pathogenesis
Last reviewed 01/2018
Only susceptible individuals develop emphysema but in most cases the factors governing susceptibility are poorly understood.
The alveolar wall destruction typical of emphysema may be explained by the protease-antiprotease theory. The pulmonary protease is elastase derived from neutrophils and macrophages; the principal anti-protease is alpha-1 antitrypsin.
The main elements of the theory are:
- tobacco smoke and other irritants result in inflammation and the influx of neutrophils and macrophages into the alveoli and bronchioles
- elastase is released which breaks down elastin fibres and other structural proteins
- serine protein inhibitors, principally alpha-1 antitrypsin, down-regulate the tissue destruction
- chronic inflammation eventually degrades alveolar walls
- protease overactivity is favoured by:
- inactivation of alpha-1 antitrypsin by oxidants in smoke and oxygen free radicals secreted by neutrophils
- hereditary deficiency in alpha-1 antitrypsin activity
Heavy smoking alone causes emphysema around the 6th decade.
Homozygotes for alpha-1 AT deficiency develop severe emphysema around the 4th decade. This is accelerated in smokers.
Weight loss, which is a common feature of the illness, and which is associated with increased morbidity and mortality, is thought to result from the release of TNF-alpha from hypoxic tissues.