Dinitrophenyl-pepstatins as active-site-directed localization reagents for cathepsin D

1. N-Pepstatinyl-N'-dinitrophenyl-1,6-diaminohexane, a potential active-site-directed localization reagent for cathepsin D, was found to bind non-specifically to immuno-precipitates containing cathepsin D. 2. Three new water-soluble localization reagents were synthesized, by using NN'-bis-(3-aminopropyl)piperazine, 3-oxa-1,5-diamino-pentane or 3,6-dioxa-1,8-diamino-octane, as spacer arms between the pepstatin and dinitrophenyl moieties. 3. The hydrophilic dinitrophenyl-pepstatins were all tight-binding inhibitors of cathepsin D at pH 3.5, but showed little or no binding to immuno-precipitates containing the inactive enzyme at pH 7.4. 4. Gel-chromatographic experiments showed that, at pH 5.0, all the dinitrophenyl-pepstatins were bifunctional reagents able to bind cathepsin D and anti-dinitrophenyl antibody at the same time. Enzyme-inhibitor-antibody complexes were not formed at pH 7.4, thus confirming that the reagents were active-site-directed. 5. Cultured human synovial cells were fixed and incubated with the dinitrophenyl-pepstatins at pH 5.0 or pH 7.4. After washing briefly, the cells were incubated at the appropriate pH value with anti-dinitrophenyl antibody labelled with fluorescein. When examined by fluorescence microscopy the cells stained at pH 5.0 showed fluorescent perinuclear granules, which were not seen in the cells treated at pH 7.4. The distribution of cathepsin D, determined by indirect immuno-fluorescence at pH 7.4, closely resembled that revealed by the dinitrophenyl-pepstatins at pH 5.0. 7. NN'-(3-Pepstatinylaminopropyl-3'-dinitrophenylaminopropyl)piperazine gave the most intense lysosomal staining and showed no non-specific binding. We conclude that this reagent is suitable for the subcellular localization of the active conformation of cathepsin D.