Biosynthesis and alternate targeting of the lysosomal cysteine protease cathepsin L.

Upregulation of cathepsin L expression, whether during development or cell transformation, or mediated by ectopic expression from a plasmid, alters the targeting of the protease and thus its physiological function. Upregulated procathepsin L is targeted to small dense core vesicles and to the dense cores of multivesicular bodies, as well as to lysosomes and to the plasma membrane for selective secretion. The multivesicular vesicles resemble secretory lysosomes characterized in specialized cell types in that they are endosomes that stably store an upregulated protein and they possess the tetraspanin CD63. Morphologically the multivesicular endosomes also resemble late endosomes, but they store procathepsin L, not the active protease, and they are not the major site for LAMP-1 accumulation. Distinction between the lysosomal proenzyme and active protease thus identifies two populations of multivesicular endosomes in fibroblasts, one a storage compartment and one an enzymatically active compartment. A distinctive targeting pathway using aggregation is utilized to enrich the storage endosomes with a particular lysosomal protease that can potentially activate and be secreted.

Small molecule modulators of HIV Rev/Rev response element interaction identified by random screening.

A high throughput scintillation proximity assay with biotinylated human immunodeficiency virus (HIV) Rev protein and tritiated Rev response element RNA was used to screen over 500,000 small molecules. Several chemical classes of inhibitors and two chemical classes of enhancers of binding were identified, with the molecular weight range being 400-600. The most common structural motif of inhibitor was an acidic moiety at the end of a linear aromatic system. Most of these modulators had EC(50) values in the 1-10 microM potency range, with several below 1 microM. Several classes displayed structure-activity relationships suggesting specific molecular interactions between small molecule and macromolecule. Several molecules were confirmed as inhibitors in a gel shift assay and by surface plasmon resonance analysis. Furthermore, one inhibitor was shown to bind the Rev protein with a binding constant equal to its IC(50) value, consistent with the mechanism of inhibition being binding Rev. Thus, small molecules can modulate this macromolecular protein-RNA interaction in vitro. However, no compound demonstrated HIV antiviral activity in a relevant cell-based assay.