Transcript Document
Cell Injury and Cell Death LO • Describe the pathogenesis of irreversible cell injury with ischemia • Identify morphology of reversible cell injury • Differentiate between reversible and irreversible cell injury Overview Normal cell Injury Reversibly injured cell Irreversibly Injured cell + Stress - Stress Adapted Cell +Stres s Stress Apoptosi s Necrosi s Dead cell Mechanisms of Cell Injury • Depletion of ATP • Mitochondrial Damage • Influx of Intracellular Calcium and Loss of Calcium Homeostasis • Accumulation of Oxygen-Derived free radical (Oxidative stress) • Defects in Membrane Permeability Morphology of Cell Injury and Necrosis • Cell Injury – Reversible – Irreversible • Cell Death – Necrosis – Apoptosis Cell Injury and Death • Reversible Injury Cell swelling develops when cells are incapable of fluid an ion homeostasis (↓ed function of ATP dependant pumps). o Fatty change the accumulation of lipid vacuoles in the cytoplasm. o • Irreversible injury (Necrosis) o Two basic processes underlie the morphologic changes of necrosis Denaturation of protein Enzymatic digestion of cell components Ischemic injury Cell injury and death • Reversible hypoxic/ ischemic injury Loss of ATP generation by mitochondria initially results in reversible events: o Na+/K+ ATPase membrane pump leads to a loss of ionic and osmotic gradient ( ↑edCa+2+ Na+, ↓ed K+ and osmotic gain of water) resulting cell swelling & ER dilatation) o ↑ed anaerobic glycolysis results in glycogen depletion and lactate accumulation (↓ed pH). o Reduced protein synthesis due to ribosome detachment from the RER Cell Injury and Death Irreversible hypoxic/ ischemic injury • These changes are reversible if O2 and flow are reinstated, the transition to irreversible injury depends on the extent of ATP depletion and membrane dysfunction especially of mitochondria. • ATP depletion results in MPT with loss of the H+ gradient • ATP depletion releases cytochrome c that can induce apoptosis • ↑edCa+2 activates o membrane phospholipases with resulting membrane damage o Intracellular proteases leading to cytoskeletal degradation • Phospholipid degradation products that accumulate are directly toxic to the cell Reversible vs irreversible cell injury Reversible injury * Decreased ATP levels * Ion imbalance * Swelling • Decreased pH • Fatty change (liver) Irreversible injury * Amorphous densities in mitochondria * Severe membrane damage * Lysosomal rupture • Extensive DNA damage Mechanisms of Cell Injury Ischemic injury Morphology of Cell Injury Reversible Injury Cellular swelling Fatty change • • • • Plasma membrane alteration Mitochondrial Changes Dilation of Endoplasmic reticulum Nuclear Alteration Fatty liver Downloaded from: Robbins & Cotran Pathologic Basis of Disease (on 19 October 2005 05:51 PM) © 2005 Elsevier • Hydropic change or vacuolar degereration. • Appears whenever cells are incapable of maintaining ionic and fluid homeostasis. • The first manifestation of almost all forms of sell injury. • Reversible injury. Gross Findings • Pallor, increased turgor, and increased in weight. • • • • • • Micro Findings 1. Cell swelling, cytoplasm contains coarse granules. 2. Nucleus not affected in light microscopy.. 3. Pigmented cast, hyaline cast. D. Others: 1. The first manifestation of cell injury and is reversible. • 2. Increasing hydration of the cell due to alteration in ion transport at cell membrane. • 3. Cause: infection, physico-chemical injury ( toxic ), ischemia