Abstract: This study describes angiogenic processes taking place in the in vitro micro-environment of a trout pronephric stroma cell line (TPS) under specific culture conditions, in which fetal calf serum, horse serum and hydrocortisone-sodium-21-hemisuccinate were used as supplements to the culture medium. When TPS cultures were kept in the same flask, i.e. without passages, for longer than 7 months, epithelioid cells differentiated into endothelial cells. Early stages of such differentiation were characterised by the presence of intracellular tubular vacuoles in clusters of neighbouring epithelioid cells. Subsequently, the endothelial cells reorganised and gave rise to microvascular structures, which branched over and into the TPS multilayers. The lining cells of the microvasculature showed typical characteristics of endothelial cells, such as ovoid or cubical shape, bundles of microfilaments and microtubules, and particularly numerous small vesicles at the apical pole, some of them fused to the plasma membrane. Similar angiogenic processes were also observed in long-term haemopoietic co-cultures formed by the TPS cell line and trout pronephric cell suspensions. Developing haemopoietic cells were observed at the basal pole of the vessels, and in the vascular lumen, where some immature cells appeared in close contact with the endothelium. These results indicate that the TPS cell line contains endothelial cell precursors, which are able to differentiate under certain culture conditions.
Abstract: Viral hemorrhagic septicaemia virus (VHSV) infected the hematopoietic stromal cells (7,8) derived from pronephritic tissue of the rainbow trout, Oncorhynchuss mykiss, W., at their ninth passage in vitro. Viral infection resulted in the development of lytic cytopathic effects on confluent in vitro tridimensional network stromal cell cultures. Replication of VHSV in the stromal cell cultures was demonstrated by the increase in infectivity by epithelioma papulosum cyprini (EPC) cell culture assays and by the increase of the nucleoprotein antigen of VHSV by ELISA. By using anti-VHSV monoclonal antibodies (MAbs), flow cytometry studies demonstrated that only the infected stromal cells contained cytoplasmic viral antigens. The lytic infection of trout hematopoietic stromal cells in vitro could be relevant to the hemorrhagic pathology seen in the kidney of fish infected with VHSV.
Abstract: This study describes the conditions for the long-term culture of the renal hematopoietic tissue of the rainbow trout, Oncorhynchus mykiss, the characterization of the stromal cells, and their relationships with myelopoietic cells. The long-term cultures consisted of stromal cells, which supported active myelopoiesis. Stromal cells were analyzed by enzyme-cytochemical techniques and electron microscopy. Major stromal cell types in long-term cultures consisted of fibroblastic reticular cells and epithelioid cells. Myelopoietic cells differentiated in close association with the fibroblastic reticular cells, and mature granulocytes were released into the culture medium.
