Cancer: The Role of the Cell Cycle & Genomics

1. Cancer: The Role of the Cell Cycle & Genomics

2. Genes & Evolution Recap • Review of Evolutionary Processes: http://ed.ted.com/lessons/myths-and-misconceptions-about-evolution-alex-gendler • Genetic Mutations and Disease • http://ed.ted.com/lessons/what-happens-when-your-dna-is-damaged-monica-menesini

3. Proliferation vs. Differentiation Differentiation Proliferation

4. Stem Cell Types http://learn.genetics.utah.edu/content/stemcells/scintro/

5. Somatic Stem Cells • http://learn.genetics.utah.edu/content/stemcells/sctypes/

6. Proto-oncogenes • = normal genes that code for normal proteins used in cell division • Growth factors • Growth factor receptors • G proteins • Enzymes that produce second messengers • Genes that turn production of these proteins on & off

7. Oncogenes • Oncogenes = mutated proto-oncogenes  still code for proteins needed for cell division • But they might produce • Too much of the protein • An abnormal protein • Protein that turns on all by itself • Protein that is made when it is not needed • Protein that cannot turn cell division off • Protein that should be made by a different cell

8. Tumor Suppressor Genes = a gene that protects a cell from one step on the path to cancer. When this gene mutates to cause a loss or reduction in its function, the cell can progress to cancer, usually in combination with other genetic changes. Video: http://ed.ted.com/lessons/the-cancer-gene-we-all-have-michael-windelspecht

9. THINK/PAIR/SHARE – 10 minutes • What is the cell cycle? • Can you list the steps? • How is it related to cancer?

11. Cell Cycle Activity • http://www.hhmi.org/biointeractive/eukaryotic-cell-cycle-and-cancer

12. Cancer & the Cell Cycle • The eukaryotic cell cycle is a sequence of events that culminate in cell division. • The cell cycle events are regulated by various checkpoint proteins, which either stimulate or inhibit cell division until conditions are right to proceed to the next phase. • When a cell specializes (or differentiates), it generally stops dividing and "exits" the cell cycle. Once differentiated, some cells can divide again. • Cancer is the uncontrolled division of cells, which results from an improperly regulated cell cycle.

13. Cancer as a Genetic Disease • http://www.hhmi.org/biointeractive/cancer-genetic-disease-video-highlights

15. What is cancer? • Neoplasm= new abnormal growth = tumor  due to aberrant cell growth • Do not wait for signals that new tissue is needed • Ignore signals to stop dividing • Often do not differentiate • Loss of apoptosis • Carcinogenesis = production or origination of cancer cells

16. Summary Videos • How do cancer cells act differently: http://ed.ted.com/lessons/how-do-cancer-cells-behave-differently-from-healthy-ones-george-zaidan

17. Steps of Oncogenesis 1. 2. 3.

18. Metastasis • Cells in a primary tumor develop ability to escape & enter bloodstream • Imagine you were a cancer cell. What abilities would you need to survive in the tumor? • What abilities would you need to metastasize? • Relationship to dysplasia? • Video: How Does Cancer Spread?: http://ed.ted.com/lessons/how-does-cancer-spread-through-the-body-ivan-seah-yu-jun

19. Tumor Classification • Benign • Similar to cell of origin • look like normal tissue cells • May perform normal function (like secreting hormones)  oversecretion • Do not usually metastasize • usually encapsulated • Compress locally • Slow growth rate • Seldom reoccur after removal • Malignant • Dissimilar to cell of original • Undifferentiated cells that divide rapidly • Cells mutate faster & can change type • Do not have clear boundaries  sends “legs” out into surrounding tissue • Do not perform normal functions • May secrete hormones associated with other tissues • Necrosis & ulceration common • Seldom encapsulated • Metastastic

20. The Nature of Cancer • http://media.hhmi.org/hl/03Lect1.html?_ga=1.18733113.1054808674.1468863809

21. Carcinogens • = substances that induce neoplastic growth • 3 types • Chemicals  tobacco smoke, automobile exhaust, insecticides, drugs/therapeutic agents (dosage-dependent) • Physical  ionizing radiation (sun, x-rays, radioactive elements) • Viral  viruses alter genome • Some are oncogenic  Epstein-Barr & HPV • Also consider role played by lifestyle

22. Risk Factors • Air pollution • Tobacco & alcohol • Occupation • Radiation • Sexual practices • Diet • Age • Genetics

24. Cancer Treatment • Surgery • Radiation Therapy • Chemotherapy • Hormone & Antihormone Therapy • Biotherapy

25. Diagnostic Tests • MRI, PET, or CT scans • Screening tests • Endoscopy • Ultrasonography

26. Clinical Manifestations of Cancer • Cancer anorexia-cachexia syndrome

27. Nomenclature of Neoplams • Based on its behavior & growth • Benign  add “oma” at end for connective tissue origin • Malignant  • add “sarcoma” for connective tissue origin • Add “adenosarcoma” for glandular origin • Based on cell of origin • Prefix  cell of origin • Suffice  denotes whether benign or malignant

28. Nomenclature Examples Cells of originBehavior of growth Benign Malignant Adipose lipoma liposarcoma Bone cells osteoma osteosarcoma Blood vessels hemangioma hemangiosarcoma Fibrous tissues fibroma fibrosarcoma