Background: During intrauterine life, various proteolytic enzymes and their main inhibitor, alpha-1 antitrypsin, accumulate naturally in meconium. A protease/antiprotease balance is required to maintain the biological stability of the environment in which the fetus develops.
Methods: The pool of active proteases was determined using the EnzChek Protease Assay Kit. The concentration of alpha-1 antitrypsin in meconium was measured by enzyme-linked immunosorbent assay. Serial portions of meconium (n=80) were collected from healthy full-term neonates (n=19).
Results: Mean concentrations of active proteases and alpha-1 antitrypsin were 1.55 [standard deviation (SD) 1.3]mgg-1 (range 0.15-6.17) and 3.72 (SD 1.78)mgg-1 (range 0.76-8.55), respectively, with significant correlation (Rs=0.32, p=0.004). A significant increase in the concentration of active proteases was found between the first and last meconium portions (p<0.05). The proteases in the last meconium portions had a higher reaction velocity and affinity for the substrate than the proteases in the first meconium portions. The active protease:alpha-1 antitrypsin ratio was <0.5 in all first meconium portions, but was higher in the last meconium portions.
Conclusions: Strong correlation between the concentrations of active proteases and alpha-1 antitrypsin in meconium may indicate their mutual interaction in the intrauterine environment. Alpha-1 antitrypsin maintains the protease/antiprotease balance during fetal development.
Keywords: Alpha-1antitrypsin; Meconium; Proteases.
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