Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P43146 (tumour suppressor)
 5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The von Hippel-Lindau (VHL) tumour suppressor gene encodes a substrate-specifying component of an E3 ubiquitin ligase that targets hypoxia-inducible factor (HIF) alpha subunits for degradation under normoxia. The VHL protein is composed of an N-terminal HIFalpha-binding beta domain and a C-terminal alpha domain, which is necessary and sufficient for the formation of the E3 multiprotein enzyme. A large number of disease-causing mutations in either the alpha or beta domain renders HIFalpha stable irrespective of oxygen tension, leading to the upregulation of numerous HIF-target genes, such as GLUT1 and VEGF. Here, we show that VHL forms a self-associated complex in vivo, but not in vitro, and demonstrate that coexpression of two different VHL missense mutants -- one in the alpha domain and the other in the beta domain -- restores HIF-mediated gene expression profile. These findings indicate that VHL homotypic complexes can function in vivo in a complementary fashion to target HIFalpha for ubiquitin-mediated proteolysis, and potentially explain why VHL-associated tumours with a missense mutation-carrying VHL allele is almost invariably accompanied by a second VHL allele harbouring a gross truncation or deletion.
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PMID:Homotypic association between tumour-associated VHL proteins leads to the restoration of HIF pathway. 1640 35

PTEN (phosphatase and tensin homologue deleted on chromosome 10) is well known as a tumour suppressor. In dephosphorylating the 3-position of the inositol ring of phosphoinositides such as PtdIns(3,4,5)P(3), PTEN's lipid phosphatase activity is an important counteracting mechanism in PI3K (phosphoinositide 3-kinase) signalling. This is essential for cell motility and migration due to the achievement of a PtdIns(3,4,5)P(3)/PtdIns(4,5)P(2) gradient that is also involved in metastasis. Furthermore, PTEN's tumour suppressor role is linked to the control of cell-cycle progression and cell proliferation by counteracting Akt (also called protein kinase B) signalling which is PtdIns(3,4,5)P(3)-dependent. Akt is upstream of several kinases involved in proliferation and apoptotic signalling which are often found to be deregulated or mutated in tumours. However, Akt is also the key enzyme in insulin signalling regulating glucose uptake and cell growth. Therefore PTEN has recently moved into the spotlight as a drug target in diabetes. This review summarizes studies undertaken on PTEN's role in glucose uptake, insulin resistance, diabetes and its controversial role in GLUT (glucose transporter)-mediated glucose uptake. Currently available techniques for inhibiting PTEN and the suitability of PTEN as a drug target will be discussed.
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PMID:Inhibiting PTEN. 1737 Dec 53

Tumour cells primarily utilize aerobic glycolysis for energy production, a phenomenon known as the Warburg effect. Its mechanism is not well understood. The tumour suppressor gene p53 is frequently mutated in tumours. Many tumour-associated mutant p53 (mutp53) proteins not only lose tumour suppressive function but also gain new oncogenic functions that are independent of wild-type p53, defined as mutp53 gain of function (GOF). Here we show that tumour-associated mutp53 stimulates the Warburg effect in cultured cells and mutp53 knockin mice as a new mutp53 GOF. Mutp53 stimulates the Warburg effect through promoting GLUT1 translocation to the plasma membrane, which is mediated by activated RhoA and its downstream effector ROCK. Inhibition of RhoA/ROCK/GLUT1 signalling largely abolishes mutp53 GOF in stimulating the Warburg effect. Furthermore, inhibition of glycolysis in tumour cells greatly compromises mutp53 GOF in promoting tumorigenesis. Thus, our results reveal a new mutp53 GOF and a mechanism for controlling the Warburg effect.
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PMID:Tumour-associated mutant p53 drives the Warburg effect. 2434 2

Cancer cells possess aberrant proteomes that can arise by the disruption of genes involved in physiological protein degradation. Here we demonstrate the presence of promoter CpG island hypermethylation-linked inactivation of DERL3 (Derlin-3), a key gene in the endoplasmic reticulum-associated protein degradation pathway, in human tumours. The restoration of in vitro and in vivo DERL3 activity highlights the tumour suppressor features of the gene. Using the stable isotopic labelling of amino acids in cell culture workflow for differential proteome analysis, we identify SLC2A1 (glucose transporter 1, GLUT1) as a downstream target of DERL3. Most importantly, SLC2A1 overexpression mediated by DERL3 epigenetic loss contributes to the Warburg effect in the studied cells and pinpoints a subset of human tumours with greater vulnerability to drugs targeting glycolysis.
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PMID:A DERL3-associated defect in the degradation of SLC2A1 mediates the Warburg effect. 2780 75