Analysis of water in Autonomous Biological Systems (ABS) samples.

Several soluble components, peptidase and amino acids, and carbon isotopic ratio in the water retrieved from flight experiments of Autonomous Biological Systems (ABS) as well as ground control samples are analyzed to interpret the condition, dynamics, material balance of the ABS ecosystems. Organic carbons in flight samples were found to be more abundant compared with the control ones, which suggested the uniform ecosystems in low gravity might easily dissolve more soluble components. The Mir-1997 flight sample showed higher C/N ratio probably because of the dissolution of carbon-rich plant materials.     

Purification and characterization of cathepsin L from the white muscle of chum salmon, Oncorhynchus keta

1. Cathepsin L of the white muscle of chum salmon (Oncorhynchus keta) in spawning migration was purified to homogeneity by a series of chromatography on DEAE-Sephadex (1st), SP-Sephadex, CM-Sephadex, DEAE-Sephadex (2nd) and Sephadex G-100. 2. The molecular weight of salmon muscle cathepsin L was estimated to be 30,000 and its isoelectric point was 5.2. 3. Cathepsin L had a pH optimum of 5.6, required a thiol-reducing reagent for activation, and was inhibited by cysteine protease inhibitors. 4. The Km and kcat values for Z-Phe-Arg-MCA were determined to be 1.68 microM and 15.8 s-1, respectively. This enzyme hydrolyzed proteins such as insulin B chain, hemoglobin, serum albumin and azocasein easily. 5. The bond specificity to oxidized insulin B chain inferred that the enzyme had a preference for hydrophobic amino acid in P2 and P3 residues.     

Inhibitory effect of anti-class II antibody on the spontaneous activation of B cells in patients with systemic lupus erythematosus. Analysis with IL-1 production and IL-1 receptor expression

The mechanism of the spontaneous activation of B cells in patients with SLE was analyzed from the standpoint of the production of IL-1 from B cells and the expression of IL-1R on B cells. SLE B cells spontaneously produced IL-1-like factors which stimulated murine thymocyte proliferative responses. Their m.w. was about 17,000 and their isoelectric point was 4.8. The IL-1-like activity produced by B cells was absorbed with rabbit anti-IL-1 alpha antibody, but not with anti-IL-1 beta antibody. The differentiation of SLE B cells was enhanced by rIL-1 alpha, beta or IL-1-like factors produced by SLE B cells in a concentration-dependent manner. SLE B cells expressed large number of IL-1R detected by FITC-conjugated IL-1 alpha. By a Percoll gradient density centrifugation, IL-1-producing cells and B cells responsive to IL-1 were enriched in a higher density fraction, but were reduced in a lower density fraction. IL-1R-positive B cells were enriched in the lower density fraction, but were depleted in the higher density fraction. However, the expression of IL-1R on the lower density B cells was reduced by 2-day culture. The expression of IL-1R on the higher density B cells was increased during a 2-day culture. Anti-class II antibody inhibited the production of IL-1R on the higher density B cells. These results suggest that the cellular interaction among B precursor cells mediated by class II Ag induces the production of IL-1 and the expression of its receptors on their surface and the interaction between IL-1 and its receptors stimulates B precursor cells to spontaneously differentiate into Ig-producing cells as an autocrine mechanism in patients with SLE.