Lucinda H. Elliott scite author profile

Peripheral blood lymphocytes obtained from patients with primary intracranial tumors were assessed for the presence of Concanavalin‐A‐activated, glass‐adherent, and spontaneous, nonspecific suppressor cells. Additionally, the effect of indomethacin on phytohemagglutinin (PHA)‐induced blastogenesis was determined. No significant differences in cellular suppressor mechanisms in these patients and normal controls were observed. However, shifts in lymphocyte populations were demonstrable when cells were separated according to quantification of PHA‐L surface binding sites by flow microfluorometry. Therefore, although impaired cellular responsiveness in patients with cerebral neoplasms does not appear to be due to alterations in suppressor‐cell function, changes in lymphocyte subpopulations occur that may be induced as an immunobiological consequence of primary central nervous system neoplasia and contribute to suppressed host immunocompetence.

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Curcumin Blocks Cyclosporine A-Resistant CD28 Costimulatory Pathway of Human T-Cell Proliferation

Ranjan¹,

Johnston²,

Wu³

et al. 1998

Journal of Surgical Research

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Inhibition of lymphocyte responsiveness by a glial tumor cell-derived suppressive factor

Roszman¹,

Brooks²,

Elliott³

1987

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The results of this study demonstrate the presence of suppressive factor(s) in the tissue culture supernatants of cloned and freshly explanted malignant glioma cells. Culture supernatants obtained from these glial cell lines were demonstrated to have potent suppressive activity as evidenced by their ability to inhibit the proliferative response of normal human peripheral blood lymphocytes induced by phytohemagglutinin and anti-OKT3 monoclonal antibodies. The results further demonstrate the existence of a dose-response relationship between these supernatants and inhibition of mitogen-induced lymphocyte activation. Maximum production of suppressive activity by glial tumor cells was dependent on: 1) the number of tumor cells seeded in culture, 2) whether fetal calf serum was present, and 3) the duration of culture. The production of the suppressive factor(s) was not inhibited by the addition of inhibitors of prostaglandin E synthesis. Experiments designed to determine at what time during lymphocyte activation the suppressive factor was most effective demonstrated that the culture supernatants must be added during the first 24 hours of culture to exhibit inhibitory properties. Finally, proliferation of both the T-helper and T-suppressor/cytotoxic subsets was equally well inhibited by the glial tumor cell culture supernatants.

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Suppression of high affinity IL-2 receptors on mitogen activated lymphocytes by glioma-derived suppressor factor

1992

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Previously we have reported that human glial tumor cells secrete a factor(s) which suppresses the mitogen responsiveness of normal human peripheral blood lymphocytes (PBL) in a dose dependent manner. In this study we extend these observations and explore the possible mechanisms by which glioma-derived suppressor factor(s) (GSF) modulates lymphocyte reactivity. Preincubation of lymphocytes with GSF for 2 hrs induces suppression of lymphocyte mitogen responsiveness. GSF also inhibits production of interleukin-2 (IL-2) by mitogen activated human T-cells. Addition of delectinated or recombinant IL-2 to mitogen activated human T-cells in the presence of GSF does not restore the normal proliferative response of these cells. These findings suggest that GSF induces a defect in the expression of the receptor for IL-2 (IL-2R) on activated T-cells. Binding studies with radiolabeled IL-2 demonstrated that GSF suppresses and in some cases completely inhibits the expression of functional high affinity IL-2R on activated T-cells, thereby, preventing association of IL-2R with its receptor and the subsequent progression of the cell into the proliferative stage of the cell cycle. These cellular defects induced by GSF closely parallel the observed defects noted in T-cells obtained from patients with gliomas, indicating that the factors elicited from glial tumors may be responsible for the immunological deficits observed in patients with primary malignant intracranial tumors.

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