A multicolour flow cytometry identifying defined leukocyte subsets of rainbow trout (Oncorhynchus mykiss).

The investigation of the cellular immune response in fish species has been for a long time hampered by absence of appropriate monoclonal antibodies (MAbs) recognising subset specific surface markers. Consequently, the majority of immunological studies still focus on the changes in total leukocyte numbers or describe gene pattern in lymphoid organs without any information about their cellular composition. Flow cytometric techniques are routinely used for the evaluation of the leukocyte composition in numerous vertebrate species and contributed significantly to the current knowledge of immune system. In rainbow trout is so far only a limited number of MAbs against characterised (IgM and IgT, CD8α) or unknown lineage markers on thrombocytes, myeloid cells or T cells available. By combination of several MAbs, we developed a rapid, simple, accurate and high throughput method for reliable discrimination of major leukocyte subpopulations from 10 µl of peripheral blood. Additionally, by a consecutive gating, this mixture enables the evaluation of the proportion between CD8α(+) and CD8α(-) population and provides for the first time valuable information about the kinetic of CD4(+) cells in rainbow trout. Furthermore, the combination of all antibodies within one sample reduced the hands-on time down to 90 min allowing fast and accurate estimation of cell kinetics in a high number of individuals. Thus presented findings enable the precise evaluation of the cellular components of immune system during both pathological and physiological responses and have therefore an immense potential for future applications in the development of vaccines and better understanding of fish immune system.

Contrasted TCRß diversity of CD8+ and CD8- T cells in rainbow trout.

Teleost fish express highly diverse naive TCRß (TRB) repertoires and mount strong public and private clonal responses upon infection with pathogens. Fish T cells express typical markers such as CD8, CD4-1 and CD4-2, CD3, CD28 and CTLA4. Fish CD8(+) T cells have been shown to be responsible for antigen-specific cell-mediated cytotoxicity in in vitro systems using histo-compatible effector and target cells. We compare here the complexity of TRB repertoires between FACS sorted CD8(+) and CD8(-) T cells from spleen and pronephros of rainbow trout. In contrast to human, while the TRB repertoire is highly diverse and polyclonal in CD8(+) T cells of naïve fish, it appeared very different in CD8(-) lymphocytes with irregular CDR3 length distributions suggesting a dominance of activated clones already in naïve fish or the presence of non conventional T cells. After infection with a systemic virus, CD8(+) T cells mount a typical response with significant skewing of CDR3 length profiles. The infection also induces significant modifications of the TRB repertoire expressed by the CD8(-) fraction, but for a different set of V/J combinations. In this fraction, the antiviral response results in an increase of the peak diversity of spectratypes. This unusual observation reflects the presence of a number of T cell expansions that rise the relative importance of minor peaks of the highly skewed distributions observed in unchallenged animals. These results suggest that the diversity of TRB expressed by CD8(+) and CD8(-) αß T cells may be subjected to different regulatory patterns in fish and in mammals.