Interleukin-1ß stimulates stromal-derived factor-1α expression in human subacromial bursa.

Chemokines produced by synoviocytes of the subacromial bursa are up-regulated in subacromial bursitis and rotator cuff disease. We hypothesized that SDF-1α production in bursal synoviocytes may be induced by local cytokines such as interleukin IL-1ß and IL-6. Subacromial bursa specimens were obtained from patients undergoing shoulder surgery. Bursal specimens were stained with anti-human antibodies to IL-1, IL-6, and SDF-1α by immunohistochemistry and compared to normal and rheumatoid controls. Bursal cells were also isolated from specimens and cultured. Early passaged cells were then treated with cytokines (IL-1ß and IL-6) and SDF-1α expression was measured by ELISA and RT-PCR. SDF-1α, IL-1ß, and IL-6 were expressed at high levels in bursitis specimens from human subacromial bursa compared to normal controls. In cultured bursal synoviocytes, there was a dose-dependent increase in SDF-1α production in the supernatants of cells treated with IL-1ß. SDF-1α mRNA expression was also increased in bursal cells treated with IL-1ß. IL-6 caused a minimal but not statistically significant increase in SDF-1α expression. SDF-1α, IL-1ß, and IL-6 are expressed in the inflamed human subacromial bursal tissues in patients with subacromial bursitis. In cultured bursal synoviocytes, SDF-1α gene expression and protein production are stimulated by IL-1ß. IL-1ß produced by bursal syvoviocytes and inflammatory cells in the human subacromial bursa is an important signal in the inflammatory response that occurs in subacromial bursitis and rotator cuff disease.

Esterase activity as a novel parameter of spore germination in Bacillus anthracis.

Spores of Bacillus anthracis were shown to produce esterase activity about 4 min after exposure to conventional germinants such as combinations of amino acids and purine ribosides. Neither amino acids nor ribosides alone induce germination and esterase activity. Expression of esterase activity was chloramphenicol resistant, and correlated with loss of spore refractivity, a traditional parameter of early germination. Based on these observations, we hypothesized that esterase activity could be used as a novel parameter for quantifying early events during spore germination. To test this hypothesis, we measured expression of esterase activity under a variety of germinating conditions. Using diacetyl fluorescein as fluorogenic substrate of esterases, we demonstrated that esterase activity was invariably induced whenever spores were triggered by known germinants. Moreover, D-alanine, an inhibitor of L-alanine-mediated germination, was found to significantly inhibit expression of esterase activity. In terms of molecular mechanisms, esterase expression could represent activation of proteases at the onset of spore germination.

Application of a real-time biosensor to detect bacteria in platelet concentrates.

A spore-based biosensor for detecting low levels of bacteria in real-time has been recently developed. The system (termed LEXSAS, label-free exponential signal-amplification system) exploits spore's ability to produce fluorescence when sensing neighboring bacterial cells. We studied the LEXSAS as a possible approach for identifying bacterially contaminated platelet concentrates prior to transfusion because the system offers rapid analysis, high sensitivity, and low cost. If successful, this approach could reduce the risk of morbidity and mortality from transfusion-related bacteremia and sepsis. In this study, we used the LEXSAS for detecting bacteria in platelet concentrates spiked with Bacillus cereus, Enterobacter cloacae, Escherichia coli, Pseudomonas aeruginosa, Staphylococcus aureus, or Streptococcus pyogenes. Bacteria were separated from platelets using a 2-min procedure based on bacterial resistance to detergents and osmotic shock. The results indicate that the LEXSAS could be used to design a practical biosensor for identifying bacterially contaminated platelets in real-time.