Ca2+-DEPENDENT AND Ca2+-INDEPENDENT PROTEINASE CONTENTS IN THE SKELETAL MUSCLE IN SEPTIC RATS

Abstract

ABSTRACT

This study assessed sepsis-induced changes in the contents of calpain and cathepsin B in rat soleus muscle. Sepsis was induced in rats by intra-abdominally implanting fecal pellets containing Escherichia coli and Bacteroides fragilis. Intact soleus muscles were isolated from non-operated control rats, and from rats sacrificed 1 and 2 days after they were implanted with bacteria-free (sterile implanted) or bacteria-laden (septic implanted) pellets. Western blot analyses of muscle homogenates were performed to identify and quantitate these proteinases using specific antibodies. No significant differences in cathepsin B contents were observed between the septic and nonseptic animals on days 1 and 2, post-implantation. Among the three distinct bands recognized by anti-calpain, two prominent bands of 80 and 76 kDa, representing calpain subunits, did not seem to be altered in septic rats compared to the nonseptic groups. The content of the 45-kDa subunit decreased in both the septic and sterile groups compared with non-operated control. These results along with our previous observations suggest that although Gram-negative sepsis does not appear to have an effect on Ca2+-insensitive lysosomal cathepsin B content or activity, it upregulates the activity of the Ca2+-dependent calpain but not its content in the skeletal muscle during sepsis.