Prevention of leucocyte elastase-induced emphysema in mice by heparin fragments.

Heparin and its derivatives inhibit human leucocyte proteinases i.e. elastase and cathepsin G, but do not inhibit porcine pancreatic elastase and Pseudomonas aeruginosa elastase. In vitro experiments, reported here, also indicate that elastin, one of the physiological substrates of human leucocyte elastase (HLE), could decrease by 30-fold the inhibitory potential of an hexadecasaccharide heparin fragment (dp 16) isolated from CY 222. Nevertheless, the inhibitory capacity of the heparin fragment still remains elevated with IC50 = 2.7 x 10(-7) M and still inhibits HLE in its free and adsorbed state to elastin. These overall data prompted us to evaluate the influence of CY 222 in HLE-induced emphysema. Emphysema was induced in mice eight weeks old, following a single instillation of 200 micrograms of HLE. CY 222 treated animals received 2.5 mg.kg-1 subcutaneously once daily, 6 days per week during 4 weeks prior to HLE instillation, and for eight weeks following HLE instillation. The heparin fragment treatment of the mice halved the mortality rate observed early following HLE instillation. After 8 weeks, surviving animals were examined for lung histological and morphometrical changes: mean linear intercept (MLI) and internal alveolar area (ISA). The CY 222 heparin fragments exerted a protective effect against HLE-induced emphysema by decreasing by 70% the MLI; these heparin fragments exerted no effect on emphysema induced by pancreatic elastase in hamsters or mice. Heparin derivatives represent a new class of physiological HLE low molecular weight inhibitors capable of preventing HLE-induced emphysema.