Effects of Cysteine Protease Inhibitors on Rabbit Cathepsin D Maturation
Overview
Authors
Affiliations
To examine the effects of cysteine protease inhibitors on cathepsin D intracellular transport, proteolytic processing, and secretion, primary cultures of rabbit cardiac fibroblasts were grown to confluence and exposed (24 h) to media containing leupeptin (0-10 mM), E 64 (0-10 mM), or chloroquine (0-50 microM). Cathepsin D maturation was then evaluated in pulse-chase biosynthetic labeling experiments. None of the three agents affected the charge modification of procathepsin D (Mr 53,000) within the Golgi apparatus. However, all three agents interfered with the subsequent proteolytic processing of procathepsin D isoforms to active cathepsin D (Mr 48,000). Both leupeptin and E 64 caused the intracellular accumulation of large amounts of a Mr 51,000 processing intermediate (not detectable in control fibroblasts). Trace amounts of this intermediate were also detected in chloroquine-treated cells. Combined activity assay and radioimmunoassay of cell lysates indicated that this partially processed form of cathepsin D possessed proteolytic activity. Whereas low medium concentrations of leupeptin (10-100 microM) but not E 64 appeared to stimulate procathepsin D secretion, neither agent appeared to have a major effect on the rate of proenzyme secretion at doses required to inhibit proteolytic maturation (1-10 mM). Furthermore, pretreatment of cells with 10 mM leupeptin appeared only to delay, but not prevent, the intracellular transport of cathepsin D to lysosomes. In contrast, chloroquine increased procathepsin D secretion in a dose-dependent manner, diverting the majority of newly synthesized procathepsin D from the intracellular protease(s) responsible for proteolytic processing. These results suggest that cysteine proteases participate in the proteolytic maturation of procathepsin D during the transport of newly synthesized enzyme to lysosomes, but cysteine protease-mediated proteolytic processing is not required for cathepsin D activation or lysosomal translocation.
Wang X, Zou Y, Chen Z, Li Y, Pan L, Wang Y Theranostics. 2021; 11(3):1249-1268.
PMID: 33391533 PMC: 7738902. DOI: 10.7150/thno.48787.
β-Coronaviruses Use Lysosomes for Egress Instead of the Biosynthetic Secretory Pathway.
Ghosh S, Dellibovi-Ragheb T, Kerviel A, Pak E, Qiu Q, Fisher M Cell. 2020; 183(6):1520-1535.e14.
PMID: 33157038 PMC: 7590812. DOI: 10.1016/j.cell.2020.10.039.
Autophagy triggers CTSD (cathepsin D) maturation and localization inside cells to promote apoptosis.
Di Y, Han X, Kang X, Wang D, Chen C, Wang J Autophagy. 2020; 17(5):1170-1192.
PMID: 32324083 PMC: 8143247. DOI: 10.1080/15548627.2020.1752497.
Ishii S, Matsuura A, Itakura E Sci Rep. 2019; 9(1):11635.
PMID: 31406169 PMC: 6690932. DOI: 10.1038/s41598-019-48131-2.
Progranulin Stimulates the In Vitro Maturation of Pro-Cathepsin D at Acidic pH.
Butler V, Cortopassi W, Argouarch A, Ivry S, Craik C, Jacobson M J Mol Biol. 2019; 431(5):1038-1047.
PMID: 30690031 PMC: 6613950. DOI: 10.1016/j.jmb.2019.01.027.