Cytokine analysis in Atlantic bottlenose dolphins: Molecular characterization of IL-4, IL-6, and IL-10

The health status of wild and captive Atlantic Bottlenose dolphins ( Tersiops truncatis) is difficult to ascertain. Mass strandings of these animals have been attributed to pollutants, as well as bacterial infections. Using human Enzyme Linked Immuno-Assays (ELISA) for immunological cytokines, I measured soluble cytokine levels with respect to their health status. In a retrospective analysis of dolphin sera, there was a trend of higher cytokine levels in “sick” animals. I cultured dolphin lymphocytes in the presence of a mitogen (PHA), a super antigen (Staph-A), Lipopolysaccharide (LPS), and a calcium flux inducer (PMA). Levels of messenger RNA, from these cultured cells, were assayed with Polymerase Chain Reaction (PCR) using primers for the human cytokines IL-2, IL-4, IL-6, IL-10, Tumor Necrosis Factor, and Interferon gamma. Only IL-4, IL-6, and IL-10 messages were obtained, inferring similar nucleotide homology to the human primer sequences. The PCR products were sequenced. Sixteen IL-4 sequences, twelve IL-6 sequences and seven IL-10 sequences were obtained and analyzed. Each cytokine exhibited the same nucleotide sequence in all dolphins examined. There was no difference in the cytokine profile in response to the various stimuli. The derived amino acid composition for each of the dolphin cytokines was used for molecular modeling, which showed that dolphin IL-4, IL-6, and IL-10 were structurally similar to the corresponding proteins of Perissodactyla. ^

Fas-FasL expression and interactions in mouse tumor cell lines: Implications for tumor immune escape

The Fas system, comprising the Fas receptor (Fas/Apo-1/CD95) and its ligand, Fas ligand (FasL), is a central mediator of programmed cell death in various physiological and pathological processes. FasL exists as transmembrane and soluble forms and induces apoptosis on crosslinking with Fas receptor. Recent evidence indicated that tumor cells exploit this system for their immunologic escape that includes the loss of Fas and the gain of FasL expression. In the present study, nine mouse tumor cell lines of diverse origin were examined immunocytochemically for the expression of Fas and FasL. Nine of nine cell lines expressed FasL, and five of nine cell lines expressed Fas. FasL expression in these tumor cell lines was demonstrated to be functional by its induction of apoptosis in Fas-sensitive target cells in coculture experiments. These results suggest that FasL may be a prevalent mediator of immune privilege in mouse malignancies, and support the recently proposed "counterattack model" for local elimination of tumor-reactive immune cells by tumor cell-derived FasL.^ Culture supernatant of four cell lines expressing FasL showed cytotoxic effect on Fas-sensitive target cells, indicating the possibility of secreted FasL in the medium. The Fas-expressing cell lines were sensitized to anti-Fas antibody cytotoxicity following treatment with IL-2 and IFN-$\gamma$, suggesting cytokine stimulation as an effective target for future immunotherapeutic strategies. ^