Development of a Vaccine for Bacterial Kidney Disease in Salmon, 1984 Annual Report.
The data presented here demonstrate that there is some variability to the antigenic structure of KDB. Although gel filtration of all antigenic preparations revealed a wide range of sizes for antigens, resolution on a denaturing gel revealed relatively few protein bands and immunological assays revealed the same (3) low number of antigens. It is of particular interest that there seems to be a protein of 60 kd in all preparations, but that there are not larger individual molecular species. This, in turn indicates that the larger molecular weight species detected in gel filtration are most likely aggregates or membrane fragments composed of a lower molecular weight subunit. Use of ultrafiltration of KDM-2 medium appears to be successful in eliminating contamination of high molecular weight material found in KDM-2. There appears to be no alteration in the number of soluble antigens produced by growth in either medium, nor in the number of proteins, as detected by SDS-PAGE. However, soluble antigens isolated from UF-KDM-2 does appear to have greater heterogeneity in their isoelectric focusing (IEF) patterns than those from UF-KDM-2. Also, although there does appear to be an extended lag period in KDB growth on UF-KDM-2, there is no alteration in final O.D. or wet weight of cells. Thus, it appears that UF-KDM-2 may be an alternate medium for those wishing to isolate purified bacterial proteins or antigens. ELISA assays have been developed for the detection of soluble KDB antigens. This system is currently being developed as a sensitive measure of the presence of soluble antigen in serum and tissues of fish. Such a sensitive assay may also allow for the detection of KD+ spawners by the testing of ovarian fluid or serum. ELISA assays have also been developed to detect antibodies to soluble and cellular antigens of KDB. These systems have been proven successful in the detection of rabbit and murine monoclonal antibodies against KDB antigens. Future work will develop the use of anti-fish immunoglobulin (Ig) reagents to detect the presence of fish antibodies to KDB. This would be an extremely useful tool to be used in monitoring the immune response of salmon to the various test vaccines. The various antigens characterized in this study, along with whole KDB cells are currently being conjugated to various immunopotentiating agents. Testing of these prototype vaccines is currently under study.
- Research Organization:
- Oregon State Univ., Corvallis, OR (United States)
- Sponsoring Organization:
- United States. Bonneville Power Administration.
- DOE Contract Number:
- 1984BP16480
- OSTI ID:
- 760067
- Report Number(s):
- DOE/BP-16480-1; R&D Project: 1984-046-00; TRN: AH200027%%66
- Resource Relation:
- Other Information: PBD: 1 Jun 1985
- Country of Publication:
- United States
- Language:
- English
Similar Records
Development of a Vaccine for Bacterial Kidney Disease in Salmon, 1986 Annual Report.
Biological characterization and partial purification of an idiotype and antigen specific T cell lymphokine