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Download CELL ADAPTATIONS CELL INJURY CELL DEATH DR.SAMINA
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Transcript
CELL ADAPTATIONS CELL INJURY CELL DEATH DR.SAMINA QAMAR AP PATHOLOGY. OBJECTIVES Understand the concepts of cellular growth adaptations---Hyperplasia, Hypertrophy, Atrophy, Metaplasia, Dysplasia Reversible, irreversible cell injury OBJECTIVES Understand the pathologic mechanisms at the SUB-cellular level---ATP, Mitochondria, Ca++, Free Radicals, Membranes Understand and differentiate the concepts of APOPTOSIS and NECROSIS Understand SUB-cellular responses to injury---Lysosomes, Smooth endoplasmic reticulum, Mitochondria, Cytoskeleton OBJECTIVES Identify common patterns of cellular swelling and fatty change. Cell aging To maintain a steady state of structure and function is HOMEOSTASIS Cellular response to injury • Non-lethal injury: cell will adapt • Hypoxia, chemical injury, infection: Reversible injury will result in fatty change. Irreversible injury will result in death • Repeated Injury: cellular aging ADAPTATIONS: Non-lethal injury. • Altered/changed steady state in structure and function of cell. • WHY: In response to physical/ pathological stimuli. Increased or decreased stimulation or any irritation. The –plasia brothers • HYPER• HYPO- (A-) • NORMO- • META• DYS• ANA• “Frank” ANA- HYPER-PLASIA IN-CREASE IN NUMBER OF CELLS, if they can divide. Examples: Endometrium,breast,liver. The –trophy brothers • HYPER• HYPO- (A-) • DYS- HYPER-TROPHY IN-CREASE IN SIZE OF CELLS Examples:Myocardium, Myometrium, Muscle Hypertrophy v/s Hyperplasia. Can both occur simultaneously? A-TROPHY*? DE-CREASE IN SIZE OF CELLS? YES IN CELL SIZE DUE TO LOSS OF CELL SUBSTANCE SHRINKAGE • • • • • • • ATROPHY DECREASED WORKLOAD DENERVATION DECREASED BLOOD FLOW DECREASED NUTRITION AGING (involution) PRESSURE “EXHAUSTION” Examples: Brain, Muscle. METAPLASIA • A SUBSTITUTION of one NORMAL CELL or TISSUE type, for ANOTHER – COLUMNAR SQUAMOUS (Cervix) – SQUAMOUS COLUMNAR (Esophagus) – FIBROUS BONE –WHY? Examples: Respiratory epithelium, Barrett’s, myositis ossificans. Dysplasia: disorganized epithelium. Dysplasia: Normal-hyperplasia-dysplasiacarcinoma. CELL DEATH CELL DEATH What is DEATH? –DEATH is IRREVERSIBLE –But in cell its either reversible or irreversible. • APOPTOSIS vs. NECROSIS REVERSIBLE CHANGES • REDUCED oxidative phosphorylation • ATP depletion • Cellular “SWELLING” IRREVERSIBLE CHANGES • MITOCHONDRIAL IRREVERSIBILITY • IRREVERSIBLE MEMBRANE DEFECTS • LYSOSOMAL DIGESTION REVERSIBLE = INJURY IRREVERSIBLE = DEATH SOME INJURIES CAN LEAD TO DEATH IF PROLONGED and/or SEVERE enough CELL DEATH • APOPTOSIS (“normal” death) programmed death. • NECROSIS (“premature” or “untimely” death Death is of two types INJURY CAUSES (REVERSIBLE) Hypoxia, (decreased O2) PHYSICAL Agents CHEMICAL Agents INFECTIOUS Agents Immunologic Genetic Nutritional CHEMICAL INJURY • “Toxic” Chemicals, e.g CCl4 • Drugs, e.g tylenol • Dose Relationship • Free radicals, organelle, DNA damage INJURY MECHANISMS (REVERSIBLE) DECREASED ATP MITOCHONDRIAL DAMAGE INCREASED INTRACELLULAR CALCIUM INCREASED FREE RADICALS INCREASED CELL MEMBRANE PERMEABILITY What is Death? What is Life? •DEATH is –IRREVERSIBLE MITOCHONDRIAL DYSFUNCTION –PROFOUND MEMBRANE DISTURBANCES LIFE is……..??? Till death hasn’t occurred. DEATH: ELECTRON MICROSCOPY B-Microvillus incorporated in cell, Blebs extruded from cell. C- Mitochondrial swelling. DEATH:PINK IN LIGHT MICROSCOPY Nuclei LIQUEFACTIVE NECROSIS, BRAIN FIBRINOID NECROSIS APOPTOSIS: falling off. •NORMAL (preprogrammed) •PATHOLOGIC (associated with Necrosis) “NORMAL” APOPTOSIS • Embryogenesis • Hormonal “Involution” • Cell population control, e.g., “crypts” • Post Inflammatory “Clean-up” • Elimination of “HARMFUL” cells • Cytotoxic T-Cells cleaning up “PATHOLOGIC” APOPTOSIS • “Toxic” effect on cells, e.g., chemicals, pathogens • Duct obstruction • Tumor cells • Apoptosis/Necrosis spectrum APOPTOSIS MORPHOLOGY • DE-crease in cell size, i.e., shrinkage • IN-crease in chromatin concentration, i.e., hyperchromasia, pyknosis karyorhexis karyolysis • IN-crease in membrane “blebs” • Phagocytosis SHRINKAGE/HYPERCHROMASIA Karryorhexis, karryolysis. PHAGOCYTOSIS Damaged/necrotic cells can accumulate fat: Fatty change • Commonly occurs in Liver, heart. • Due to defective uptake, catabolism or secretion of lipid. • Severe fatty change can alter cellular structure and function. • Seen in diabetes, alcoholism, obesity. LIPID LAW •ALL Lipids are YELLOW grossly and WASHED out (CLEAR) microscopically FATTY LIVER FATTY LIVER CELL AGING • It is due to progressive decline in cellular function resulting from exposure to exogenous influences. • Cell can undergo limited number of divisions and goes into non-dividing or senescence phase. • Accumulation of metabolic and genetic changes that damage DNA. TELOMERES • Telomeres are sequences of DNA present at ends of chromosomes. They become shorter with every division. • Once shortened they cannot protect ends of chromosome and appear as damaged DNA. • Cell goes into cell cycle arrest.
