Calpain inhibitors show the potential to serve as non-surgical alternatives in treating diabetic
cataract and other types of these disorders. Here, we have tested the recently developed
calpain inhibitor,
SJA6017, for its ability to inhibit cataractogenesis in porcine
lenses. These
lenses were incubated in increasing levels of extralenticular
calcium (Ca2+; 5-30 mM). Atomic absorption spectroscopy was used to determine total internal lens Ca2+ and a correlation between porcine lens Ca2+ uptake and levels of lens opacification were found with a total internal lens Ca2+ level of 5.8 microM Ca2+ g(-1) wet lens weight corresponding to the onset of catarctogenesis. A total internal lens Ca2+ level of 8.0 microM Ca2+ g(-1) wet lens weight corresponded to
cataract occupying approximately 70% of the lens cell volume. This degree of
cataract was reduced by approximately 40%, when
SJA6017 (final concentration 0.8 microM) was included in the extralenticular medium, suggesting that the Ca2+-mediated activation of calpains may be involved in the observed opacification. Supporting this suggestion atomic absorption spectroscopy showed that the effect of
SJA6017 (final concentration 0.8 microM) on lens opacification was not due to the compound restricting porcine lens Ca2+ uptake. The results indicate that
calpain-induced cataractogenesis is dependent on extracellular Ca2+ and the
calpain inhibitor SJA6017 (0.8 microM) had no significant effect on Ca2+ uptake by lens. Its inhibitory effect on lens opacification may be due to a direct action on the activity of
calpain.