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Transcript
The Cell Cycle Day 3 Cancer: Out of Control Cell Division • The defining feature of a cancerous cell is that is divides much more often than is healthycreating a stack of cells called a tumor • How does it do that? It has to bypass all the checkpoints that tell it to stop dividing The Basics of Cell Division • G1: Cell Growth, makes duplicate organelles, increase in size • S phase: Duplicates all the chromosomesphotocopying of information • G2: More growth, time needed to gain strength for mitosis • Mitosis- Cell divides up the chromosomes so each of the new daughter cells has all the information • Cytokinesis- The cell breaks into two cells http://www.daviddarling.info/encyclopedia/C/cell_cycle.html Key Regulation Points • G1 check point before S phase (DNA replication) can start, pass if: – Nutrients sufficient – Growth factors present- there is a need for more cells – Cell is big enough – DNA is undamaged Key Regulation Points • G2 check point before Mitosis – Chromosome replication completed – No DNA damage – Active signals to start mitosis (chemicals in the cytoplasm) • Metaphase check point before cell splits – All chromosomes are aligned to be equally passed down to the new cells Thinking like Cancer • Which regulation point(s) would prevent cancerous growth? • What are a few ways cancerous cells could bypass those points? How do checkpoints work? Hypothesis: The cell cycle is directed by specific signaling molecules present in the cytoplasm How would you design an experiment to test this hypothesis? • Materials: – Cells in culture – Any measurement device • Think about: • What data are relevant? • How long will your experiment take? What do we know so far? • Still working out all the chemical and physical signals. • Over 50 growth factors have been identified • Different cell types respond differently to different growth factors PDGF Contact inhibition • Normal cells form only a monolayer in culture • Why? Anchorage dependence • Normal cells must have a surface on which to grow or a tissue attachment to continue replicating. • Why? Telomeres- fingerprints of cancer • Cancer often has specific characteristics related to too much division • Each time the cell divides it replicates its chromosomes- increasing the chance for mutation and shortening the telomere (the end of the chromosome) Discovery of telomerase • Telomerase re-lengthens the chromosome to enable division to continue • Cancer cells have to increase telomerase activity so that they do not die • This is a key regulation step of a cell’s lifespan
