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Apoptosis Oncogenes Srbová Martina Cell Cycle Control point Cyclin B Cdk1 Cyclin D Cdk4 Cdk6 Cyclin A Cdk2 Cyclin E Cdk2 Cyclin-dependent kinase (Cdk) have to bind a cyclin to become active Regulation of Cell Cycle 1. Cyclin-dependent kinase (Cdk) cyclin Phase specific synthesis Phase-specific phosphorylation of proteins required in the cell cycle Regulation of Cell Cycle 2. Retinoblastoma protein (pRb) E2F Gene transcription: DNA polymerase, dihydrofolate reductase, thymidin kinase, S phase cyclin Regulation of Cell Cycle 3. Protein p53, the guardian of the genome Great DNA damage high p53 conc. In over 50% of cancers, the p53 genes are muted or lost. Regulation of Cell Cycle 4. Growth factor signal transduction PDGF PDGF PDGFR ↑conc. of GF cell division GF receptor – tyrosin kinase domain PDGF activates Ras Ras-GTP activates a kinase cascade Ras inactivates itself Mutation in Ras gen – 30% of human cancer Y – tyrosin residues Jun, Fos APOPTOSIS Apoptosis • Programmed cell death • Elimination of unwanted cells - embryonic development - diseased cells, - tumor cells, - cells with irreparably damaged DNA • shrinking of nucleus, chromatin condensation • formation of small blebs – apoptotic bodies • Without inflammatory response http://medicinembbs.blogspot.cz/2011/03/programmed-cell-death-apoptosis.html Membrane blebbing Fagocytosis Apoptotic bodies Apoptosis Perforin Granzyme B Caspase – cystein-containing aspartate proteinases Death receptor pathway (extrinsic pathway) DISC – death inducing signaling complex Source: http://accessscience.com/content/Death%20receptors/YB100016 Mitochondrial pathway (intrinsic pathway) Bak and Bax oligomerize to form pores cytochrome c passes into cytoplasm Substrate proteolysis results in apoptosis Bcl-2-like proteins: 1) pro-apoptic BAX, BAK, BID 2) anti-apoptic Bcl-2, Bcl-XL Apaf1 – apoptotic protease activating factor 1 Integration between the death receptor and mitochondrial pathway Death receptor pathway Mitochondrial pathway Apoptotic signal Truncated BID Cytochrom c Apaf- 1 Caspase 8 Execution caspases Caspase 9 Substrates of execution caspases Caspases Caspase – cystein-containing aspartate proteinases Initiator caspases 2,8,9 Execution caspases 3,6,7 Caspases are created from inactive procaspases Procaspase 8 Caspase 8 Active caspase Caspases Target molecules: Lamins Poly-ADP-ribosa-polymerase (PARP) DNA-dependent proteinkinase Actin Detection of apoptosis Exposition of fosfatidyl serine – annexin V http://www.nature.com/nrm/journal/v2/ n8/fig_tab/nrm0801_627a_F2.html http://clip.lf2.cuni.cz/file/8.pdf Detection of apoptosis DNA fragmention – DNA ladder http://www.mnc.toho-u.ac.jp/v-lab/macrophage/english/eng02.html http://www.itsbio.co.kr/main/goods_view.php?category2=60&no=129 ONCOGENES ONCOGENES • Proto-oncogenes – genes that encode proteins that promote cell division or that promote resistence to apoptosis • Their activating mutation or overexpression results in increased actvity unregulated cell division or resistence to apoptosis • Mutations in proto-oncogens oncogens • Only one allele of proto-oncogene needs to be converted to an oncogene to cause a pro-proliferative or anti-apoptic effect in a cell Transforming mutation in proto-oncogenes Protooncogenes Activators of cell division • • • • • Growth factors ( PDGF) Growth factor receptor (PDGFR) Kinases and kinase cofactors (Cyklins, Cdk, MAPKs) Transcription factors (Myc, Jun, Fos, E2F) Signal transduction proteins ( Ras) Activators of apoptic resistence • Apoptosis regulators ( Bcl-2, Bcl-XL, Mdm2) Tumor suppressor genes • Products of tumor supresssor genes suppress the cell division cycle or promote apoptosis • Tumor suppressor gene must lose activity to contribute to cancer • Both alleles of a tumor suppressor gene must be inactivated or lost in order to eliminate their tumor suppression activity from a cell • Retinoblastoma (rb) and p53 genes • BRCA1, BRCA2 Summary • Apoptosis can protect organisms from the negative effect of mutation by destroying cells with irreparably damaged DNA before they proliferate. • Just as an excess of growth signal can produce an excess of unwanted cells, the failure of apoptosis to remove excess or damadged cells can contribute to the cancer. • Transformation into a malignant cell results from abnormalities in the normal growth regulatory program caused by gain-of- function mutation in proto-oncogens. • However, loss-of-function mutation also must occur in the tumor suppressor genes for full transformation to a cancer cell Sources: • Devlin, T. M. Textbook of biochemistry: with clinical correlations. 6th edition. Wiley-Liss, 2006. • Marks´ Basic Medical Biochemistry, A Clinical Approach, third edition, 2009 (M. Lieberman, A.D. Marks) • Color Atlas of Biochemistry, second edition, 2005 (J. Koolman and K.H. Roehm)
