Immune System Monitoring as a Health Assessment Technique for Marine Mammals
IAAAM 2000
J. Stott1, PhD; M. Blanchard1, MS, MT; C. Funke1, MS; B. Aldridge1,2, BVSc, PhD, DACVIM, MRCVS; D. Beusse3, DVM; S. Dover, DVM3; D. Odell3, PhD;
M. Walsh3, DVM; L. Dalton, DVM; T. Robeck4, DVM; T. Pledger5, DVM; M. Renner5, DVM; T.
Reidarson6, DVM, DACZM; J. McBain6, DVM
1Laboratory for Marine Mammal Immunology, Department of Pathology, Microbiology and Immunology, School of Veterinary Medicine, University of California, Davis, CA, USA; 2The Marine Mammal Center, Marin Headlands, Sausalito, CA, USA; 3SeaWorld of Florida, Orlando, FL, USA; 4SeaWorld of Texas, San Antonio, TX, USA; 5SeaWorld of Ohio, Aurora, OH, USA; 6SeaWorld of California, San Diego, CA, USA
Abstract
Early and sensitive identification of stress, infectious disease and/or tissue trauma facilitates timely
initiation of prophylactic measures and/or treatment whether they be elimination of the insult or supportive therapy. A variety of
reagents and techniques were developed to assess the immunologic health of cetacean species, with preliminary application being
primarily directed at killer whales. This immunologic evaluation included immunophenotyping peripheral blood leukocytes,
identification of alterations in leukocyte adhesion proteins, assessment of lymphocyte function and identification of blood-borne
mediators of inflammation. Immunologic evaluation of leukocyte phenotype and adhesion proteins required generation of
species-specific monoclonal antibodies that could recognize cetacean leukocyte differentiation antigens. Antibodies were developed
that could distinguish B lymphocytes (human homologues of CD19 and CD21), T lymphocytes (human homologue of CD2) and naive versus
memory T lymphocytes (CD2 vs human homologue of CD45R). Antibodies specific for adhesion proteins included the human homologue of
CD11/18 and two antibodies that recognize adhesion proteins (referred to as D and F6B) for which we have not yet identified a human
or murine counterpart. The classic lymphocyte blastogenesis assay was modified to permit identification of minor perturbations in
lymphocyte function by utilizing both optimal and sub-optimal concentrations of T and B lymphocyte mitogens (Concanavalin A, Con-A;
Pokeweed mitogen, PWM; Phytohemagglutinin, PHA). Techniques were developed for cryopreservation of mononuclear peripheral blood
leukocytes that could be stored in liquid nitrogen for future functional analysis. This approach permitted greater standardization
of the assay as all bloods were stored at about 10°C for 24 hr prior to cryopreservation, minimizing variation due to
differences in shipment time of blood from the site of collection to the laboratory. Identification of inflammation was based upon
the detection of interleukin 6 (IL-6) in plasma or serum; IL-6 is the primary mediator of the acute phase response. This latter
measurement of inflammation is the subject of a companion abstract by C. Funke, et al.
Our current database demonstrates that both stress and infection can be detected, but not necessarily
differentiated, utilizing this combination of immunologic tools. However, identification of either condition facilitates early
treatment whether it be removal or reduction of the stressor and/or initiation of supportive therapy. While data is still
preliminary, statistical analysis would suggest that combining such an immunologic analysis with classical CBC and clinical
chemistry data would substantially widen our window into the health monitoring of cetacean species. Furthermore, the current
approach of generating baseline data on individual animals creates an individual fingerprint that permits identification of subtle
perturbations that would otherwise go undetected if we were to rely on average values obtained for the species as a whole. Similar
approaches to monitoring the immunologic health of valuable animals on a routine basis would be easily justified.