Pathogenesis of Emphysema

PATHOGENESIS OF EMPHYSEMA
  • Etiologic factors
    • Tobacco smoke & Air Pollutants
    • Occupational exposure
    • Infections
    • Familial and  Genetic
  • Initiating factor – chronic irritation by inhaled substances tobacco smoke, cotton and silica dust
  • Bacterial and viral infections exacerbate the disease
  • Factors influencing the development of emphysema are –
    • Inflammatory mediators and leukocytes – attract more inflammatory cells causing tissue damage
    • Protease and Antiprotease imbalance – protease released from inflammatory cells and damaged epithelial cells cause tissue destruction
    • Oxidative stress – substance in tobacco smoke, damaged alveolar cells and inflammatory cells produce oxidants which cause more tissue damage
    • Infection – exacerbates the associated inflammation
  • Inflammatory mediators and leukocytes
    • Inhaled cigarette smoke and other irritants cause lung damage and inflammation
    • Inflammatory cells like macrophages, CD8+T cells and neutrophils infiltrate lung tissue and release variety of mediators like Leukotriene B4, IL-8, TNF and other mediators which damage lung structures or sustain neutrophilic infiltration
    • Neutrophils release elastases and proteases which damage the lung tissue
  • Protease – antiprotease hypothesis
    • Genetic deficiency of antiprotease α1 antitrypsin have enhanced tendency to develop pulmonary emphysema
    • Alpha -1 antitrypsin (α1 protease inhibitor) is a α1-globulin protein encoded by the proteinase inhibitor locus on chromosome 14. Normal phenotype is PiMM.
    • Synthesized in liver and is distributed in circulating blood, tissue fluids and macrophages
    • Alpha -1 antitrypsin inhibits proteases particularly elastase secreted by neutrophils during inflammation
    • Abnormal phenotype is PiZZ – inhibits the release of Alpha -1 antitrypsin from liver.

 

  • Deleterious effect of smoking
    • Neutrophils and macrophages accumulate in alveoli possibly due to chemoattractant effects of nicotine and ROS present in smoke
    • Neutrophils are activated and release their granules rich in elastase, proteinase 3 and Cathepsin G which causes tissue damage
    • Smoking activates macrophages which release elastase and metalloproteinases causing tissue damage

 

 
Reference 
  1. Vinay kumar, Abul K.Abbas, Nelson Fausto, Jon C. Aster. Robbins and Cotran Pathologic basis of disease. 8th edition.