General etiology and pathogenesis: Causes of disease. Pathologies from Radiation, electric currents, thermal energy. free radicals.
- cellular adaptation and alterations in cell growth: hypertrophy, hyperplasia, atrophy, aplasia, hypoplasia, metaplasia, dysplasia, anaplasia.
- Cell damage: reversible and irreversible
-Cell death. Necrosis, Apoptosis, Autophagy
- Organization of the immune system: Phenotypic, morphological and functional characteristics of cellular components, and soluble mediators of innate immunity and specific immunity.
-Innate immunity: physical barriers, cells that participate in the innate response. Receptor systems for the recognition of pathogens. effector mechanisms of innate immunity; Phagocytosis.
-Inflammatory process: Inflammation as a defensive process. Definition. Causes of inflammation. angiophlogosis and histophlogosis. Signs and phases of acute inflammation. Cells of the inflammatory process. Chemical mediators (Complement: activation pathways and its biological functions, histamine, serotonin, arachidonic acid metabolites, cytokines). Vascular modifications. Exudates: types and composition, diversity from transudates. Diapedesis. Chemotaxis. Classification of acute inflammations (serous, fibrinous, catarrhal, purulent, necrotic-hemorrhagic,). Evolution of inflammatory outbreaks. Chronic inflammation. Granulomas: types. Systemic manifestations of the inflammatory process (acute phase proteins, leukocytosis, ESR, fever, endogenous and exogenous pyrogens, morphology of thermal curves; organic and metabolic changes in fever). Resolution of inflammation. Regeneration and connective reintegration. Wound healing.
-Specific immunity: Antigens, definition, hapten concept, epitope, immunogenicity.
Antibodies: structure and classes. Genetic basis of the Ig structure. Molecular mechanisms underlying antibody diversity. Clonal selection theory. Antigen-antibody reaction: valence, affinity and avidity
lymphocyte populations: stages of maturation of B and T lymphocytes; Antigen recognition by lymphocytes: receptor for the antigen of B lymphocytes (BcR) and T lymphocytes (TcR) and the genetic basis of their structure.
Major Histocompatibility Complex (MHC): Role in immune responses. Organization of class I and class II MHC genes. Structure, function, cellular distribution and regulation of the expression of class I and class II MHC molecules. Characteristics of the peptide-MHC interaction. Structural basis of the binding of peptides to MHC molecules. Processing and presentation of the antigen to T lymphocytes
Activation of B and T lymphocytes: phases of activation; effector mechanisms of humoral and cell-mediated specific immunity. Differentiation of CD4 + T lymphocytes into TH1, TH2 and TH17 helper T lymphocyte (TH) subpopulations. Role of cytokines in the differentiation phase and in the functions of T effector subpopulations.
The rejection of transplants as an immune phenomenon
Immunopathology: Hypersensitivity (classification and pathogenetic mechanisms), autoimmunity (main organ-specific and systemic autoimmune diseases), immunodeficiencies (AIDS)
Functional study of the R.I.
-Oncology:
Definition of oncogenes and tumor suppressor genes. Characteristics and biological behavior of the tumor cell.
Multiphase theory of carcinogenesis, Carcinogens.
Benign and malignant tumors.
Molecular mechanisms involved in invasion and metastasis. Immune surveillance: tumor specific antigens (TSTA, T antigens, embryonic antigens).
