The Role of Cathepsin B in the Degradation of Aβ and in the Production of Aβ Peptides Starting With Ala2 in Cultured Astrocytes

Astrocytes may not only be involved in the clearance of Amyloid beta peptides (A beta) in Alzheimer's disease (AD), but appear to produce N-terminally truncated A beta (A beta(n-x)) independently of BACE1, which generates the N-Terminus of A beta starting with Asp1 (A beta(1-x)). A candidate protease for the generation of A beta(n-x) is cathepsin B (CatB), especially since CatB has also been reported to degrade A beta, which could explain the opposite roles of astrocytes in AD. In this study, we investigated the influence of CatB inhibitors and the deletion of the gene encoding CatB (CTSB) using CRISPR/Cas9 technology on A beta(2-x) and A beta(1-x) levels in cell culture supernatants by one- and two-dimensional Urea-SDS-PAGE followed by immunoblot. While the cell-permeant inhibitors E64d and CA-074 Me did not significantly affect the A beta(1-x) levels in supernatants of cultured chicken and human astrocytes, they did reduce the A beta(2-x) levels. In the glioma-derived cell line H4, the A beta(2-x) levels were likewise decreased in supernatants by treatment with the more specific, but cell-impermeant CatB-inhibitor CA-074, by CA-074 Me treatment, and by CTSB gene deletion. Additionally, a more than 2-fold increase in secreted A beta(1-x) was observed under the latter two conditions. The CA-074 Me-mediated increase of A beta(1-x), but not the decrease of A beta(2-x), was influenced by concomitant treatment with the vacuolar H+-ATPase inhibitor Bafilomycin A1. This indicated that non-lysosomal CatB mediated the production of A beta(2-x) in astrocytes, while the degradation of A beta(1-x) seemed to be dependent on lysosomal CatB in H4 cells, but not in primary astrocytes. These findings highlight the importance of considering organelle targeting in drug development to promote A beta degradation.

Automated summary

The study revealed the significant role of astrocytes in Alzheimer's disease by modulating the production and degradation of Aβ through regulating the activity of cathepsin B (CatB), highlighting the importance of organelle targeting in drug development.