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The Genetic Basis of Cancer

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Presentation on theme: "The Genetic Basis of Cancer"— Presentation transcript:

1 The Genetic Basis of Cancer
© John Wiley & Sons, Inc.

2 Cancer: A Genetic Disease
Oncogenes Tumor Suppressor Genes Genetic Pathways to Cancer

3 Cancer: A Genetic Disease
Mutations in genes that control cell growth and division are responsible for cancer. (cell proliferation and differentiation) Carcinogens  DNA mutations

4 Cancer Cancers arise when critical genes are mutated, causing unregulated proliferation of cells. These rapidly dividing cells pile up on top of each other to form a tumor. When cells detach from the tumor and invade surrounding tissues, the tumor is malignant and may form secondary tumors at other locations in a process called metastasis. A tumor whose cells do not invade surrounding tissues is benign.

5 Tumor – is a condition where there is abnormal cellular growth thus
forming a lesion or in most cases, a lump in some part of your body. Benign tumor – grows in confined area Malignant tumor – capable of invading surrounding tissues Cancer – degenerative disease with a cellular condition where there is uncontrolled growing mass of cells capable of invading neighboring tissues and spreading via body fluids to other parts of the body.

6 Named for site of origin
Carcinomas – epithelial cells; cover external & internal body surfaces (90%) Sarcomas – supporting tissue; bone, cartilage, fat, connective tissue, pancreas, Liver. Lymphoma & leukemias – blood & lymphatic tissue (leukemia reserved for cancers that reside in bloodstream not as solid tissue)

7 Genetic Mutations That Can Cause Cancer
Oncogenes Formed when proto-oncogenes that promote cell division are improperly activated May lead to increased expression of the gene in a new location production of fusion proteins with new functions

8 In cancer cells, the RAS gene product is locked into its GTP-binding shape and does not require a signal at the receptor in order to stimulate cell division Ras Proto-Oncogene In response to growth factor binding at receptor, the Ras gene product combines with GTP to promote cell division

9 Movement of a proto-oncogene on chromosome 8 to the vicinity of a highly active gene on chromosome 14 causes Burkitt’s lymphoma.

10 The Philadelphia Chromosome found in patients with Chronic Myeloid Leukemia causes a fusion protein to be made from a combination of genes on chromosomes 9 and 22.

11 Genetic Mutations That Can Cause Cancer
Tumor Suppressor Genes Genes that inhibit cell division are inactivated. Mutation in a gene that halts the cell cycle in G1 causes retinoblastoma. Mutation in p53, a gene that promotes apoptosis if a cell has damaged DNA, leads to a variety of cancers. Mutation in BRCA1, involved in tumor suppression and DNA repair, leads to inherited breast cancer.

12 In Normal Cells, the Rb Gene Product Controls the G1 S Transition
Rb = product of Retinoblastoma gene, inhibits action of E2F until chemically modified E2F = transcription factor required to activate genes for DNA synthesis CDK-cyclin (intracellular signal) modifies Rb so the E2F can mediate the G1S transition People prone to retinoblastoma have one mutated copy of the Rb gene (Rb-) and one normal copy (Rb+). Conversion of the Rb+ copy to Rb- by mutation leads to uncontrolled growth of retinal cells.

13 In Normal Cells, the p53 Gene Product Acts at the G1 S Checkpoint Preventing Entry Into S Phase If DNA Is Damaged p53 = transcription factor that causes p21 to be produced p21 inhibits intracellular signals that would activate EF2 Cells with damaged DNA do not pass the G1S checkpoint In cancer cells the mutated p53 gene product no longer stimulates p21 production. Cells will pass the G1 S checkpoint even when chromosomal damage exists.

14 In Normal Cells, the p53 Gene Product Stimulates Apoptosis If DNA Damage Cannot Be Repaired
p53 gives an internal signal for apoptosis In cancer cells, a mutated p53 gene product no longer initiates self-destruction. Cells with damaged DNA can divide and more DNA damage can be accumulated. p53 is the most frequently mutated of all known cancer-causing genes, contributing to many types of cancer.

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