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  • Title: Infiltrative and cytolytic activities of lymphokine-activated killer cells against a human glioma spheroid model.
    Author: Iwasaki K, Kikuchi H, Miyatake S, Aoki T, Yamasaki T, Oda Y.
    Journal: Cancer Res; 1990 Apr 15; 50(8):2429-36. PubMed ID: 2317827.
    Abstract:
    In the present study, we investigated not only the cytotoxic effects of lymphokine-activated killer (LAK) cells on a tumor mass but also the ultrastructural cell-to-cell interaction between LAK effector cells and tumor cells during the cytolytic process within a three-dimensional solid tumor. A multicellular tumor spheroid of a human glioma cell line (U-251MG) was utilized as a solid tumor model. LAK cells were generated from peripheral blood lymphocytes of a healthy donor after stimulation by interleukin 2. Multicellular tumor spheroids with diameters of 500 microns were cocultivated with either LAK cells or nonactivated peripheral blood lymphocytes at the effector:target cell ratio of 20:1, and then time-sequential kinetic, morphological, and ultrastructural analyses were carried out. Morphological and kinetic studies showed that LAK cells directly infiltrated toward the inner areas of multicellular tumor spheroids and caused a progressive tumor destruction. In contrast, peripheral blood lymphocytes hardly exhibited such activities. Ultrastructurally, it was found that the infiltrating LAK effector cells were composed of heterogeneous subpopulations, T-like cells, and large granular lymphocyte-like cells. Both types of lymphocytes tightly adhered to the tumor cells and showed typical morphological features of killing them.
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