Forms and classification
Eight human genes exist for elastase:
|Family||Gene symbol||Protein name||EC number|
|CELA1||ELA1||chymotrypsin-like elastase family, member 1||elastase 1, pancreatic||EC 126.96.36.199|
|CELA2A||ELA2A||chymotrypsin-like elastase family, member 2A||elastase 2A, pancreatic||EC 188.8.131.52|
|CELA2B||ELA2B||chymotrypsin-like elastase family, member 2B||elastase 2B, pancreatic||EC 184.108.40.206|
|CELA3A||ELA3A||chymotrypsin-like elastase family, member 3A||elastase 3A, pancreatic||EC 220.127.116.11|
|CELA3B||ELA3B||chymotrypsin-like elastase family, member 3B||elastase 3B, pancreatic||EC 18.104.22.168|
|chymotrypsin||CTRC||ELA4||chymotrypsin C (caldecrin)||elastase 4||EC 22.214.171.124|
|neutrophil||ELANE||ELA2||neutrophil elastase||elastase 2||EC 126.96.36.199|
|macrophage||MMP12||HME||macrophage metalloelastase||macrophage elastase||EC 188.8.131.52|
Bacterial forms: Organisms such as P. aeruginosa also produce elastase, and is considered a virulence factor.
Elastase breaks down elastin, an elastic fiber that, together with collagen, determines the mechanical properties of connective tissue. The neutrophil form breaks down the Outer membrane protein A (OmpA) of E. coli and other Gram-negative bacteria. Elastase also has the important immunological role of breaking down Shigella virulence factors. This is accomplished through the cleavage of peptide bonds in the target proteins. The specific peptide bonds cleaved are those on the carboxy side of small, hydrophobic amino acids such as glycine, alanine, and valine. For more on how this is accomplished, see serine protease.
The role of human elastase in disease
Elastase is inhibited by the acute-phase protein α1-antitrypsin (A1AT), which binds almost irreversibly to the active site of elastase and trypsin. A1AT is normally secreted by the liver cells into the serum. α1-antitryspin deficiency (A1AD) leads to uninhibited destruction of elastic fiber by elastase; the main result is pulmonary emphysema.
The rare disease cyclic hematopoeiesis (also called "cyclic neutropenia") is an autosomal dominant genetic disorder characterised by fluctuating neutrophil granulocyte counts over 21-day periods. During neutropenia, patients are at risk for infections. In 1999, this disease was linked to disorders in the ELA-2 / ELANE gene. Other forms of congenital neutropenia also appear to be linked to ELA-2 mutations.
The role of bacterial elastase in disease
Elastase has been shown to disrupt tight junctions, cause proteolytic damage to tissue, break down cytokines and alpha proteinase inhibitor, cleave immunoglobuline A and G (IgA, IgG), and cleave both C3bi, a component of the complement system, and CR1, a receptor on neutrophils for another complement molecule involved in phagocytosis. The cleavage of IgA, IgG, C3bi, and CR1 contributes to a decrease of the ability of neutrophils to kill bacteria by phagocytosis. Together, all these factors contribute to human pathology.
- Bieth JG (2001). "[The elastases]". J. Soc. Biol. (in French). 195 (2): 173–9. PMID 11723830.
- Horwitz M, Benson KF, Person RE, Aprikyan AG, Dale DC (1999). "Mutations in ELA2, encoding neutrophil elastase, define a 21-day biological clock in cyclic haematopoiesis". Nat. Genet. 23 (4): 433–6. doi:10.1038/70544. PMID 10581030.