Amancio Carnero scite author profile

PTEN/PI3K/AKT constitutes an important pathway regulating the signaling of multiple biological processes such as apoptosis, metabolism, cell proliferation and cell growth. PTEN is a dual protein/lipid phosphatase which main substrate is the phosphatidyl-inositol,3,4,5 triphosphate (PIP3), the product of PI3K. Increase in PIP3 recruits AKT to the membrane where it is activated by other kinases also dependent on PIP3. Many components of this pathway have been described as causal forces in cancer. PTEN activity is lost by mutations, deletions or promoter methylation silencing at high frequency in many primary and metastatic human cancers. Germ line mutations of PTEN are found in several familial cancer predisposition syndromes. Activating mutations which have been reported for PI3K and AKT, in tumours are able to confer tumourigenic properties in several cellular systems. Additionally, the binding of PI3K to oncogenic ras is essential for the transforming properties of ras. In summary, the data strongly support the view of the PTEN/PI3K/AKT pathway as an important target for drug discovery.

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A Proinflammatory Cytokine Inhibits P53 Tumor Suppressor Activity

Hudson¹,

Shoaibi²,

Maestro

et al. 1999

583

436

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p53 has a key role in the negative regulation of cell proliferation, in the maintenance of genomic stability, and in the suppression of transformation and tumorigenesis. To identify novel regulators of p53, we undertook two functional screens to isolate genes which bypassed either p53-mediated growth arrest or apoptosis. In both screens, we isolated cDNAs encoding macrophage migration inhibitory factor (MIF), a cytokine that was shown previously to exert both local and systemic proinflammatory activities. Treatment with MIF overcame p53 activity in three different biological assays, and suppressed its activity as a transcriptional activator. The observation that a proinflammatory cytokine, MIF, is capable of functionally inactivating a tumor suppressor, p53, may provide a link between inflammation and tumorigenesis.

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Inhibition of HSP90 molecular chaperones: moving into the clinic

Garcia-Carbonero¹,

Carnero²,

Paz‐Ares³

2013

The Lancet Oncology

317

344

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PTEN, more than the AKT pathway

et al. 2007

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Phosphatase and tensin homolog deleted on chromosome 10 (PTEN)/phosphatidylinositol 3-kinase (PI3K)/AKT constitute an important pathway regulating the signaling of multiple biological processes such as apoptosis, metabolism, cell proliferation and cell growth. PTEN is a dual protein/lipid phosphatase and its main substrate phosphatidyl-inositol 3,4,5 triphosphate (PIP3) is the product of PI3K. Increase in PIP3 recruits AKT to the membrane where is activated by other kinases also dependent on PIP3. Many components of this pathway have been described as causal forces in cancer. PTEN activity is lost by mutations, deletions or promoter methylation silencing at high frequency in many primary and metastatic human cancers. Germ line mutations of PTEN are found in several familial cancer predisposition syndromes. Recently, many activating mutations in the PI3KCA gene (coding for the p110a catalytic subunit of PI3K) have been described in human tumors. Activation of PI3K and AKT are reported to occur in breast, ovarian, pancreatic, esophageal and other cancers. Genetically modified mice confirm these PTEN activities. Tissue-specific deletions of PTEN usually provoke cancer. Moreover, an absence of PTEN cooperates with an absence of p53 to promote cancer. However, we have observed very different results with the expression of activated versions of AKT in several tissues. Activated AKT transgenic lines do not develop tumors in breast or prostate tissues and do not cooperate with an absence of p53. This data suggest that an AKT-independent mechanism contributes to PTEN tumorigenesis. Crosses with transgenic mice expressing possible PTEN targets indicate that neither cyclin D1 nor p53 are these AKT-independent targets. However, AKT is more than a passive bridge toward PTEN tumorigenesis, since its expression not only allows but also enforces and accelerates the tumorigenic process in combination with other oncogenes. The PTEN/AKT pathwayPhosphatase and tensin homolog deleted on chromosome 10 (PTEN) is a dual lipid and protein phosphatase. Its primary target is the PIP3 (1), the direct product of the phosphatidylinositol 3-kinase (PI3K). Loss of PTEN function, either in murine embryonic stem cells or in human cancer cell lines, results in accumulation of PIP3 mimicking the effect of PI3K activation and triggering the activation of its downstream effectors, PDK1, AKT/PKB and Rac1/cdc42. PDK1 contains a C-terminal pleckstrin homology domain, which binds the membrane-bound PIP3 triggering PDK1 activation. Activated PDK1 phosphorylates AKT at thr308 activating its serine-threonine kinase activity (100-fold over the basal). Once phosphorylated in T308, further activation occurs by PDK2 (the complex rictor-mTOR or DNA-PK) by phosphorylation at S473. AKT activation stimulates cell cycle progression, survival, metabolism and migration through phosphorylation of many physiological substrates (2-6). AKT is a serinethreonine kinase downstream of PTEN/PI3K that has three family members: AKT1, AKT2 and AKT3, which are encoded by three di...

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Roscovitine Targets, Protein Kinases and Pyridoxal Kinase

Bach¹,

Knockaert²,

Reinhardt³

et al. 2005

Journal of Biological Chemistry

327

250

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(R)-Roscovitine (CYC202) is often referred to as a "selective inhibitor of cyclin-dependent kinases." Besides its use as a biological tool in cell cycle, neuronal functions, and apoptosis studies, it is currently evaluated as a potential drug to treat cancers, neurodegenerative diseases, viral infections, and glomerulonephritis. We have investigated the selectivity of (R)-roscovitine using three different methods: 1) testing on a wide panel of purified kinases that, along with previously published data, now reaches 151 kinases; 2) identifying roscovitine-binding proteins from various tissue and cell types following their affinity chromatography purification on immobilized roscovitine; 3) investigating the effects of roscovitine on cells deprived of one of its targets, CDK2. Altogether, the results show that (R)-roscovitine is rather selective for CDKs, in fact most kinases are not affected. However, it binds an unexpected, non-protein kinase target, pyridoxal kinase, the enzyme responsible for phosphorylation and activation of vitamin B 6 . These results could help in interpreting the cellular actions of (R)-roscovitine but also in guiding the synthesis of more selective roscovitine analogs.

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Amancio Carnero

The PTEN/PI3K/AKT Signalling Pathway in Cancer, Therapeutic Implications

A Proinflammatory Cytokine Inhibits P53 Tumor Suppressor Activity

Inhibition of HSP90 molecular chaperones: moving into the clinic

PTEN, more than the AKT pathway

Roscovitine Targets, Protein Kinases and Pyridoxal Kinase

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