Isolation and characterization of a c-type lysozyme from the nurse shark.

Lysozyme is a ubiquitous antibacterial enzyme that occurs in numerous invertebrate and vertebrate species. Three forms have been described c-type, g-type and i-type which differ in primary structure. Shark lysozyme has not been characterized; here we report on the isolation and characterization of lysozyme from unstimulated shark (Ginglymostoma cirratum) leukocytes and provide amino acid sequence data across the highly conserved active site of the molecule identifying it to be a c-type lysozyme. A leukocyte lysate was applied either (a) to the first of two sequential DE-52 cellulose columns or alternatively, (b) to a DEAE-Sepharose column. Lysozyme activity in lysate and active fractions was identified by zones of lysis of Micrococcus lysodeikticus cell walls on lysoplates and zones of growth inhibition in agar diffusion assays using Planococcus citreus as the target organism. SDS-PAGE analysis revealed a 14 kDa protein which was identified as lysozyme by mass spectroscopic analysis of peptides, reactivity against anti-HEWL antibodies on a Western blot, hydrolysis of M. lysodeikticus cell walls, and inhibition of growth of P. citreus on AU-gel blots in which the area of growth inhibition correlated to a 14 kDa protein.

Assays optimized for detection and quantification of antibacterial activity in shark cell lysates under high salt conditions.

To assess non-cellular innate immune mechanisms that play a role in the antimicrobial defense of an organism several assay systems have been devised to screen for such factors. Most assays, however, have been developed to measure activity against clinical isolates of medical importance. There is scant information on methods optimal for assaying material from sharks and other marine fish for antimicrobial activity particularly against salt tolerant organisms that are likely to be encountered in the marine environment. We have modified and optimized agar diffusion and broth dilution assays for detection and quantification of antibacterial activity of shark leukocyte lysates. By replacing marine agar, typically used for marine organisms, with artificial sea water complete medium (SCM) enriched with tryptone and yeast extract has resulted in an improved inhibition zone assay that uses Planococcus citreus, a salt-tolerant organism as the target organism. Antibacterial activity is correlated to the size of zone of no bacterial growth around wells containing bioactive test sample. An alternative broth based microdilution growth assay uses the 96 well format and the antibacterial effect of the sample on growth of P. citreus, the target organism, is measured spectrophotometrically as percent inhibition of bacterial growth when compared to the growth of P. citreus grown in medium alone that represents 100% growth. The assay can also be used to titrate antibacterial activity and express the level of growth inhibition as a titer.