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  • Title: Adoptive immunotherapy of microscopic and advanced visceral metastases with in vitro sensitized lymphoid cells from mice bearing progressive tumors.
    Author: Chou T, Bertera S, Chang AE, Shu S.
    Journal: J Immunol; 1988 Sep 01; 141(5):1775-81. PubMed ID: 3261761.
    Abstract:
    Lymphocytes from mice bearing the weakly immunogenic MCA 105 sarcoma contained pre-effector cells that could be sensitized and expanded in vitro to acquire anti-tumor reactivity. The in vitro sensitization (IVS) required antigenic stimulation by tumor cells and the presence of IL-2 for cellular proliferation. Recent work has also demonstrated that IVS cells could be generated in an IL-2 concentration as low as 2 U/ml. In the present study, we have evaluated therapeutic efficacy of IVS cells generated in different concentrations of IL-2 against advanced metastases established in the lung as well as in the liver. Treatment of microscopic or grossly visible pulmonary metastases established for 3 or 10 days by systemic transfer of IVS cells resulted in significant reductions of the numbers of metastases. On a per cell basis, IVS cells generated in 2 U/ml of IL-2 exhibited at least twofold greater reactivity than cells generated in 1000 U/ml of IL-2. In survival experiments, treatment of established microscopic (day 3) and visible (day 10) pulmonary metastases with 1.5 x 10(7) and 3 x 10(7) IVS cells generated in 2 U/ml of IL-2 resulted in prolongation of survival and cure of the disease in 60 and 30% of animals, respectively. The systemic anti-tumor effect of IVS cells was further investigated in mice with hepatic metastases. Treatment of day 3 microscopic hepatic metastases revealed that as little as 1.2 X 10(7) IVS cells generated in 2 U/ml of IL-2 reduced the mean number of metastases from more than 250 in various control groups to 32. Evaluation by survival demonstrated that transfer of 1.7 x 10(7) and 3.8 x 10(7) IVS cells was capable of prolonging the survival and curing 40 and 30% of mice bearing day 3 and day 9 hepatic metastases, respectively. Again, IVS cells generated in 2 U/ml of IL-2 were more effective therapeutically than cells generated in 1000 U/ml of IL-2. In all experiments, mice were also given IL-2 to enhance the in vivo reactivity of IVS cells. However, the doses of IL-2 alone had no therapeutic benefit. Taken together, our results show that adoptive immunotherapy with IVS cells generated from tumor-bearing mice was an effective means of eliminating advanced metastases in various visceral organs.
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