Neutrophil elastase and cathepsin G: structure, function, and biological control.

When neutrophils invade inflamed areas of the body to remove either dead or foreign components they inadvertently release potent enzymes which can, if not properly controlled, cause severe damage to healthy tissue. This can lead to a myriad of diseases including emphysema, rheumatoid arthritis, and glomuerlopnephritis, all of which are really problems of abnormal connective tissue turnover due to uncontrolled protelysis by neutrophil elastase and cathepsin G. An important step in elucidating the functions of both elastase and cathepsin G has been made by virtue of the fact that the amino acid sequence of each has been determined. Furthermore, the crystal structure of one, neutrophil elastase, is now understood. With this knowledge in mind and with the potential for a similar understanding of the mechanism of action of cathepsin G, it should soon be possible to produce synthetic inhibitors of each enzyme which can act as adjunct inhibitors to those naturally circulating in the blood or present in other tissues. As a result there is great hope for reducing the severity of injury produced by these enzymes and, therefore, in decreasing the risk for development of the debilitating diseases associated with abnormal proteolysis by neutrophil proteinases.