unique targets ( Logotheti et al, 2019 ; Wang et al, 2020 ) and exert non-oncogenic functions ( Inoue et al, 2014 ) that are not shared with p53. Understanding their functional pleiotropy has been enabled through the use of DNp73 splice isoform-specific antisense oligonucleotide gapmers ( Emmrich et al, 2009 ) and by knockout mice models with (i) deletion of the entire TP73 gene, (ii) deletion of exons encoding the TAp73 isoforms, (iii) deletion of exons encoding the ΔNp73 isoform, and (iv) deletions of exons encoding the C-terminus of the alpha isoform.…”

Section: The Expanding Functional Repertoire Of Tp73 In Cancer and Beyondmentioning

confidence: 99%

Mechanisms of Functional Pleiotropy of p73 in Cancer and Beyond

Logotheti

Richter

Murr

et al. 2021

Front. Cell Dev. Biol.

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The transcription factor p73 is a structural and functional homolog of TP53, the most famous and frequently mutated tumor-suppressor gene. The TP73 gene can synthesize an overwhelming number of isoforms via splicing events in 5′ and 3′ ends and alternative promoter usage. Although it originally came into the spotlight due to the potential of several of these isoforms to mimic p53 functions, it is now clear that TP73 has its own unique identity as a master regulator of multifaceted processes in embryonic development, tissue homeostasis, and cancer. This remarkable functional pleiotropy is supported by a high degree of mechanistic heterogeneity, which extends far-beyond the typical mode of action by transactivation and largely relies on the ability of p73 isoforms to form protein–protein interactions (PPIs) with a variety of nuclear and cytoplasmic proteins. Importantly, each p73 isoform carries a unique combination of functional domains and residues that facilitates the establishment of PPIs in a highly selective manner. Herein, we summarize the expanding functional repertoire of TP73 in physiological and oncogenic processes. We emphasize how TP73’s ability to control neurodevelopment and neurodifferentiation is co-opted in cancer cells toward neoneurogenesis, an emerging cancer hallmark, whereby tumors promote their own innervation. By further exploring the canonical and non-canonical mechanistic patterns of p73, we apprehend its functional diversity as the result of a sophisticated and coordinated interplay of: (a) the type of p73 isoforms (b) the presence of p73 interaction partners in the cell milieu, and (c) the architecture of target gene promoters. We suppose that dysregulation of one or more of these parameters in tumors may lead to cancer initiation and progression by reactivating p73 isoforms and/or p73-regulated differentiation programs thereof in a spatiotemporally inappropriate manner. A thorough understanding of the mechanisms supporting p73 functional diversity is of paramount importance for the efficient and precise p73 targeting not only in cancer, but also in other pathological conditions where TP73 dysregulation is causally involved.

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p53-Related Transcription Targets of TAp73 in Cancer Cells—Bona Fide or Distorted Reality?

Cited by 13 publications

References 126 publications

p73 as a Tissue Architect

p73 as a Tissue Architect

The foggy world(s) of p63 isoform regulation in normal cells and cancer

Mechanisms of Functional Pleiotropy of p73 in Cancer and Beyond

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