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Cancer biology

Cancer biology. 3-5-2014. Instead of external signalling. 1- They may produce growth factor ligands themselves, to which they can respond via the expression of cognate receptors, resulting in autocrine proliferative stimulation.

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Cancer biology

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  1. Cancer biology 3-5-2014 Dr. Saeb Aliwaini

  2. Dr. Saeb Aliwaini

  3. Dr. Saeb Aliwaini

  4. Dr. Saeb Aliwaini

  5. Dr. Saeb Aliwaini

  6. Dr. Saeb Aliwaini

  7. Dr. Saeb Aliwaini

  8. Dr. Saeb Aliwaini

  9. Dr. Saeb Aliwaini

  10. Dr. Saeb Aliwaini

  11. Dr. Saeb Aliwaini

  12. Dr. Saeb Aliwaini

  13. Dr. Saeb Aliwaini

  14. Dr. Saeb Aliwaini

  15. Dr. Saeb Aliwaini

  16. Dr. Saeb Aliwaini

  17. Dr. Saeb Aliwaini

  18. Dr. Saeb Aliwaini

  19. Dr. Saeb Aliwaini

  20. Dr. Saeb Aliwaini

  21. Instead of external signalling 1- They may produce growth factor ligands themselves, to which they can respond via the expression of cognate receptors, resulting in autocrine proliferative stimulation. 2- Alternatively, cancer cells may send signals to stimulate normal cells within the supporting tumor-associated stroma, which reciprocate by supplying the cancer cells with various growth factors Dr. Saeb Aliwaini

  22. Receptor signalling can also be deregulated by elevating the levels of receptor proteins displayed at the cancer cell surface. • Growth factor independence may also derive from the constitutive activation of components of signalling pathways operating downstream of these receptors, obviating the need to stimulate these pathways by ligand-mediated receptor Activation ( RAS) Dr. Saeb Aliwaini

  23. Somatic Mutations Activate Additional Downstream Pathways • somatic mutations in certain human tumors that predict constitutive activation of signalling circuits • Thus, we now know that40% of human melanomas contain activating mutations affecting the structure of the B-Raf protein, resulting in constitutive signalling through the Raf to mitogen-activated protein (MAP)-kinase pathway Dr. Saeb Aliwaini

  24. Dr. Saeb Aliwaini

  25. Dr. Saeb Aliwaini

  26. Similarly, mutations in the catalytic subunit of phosphoi-nositide 3-kinase (PI3-kinase) isoforms are being detected in an array of tumor types, which serve to hyperactivate the PI3-kinase signaling circuitry, including its key Akt/PKB signal transducer Dr. Saeb Aliwaini

  27. Disruptions of Negative-Feedback Mechanisms thatAttenuate Proliferative Signalling • The prototype of this type of regulation involves the Ras oncoprotein: the oncogenic effects of Ras do not result from a hyperactivation of its signalling powers only ; instead, the oncogenic mutations affecting ras genes compromise Ras GTPase activity, which operates as an intrinsic negative-feedback mechanism that normally ensures that active signal transmission is transitory. Dr. Saeb Aliwaini

  28. Analogous negative-feedback mechanisms operate at multiple nodes within the proliferative signaling circuitry. Aprominent example involves the PTEN phosphatase, which counteracts PI3-kinase by degrading its product, phosphatidylinositol (3,4,5) trisphosphate (PIP3). • Loss-of-function mutations in PTEN amplify PI3K signaling and promote tumorigenesis in a variety of experimental models of cancer; in human tumors, PTEN expression is often lost by promoter methylation Dr. Saeb Aliwaini

  29. Classic' PTEN pathway. Binding of ligand to membrane receptors activates PI3K. Activated PI3K phosphorylates PI(3,4)P (PIP2) to produce PI(3,4,5)P (PIP3). PIP3 recruits PDK1 to the plasma membrane. PDK1 phosphorylates and activates AKT, which regulates various cellular processes. The lipid phosphatase activity of cytoplasmic PTEN dephosphorylates PIP3, thereby decreasing PIP3 levels and increasing levels of PIP2, resulting in a concomitant decrease in AKT activity. Dr. Saeb Aliwaini

  30. Yet another example involves the mTOR kinase, a coordinator of cell growth and metabolism that lies both upstream and down-stream of the PI3Kpathway. • In the circuitry of some cancer cells, mTOR activation results, via negative feedback, in the inhibition of PI3K signalling. Thus, when mTOR is pharmacologically inhibited in such cancer cells (such as by the drug rapamycin), the associated loss of negative feedback results in increased activity of PI3K and its effector Akt/PKB, thereby blunting the antiproliferative effects of mTOR inhibition Dr. Saeb Aliwaini

  31. Schematic representation of the PI3K/Akt/mTOR pathway. Binding of insulin or IGF to transmembrane receptors leads to activation mTOR via PI3K and Akt. Activation of mTOR promotes protein synthesis, cell growth, and cytoskeletal modeling, important factors stimulating malignant progression and spread. A possible mechanism of tumor cell resistance to mTOR inhibition in some tumor types may be the abrogation of negative feedback on the PI3K/Akt/mTOR pathway by S6K1, a target protein of mTOR. IGF, insulin-like growth factor; IRS, insulin receptor substrate; PI3K, phosphatidylinositol 3-kinase; Akt, also known as protein kinase B; mTOR, mammalian target of rapamycin; S6K1, ribosomal S6 kinase 1; 4EBP1, eukaryotic translation initiation factor 4E binding protein. Dr. Saeb Aliwaini

  32. Excessive Proliferative Signalling Can Trigger CellSenescence • excessively elevated signalling by oncoproteins such as RAS, MYC, and RAF can provoke counteracting responses from cells, specifically induction of cell senescence and/or apoptosis. • cancer cells may adapt to high levels of oncogenic signalling by disabling their senescence- or apoptosis-inducing circuitry. Dr. Saeb Aliwaini

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