Blood cells of sea bass (Dicentrarchus labrax L.). Flow cytometric and microscopic studies.

Studies of fish blood cells made to date presented numerous problems derived from both the nomenclature and the techniques used. A combination of quantitative and morphological methods is needed if the classification of fish blood cells is to advance from it present provisional state. The aim of the present paper was first to isolate sea bass blood cell populations by flow cytometry and second to characterize then microscopically. Blood cell populations from sea bass (Dicentrarchus labrax L.) were isolated according to their FSC (size) and SSC (granularity) properties by flow cytometry. The isolated populations were then processed for light and transmission and scanning electron microscopic characterization. Sea bass blood leukocytes isolated by flow cytometry consisted of two main cell subpopulations. Subsequent microscopic study of these cells revealed that the first subpopulation was composed of small cells (3-5 microm) of low granularity and consisted of thrombocytes and lymphocytes whereas, the second subpopulation was formed of 6-9 microm sized cells of high granularity consisting of granulocytes and monocyte/macrophages. The combined use of flow cytometry and electron microscopy makes it possible to characterize the different cell types present in sea bass peripheral blood with a high degree of certainty. Although sea bass basically follows the common vertebrate hematological pattern, significant modifications such as the presence of circulating immature erythrocytes, plasma cells and monocyte/macrophages and different forms of thrombocytes can be established with respect to this pattern. Copyright 2000 Wiley-Liss, Inc.