Conclusions
Inhibition of cathepsin B was effective in reversing the reduction of friend leukemia integration 1 and erythroblast transformation-specific protein levels after treatment with interferon α or scleroderma sera, suggesting that targeting cathepsin B may have a beneficial effect in SSc vascular disease.
Methods
The effects of lysosome and proteosome inhibitors on friend leukemia integration 1 and erythroblast transformation-specific levels were assessed by Western blotting and capillary morphogenesis. The effect of scleroderma and control sera on the levels of friend leukemia integration 1 and erythroblast transformation-specific was examined.
Results
The reduction in the protein levels of friend leukemia integration 1 and erythroblast transformation-specific in response to interferon α or Poly:(IC) was reversed by blocking either lysosomal (leupeptin and Cathepsin B inhibitor) or proteosomal degradation (MG132). MG132, leupeptin or CTSB-(i) also counteracted the anti-angiogenic effects of Poly:(IC) or interferon α. Scleroderma sera reduced protein levels of friend leukemia integration 1 and erythroblast transformation-specific in comparison to control sera. Treatment with CTSB(i) increased the levels of friend leukemia integration 1 and erythroblast transformation-specific in a majority of serum-treated samples. Conclusions: Inhibition of cathepsin B was effective in reversing the reduction of friend leukemia integration 1 and erythroblast transformation-specific protein levels after treatment with interferon α or scleroderma sera, suggesting that targeting cathepsin B may have a beneficial effect in SSc vascular disease.