23.1 Cancer Is a Group of Diseases Characterized by Cell Proliferation.

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Presentation transcript:

23.1 Cancer Is a Group of Diseases Characterized by Cell Proliferation

Tumor Formation: A Distinct Mass of Abnormal Cells Benign tumor: the tumor remains localized. Malignant tumor: tumor cells invade other tissues. Metastasis: the tumor cells induce secondary tumors.

Cancer as a Genetic Disease The clonal evolution of tumors The tumor cells acquire more mutations that allow them to become increasingly more aggressive in their proliferate properties.

Role of Environmental Factors in Cancer

23.2 Mutations in a Number of Different Types of Genes Contribute to Cancer

Oncogenes and Tumor-Suppressor Genes Oncogene: dominant-acting stimulatory genes that cause cancer Proto-oncogenes: responsible for basic cellular functions in normal cells; when mutated, they become oncogenes.

Tumor-Suppressor Genes Inhibit cancer and recessive acting; when mutated, normal cells become cancerous.

Genes That Control the Cycle of Cell Division Checkpoints that halt cell division Initiators that act as signals to begin cell divsion

Signal-transduction pathways A cascade of intracellular reactions DNA repair genes Genes that regulate telomerase Inappropriate activation of telomerase may lead to cancer. Genes that promote vascularization and the spread of tumors

23.3 Changes in Chromosome Number and Structure Are Often Associated with Cancer Example: A reciprocal translocation between chromosome 9 and 22 causes chronic myelogenous leukemia.

23.4 Viruses Are Associated with Some Cancers Retroviruses cause cancer by mutating and rearranging proto-oncogenes inserting strong promoters near proto- oncogenes

23.5 Changes in DNA Methylation Are Often Associated with Cancer Epigenetic process: Reversible genetic alterations

23.6 Colorectal Cancer Arises Through the Sequential Mutation of a Number of Genes