Novel isolation and purification method permitting functional cytotoxicity studies of macrophages from milky spots in the greater omentum.

Milky spots in the greater omentum are well organized perivascular infiltrates of leukocytes which are probably involved in the clearance of tumor cells from the peritoneal cavity. In milky spots, macrophages are the predominant cell type forming a distinct population of cells. To investigate whether these macrophages have a function in the control of metastatic spread in the peritoneal cavity, a novel isolation and purification method was developed in order to study the functional cytotoxicity of macrophages from milky spots in the greater omentum against tumor cells in vitro. In order to obtain a cell suspension, greater omenta of unstimulated healthy male WAG/RIJ rats were incubated in collagenase/DNase suspension and filtered. Subsequently, macrophages were isolated and purified using flow cytometry by sorting unstained cells on the basis of size and internal complexity. Macrophages and other cells were identified by routine May-Grünwald-Giemsa staining and by immunophenotyping with the specific macrophage monoclonal antibody ED 1. Furthermore, macrophage subtypes were characterized by ultrastructural analysis. Functional cytotoxicity of the isolated macrophages was assayed against the syngeneic CC 531 tumor cell line in a colorimetric MTT assay. From three greater omenta of healthy rats 1.16 +/- 0.16 x 10(6) macrophages were isolated with a purity of 83 +/- 2% and a viability of > or = 96%. The macrophages were of the exudate (monocytic), exudate-resident and resident cell type and were in equal proportions. The contaminating cells were mainly mesothelial. A maximum cytotoxicity of approximately 30% was reached with the macrophage fraction at an effector-to-target ratio of 10. Furthermore, it was established that the mesothelial cells did not exhibit cytotoxicity.