Neoplasia II & III: Understanding the Mechanisms and Impact of Cancer

1. NEOPLASIA II & III PongsakMahanupab, M.D. Department of Pathology Faculty of Medicine Chiang Mai University connectnigeria.com Path351 – Sept.,2016

2. วัตถุประสงค์ 1. ทราบกลไกและขั้นตอนการเกิดเนื้องอก 2. ทราบสิ่งที่สามารถก่อให้เกิดเนื้องอก 3. ทราบความสำคัญและผลของเนื้องอกต่อคน 4. ทราบปฏิกิริยาที่คนใช้ต่อต้านเนื้องอก 5. ทราบวิธีวินิจฉัยมะเร็งทางห้องปฏิบัติการ 6. ทราบวิธีการแบ่งขั้นและระยะของมะเร็งทางคลินิก

3. REFERENCES Standard textbooks of pathology - Robbins - Anderson • Rubin • Websites

4. NEOPLASIA Benigntumor Malignanttumor(cancer) Crab

5. CANCER

6. CANCER The common term for all malignant tumors

8. Alltumorshavetwobasiccomponents. 1.Parenchyma - parenchymalcells 2. Stroma - connectivetissue - bloodvessels - lymphaticvessels - collagenbundle, etc. Desmoplasia = theformationofanabundantcollagenousstroma

9. MOLECULAR BASISOF CANCER

10. Carcinogenesis is a multistep processat both phenotypic and genetic levels

11. Certain tumor arises from one single cell

12. Nonlethal genetic damage - Genetic damage = Mutation

13. In normal cell Four classes of normal regulatory genes

14. 1. Growth-promoting proto-oncogenes - Promote normal growth and differentiation - Proto-oncogene - RAS, WNT, MYC, ERK, and TRK Oncogene

15. 2. Growth-inhibiting cancer suppressor genes (anti-oncogenes)- p53, BRCA1, BRCA2, APC and RB1 - Regulate cell growth - Not to prevent tumor formation

16. 3. Genes that control programmed cell death (apoptosis)

17. 4. Genes that regulate repair of damaged cells

18. ESSENTIAL ALTERATIONS FOR MALIGNANT TRANSFORMATION • Self-sufficiency in growth signals • Insensitivity to growth-inhibitory signals • Evasion of apoptosis

19. ESSENTIAL ALTERATIONS FOR MALIGNANT TRANSFORMATION • Limitless replicative potential • Sustained angiogenesis • Ability to invade and metastasize • Defects in DNA repair

20. They are the TARGETS of genetic damage

21. BIOLOGY OF TUMOR GROWTH 1. Transformation 2. Growth of transformed cell 3. Local invasion 4. Distant metastasis

22. Malignant cell Normal cell

23. CARCINOGENIC AGENTS 1. CHEMICALS Two stages - INITIATION - cause permanent DNA damage, irreversible, has memory - PROMOTION - promoter (nontumorogenic) - reversible

25. MAJOR CHEMICAL CARCINOGENS 1. Direct-Acting Carcinogens Alkylating agents - Anticancer drugs etc. Acylating agents

26. MAJOR CHEMICAL CARCINOGENS 2. Procarcinogens that require metabolic activation - Polycyclic and heterocyclic aromatic hydrocarbons - Aromatic amines, amides, azo dyes - Natural plants and microbial products (Aflatoxin B1, betel nuts) - Others (nitrosamines and amides, vinyl chloride, nickel, chromium, insecticides, fungicides etc.)

27. 2. RADIATION - UV (A,B,C) - Ionizing radiation and particles

28. 3. VIRUS - DNA ONCOGENIC VIRUS Adenovirus Human papilloma virus Epstein-Barr virus Hepatitis B virus - RNA ONCOGENIC VIRUS HTLV - 1

29. PREDISPOSITION FOR NEOPLASIA • GEOGRAPHIC AND RACIAL FACTORS - Sex

31. 2. AGE - Incidence and age - Childhood < 1 year Neuroblastoma Wilms’ tumor Rhabdomyosarcoma Retinoblastoma

32. 3. ENVIRONMENTAL AND CULTURAL FACTORS - Asbestos, vinyl chloride, 2-Napthylamine - UV, drugs - ALCOHOL : - cancer of oropharynx (excluding lips, larynx, esophagus) - Alcoholic hepatitis - Hepatocellular carcinoma

33. - CIGARETTE SMOKING : cancer of lung, lip, pharynx,pancreas, urinary bladder - VIRAL INFECTION: cancer of cervix (HPV)

34. 4. HEREDITARY - Lung cancer - Breast cancer - Retinoblastoma - Osteogenic sarcoma - Multiple polyposis coli - in general 3 times

35. Inherited Predisposition to Cancer 1. Inherited cancer syndromes (Autosomal Dominant) Strong family history of uncommon cancer and /or associated marker phenotype - Retinoblastoma (familial) - Familial adenomatous polyps of colon - Multiple endocrine neoplasia syndrome - Neurofibromatosis types 1 and 2 - Von Hippel-Lindau syndrome

36. Inherited Predisposition to Cancer 2. Familial cancers Evident familial clustering of cancer but role of inherited predisposition may not be clear in an individual case - Breast cancer - Ovarian cancer - Colon cancer

37. Inherited Predisposition to Cancer 3. Autosomal recessive syndromes of defective DNA repair - Xerodermapigmentosum - Ataxia-telangiectasia - Bloom syndrome - Fanconi syndrome

38. 5. PREDISPOSING FACTORS PRECANCEROUS LESIONS - Endometrial hyperplasia - Cervical dysplasia - Bronchial mucosal metaplasia and dysplasia

39. - Cirrhosis - Chronic atrophic gastritis - Solar keratosis - Chromosomal breakage syndrome - Ulcerative colitis - Leukoplakia

40. BIOLOGY OF TUMOR GROWTH 1. Transformation 2. Growth of transformed cell 3. Local invasion 4. Distant metastasis

42. KINETICS OF TUMOR CELLS • Proliferative pool • Nonproliferative pool

44. Cell cycle time of tumor cells are longer than or equal to that of normal cells • Growth fraction

45. TUMOR ANGIOGENESIS • NEW CAPILLARY FORMATION • Tumor-associated angiogenic factor from tumor cells or macrophages • eg. Basic fibroblast growth factor (bFGF), vascular endothelial growth factor (VEGF)

46. Chemotactic and mitogenic factors for endothelial cells • Induce production of proteolytic enzyme that allows penetration of the stroma by endothelial cells

47. BIOLOGY OF TUMOR GROWTH 1. Transformation 2. Growth of transformed cell 3. Local invasion 4. Distant metastasis

48. MECHANISM OF INVASION AND METASTASIS

49. Two phases 1. Invasion of extracellular matrix (basement membranes and interstitial tissue) - Detachment of tumor cells (loss of epithelial cadherins) - Attachment of matrix component

50. - Degradation of ECM (proteolytic enzymes liberate from tumor cells, fibroblasts or macrophages) - Migration of tumor cells