Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
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Query: UNIPROT:P43146 (
tumour suppressor
)
5,935
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
tumour suppressor
p53 plays a complex role in the regulation of apoptosis. High levels of wild type p53 potentiate the apoptotic response, while physiological range, low levels of the protein have an anti-apoptotic activity in serum starved immortalized fibroblasts. Here we report that primary fibroblast-like cells that show normal growth control are also efficiently protected from apoptosis by the endogenous p53 activity. The capacity to inhibit apoptosis is not restricted to the wild type protein: the R-->H175 p53 mutant fully retains the anti-apoptotic activity of the wild type p53, providing a possible explanation for its high oncogenicity. Using a series of point and deletion mutants of p53 under the control of tetracycline-regulated promoter we show that certain mutants, like the wild type, protect cells at low levels but lead to apoptosis when overexpressed. This latter effect is lost upon deletion of a
proline-rich
domain in the NH2 part of the protein. The anti-apoptotic activity can be mapped to the extreme carboxy-terminal part of the protein and is therefore independent of other well characterized p53 activities. Our results add a new level of complexity to the network of interactions mediated by p53 in normal physiology and pathology.
...
PMID:Anti-apoptotic activity of p53 maps to the COOH-terminal domain and is retained in a highly oncogenic natural mutant. 1046 17
The
tumour suppressor
p53 is a multifunctional protein important for the maintenance of genomic integrity. It is able to form molecular complexes with different DNA targets and also with cellular proteins involved in DNA transcription and DNA repair. In mammalian cells the biochemical processing of DNA occurs on a nuclear sub-structure termed the nuclear matrix. Previously Deppert and co-workers have identified p53 in association with the nuclear matrix in viral- and non-viral transformed cell lines. In the present study we demonstrate, for the first time, that p53 is bound to the nuclear matrix in primary cultures of normal mammalian cells and that this binding increases following DNA damage. Analysis of cell lines expressing structural mutants of p53 revealed that association with the nuclear matrix is independent of the tertiary and quaternary structure of p53. However, the
proline-rich
domain towards the N-terminus of p53 (residues 67 to 98) appeared important for binding to the nuclear matrix. This was demonstrated by TET-ON regulated expression of p53-derived constructs in p53(-/-) murine embryonic fibroblasts (MEF p53(-/-)). The
proline-rich
domain of p53 has potential for SH3 protein-protein interaction, and has a role in p53-mediated apoptosis and possibly base excision repair of DNA damage. We discuss our observations in relation to the ability of p53 to facilitate DNA repair and also review evidence indicating that matrix-bound p53 in SV40-transformed cells may facilitate the transforming potential of SV40 large T antigen.
...
PMID:p53 binds the nuclear matrix in normal cells: binding involves the proline-rich domain of p53 and increases following genotoxic stress. 1157 42
Mutations in the core domain of the
tumour suppressor
p53 gene occur in over 50% of human cancers and are not present in normal cells hence p53 protein is a prime target for anti-cancer therapy. In full-length p53 protein, mutations have been shown to destabilize protein structure from wild-type to mutant conformation resulting in differential exposure of conformational epitopes PAb1620, PAb240 and PAb246 in murine p53 protein. In recent studies, putative anti-cancer agents have been designed for rescuing wild-type p53 conformation and function. Using full-length and truncated murine p53 proteins derived from the baculoviral system, we analyzed the recovery of PAb246 and PAb1620 epitopes and have identified regions of p53 required for optimal renaturation in vitro to wild-type. The influence of ATP and ADP on the process was also determined. We demonstrate a difference in the dose-dependent effect of ATP and ADP on renaturation of full-length wild-type and monomeric p53 proteins. Putative ATP binding sites were identified at residues 1-67 and 98-303 in conjunction with a putative ADP binding site at residues 98-303 and negative regulation of ATP/ADP binding by the
proline-rich
region. Improved efficacy and reduced toxicity of anti-cancer therapy may depend upon compounds engineered to rescue hot-spot core mutations in the context of full-length p53.
...
PMID:Restoration of wild-type conformation to full-length and truncated p53 proteins: specific effects of ATP and ADP. 1532 74
One of the most frequently mutated genes in human cancers,
tumour suppressor
p53 (TP53), can induce cell-cycle arrest and apoptosis. The apoptotic function of p53 is tightly linked to its tumour-suppression function and the efficacy of many cancer therapies depends on this. The identification of a new family of proteins, known as ASPPs (ankyrin-repeat-, SH3-domain- and
proline-rich
-region-containing proteins), has led to the discovery of a novel mechanism that selectively regulates the apoptotic function, but not the cell-cycle-arrest function, of p53, and gives an insight into how p53 responds to different stress signals. ASPPs might be new molecular targets for cancer therapy.
...
PMID:ASPP [corrected] and cancer. 1649 44
The p53
tumour suppressor
governs cell fate by differential transactivation of a spectrum of target genes. To further understand how p53 discriminates between target promoters, we have for the first time used in vitro compartmentalization (IVC) to evolve variants with greater affinity for the distal p53 response element in the promoter of the p21 gene involved in cell-cycle arrest, and for the low affinity BS1 response element of the pro-apoptotic PUMA gene. These variants have mutations in the L1 loop of the p53 DNA binding domain and in the N-terminal
proline-rich
domain. The in vitro binding phenotype of these variants extends to both increased transactivation of promoters containing the response elements in reporter gene studies and increased up-regulation of endogenous p21 as compared to wild-type p53. One variant was co-selected for increased binding to both response elements yet displayed increased apoptotic function. This result supports the notion that prediction of phenotypic outcome based on transcriptional activation of individual genes is confounded by the networked complexity of the p53 response.
...
PMID:Directed evolution of p53 variants with altered DNA-binding specificities by in vitro compartmentalization. 1761 Aug 96
The phosphoinositide 3-kinase (PI3K) generated lipid signals, PtdIns(3,4,5)P3 and PtdIns(3,4)P2, are both required for the maximal activation of the serine/threonine kinase proto-oncogene Akt. The inositol polyphosphate 5-phosphatases (5-phosphatases) hydrolyse the 5-position phosphate from the inositol head group of PtdIns(3,4,5)P3 to yield PtdIns(3,4)P2. Extensive work has revealed several 5-phosphatases inhibit PI3K-driven Akt signalling, by decreasing PtdIns(3,4,5)P3 despite increasing cellular levels of PtdIns(3,4)P2. The roles that 5-phosphatases play in suppressing cell proliferation and transformation are slow to emerge; however, the 5-phosphatase PIPP [
proline-rich
inositol polyphosphate 5-phosphatase; inositol polyphosphate 5-phosphatase (INPP5J)] has recently been identified as a putative
tumour suppressor
in melanoma and breast cancer and SHIP1 [SH2 (Src homology 2)-containing inositol phosphatase 1] inhibits haematopoietic cell proliferation. INPP5E regulates cilia stability and INPP5E mutations have been implicated ciliopathy syndromes. This review will examine 5-phosphatase regulation of PI3K/Akt signalling, focussing on the role PtdIns(3,4,5)P3 5-phosphatases play in developmental diseases and cancer.
...
PMID:Regulation of PtdIns(3,4,5)P3/Akt signalling by inositol polyphosphate 5-phosphatases. 2686 11
Breast tumours progress from hyperplasia to ductal carcinoma in situ (DCIS) and invasive breast carcinoma (IBC). PRH/HHEX (
proline-rich
homeodomain/haematopoietically expressed homeobox) is a transcription factor that displays both
tumour suppressor
and oncogenic activity in different disease contexts; however, the role of PRH in breast cancer is poorly understood. Here we show that nuclear localization of the PRH protein is decreased in DCIS and IBC compared with normal breast. Our previous work has shown that PRH phosphorylation by protein kinase CK2 prevents PRH from binding to DNA and regulating the transcription of multiple genes encoding growth factors and growth factor receptors. Here we show that transcriptionally inactive phosphorylated PRH is elevated in DCIS and IBC compared with normal breast. To determine the consequences of PRH loss of function in breast cancer cells, we generated inducible PRH depletion in MCF-7 cells. We show that PRH depletion results in increased MCF-7 cell proliferation in part at least due to increased vascular endothelial growth factor signalling. Moreover, we demonstrate that PRH depletion increases the formation of breast cancer cells with cancer stem cell-like properties. Finally, and in keeping with these findings, we show that PRH overexpression inhibits the growth of mammary tumours in mice. Collectively, these data indicate that PRH plays a tumour suppressive role in the breast and they provide an explanation for the finding that low PRH mRNA levels are associated with a poor prognosis in breast cancer.
...
PMID:Proline-Rich Homeodomain protein (PRH/HHEX) is a suppressor of breast tumour growth. 2860 63
