Generation of tumor-specific cytotoxic T lymphocytesin vivo by combined treatment with inactivated tumor cells and recombinant interleukin-2

Mamoru Harada; Goro Matsuzaki; Yoshihiro Shinomiya; Shin Kurosawa; Osamu Ito; Tadao Okamoto; Mituhiro Takenoyama; Hiroshi Sumitika; Yousuke Nishimura; Kikuo Nomoto

doi:10.1007/BF01525512

. 1994 Sep;38(5):332–338. doi: 10.1007/BF01525512

Generation of tumor-specific cytotoxic T lymphocytesin vivo by combined treatment with inactivated tumor cells and recombinant interleukin-2

Mamoru Harada ^1,^✉, Goro Matsuzaki ¹, Yoshihiro Shinomiya ¹, Shin Kurosawa ¹, Osamu Ito ¹, Tadao Okamoto ¹, Mituhiro Takenoyama ¹, Hiroshi Sumitika ¹, Yousuke Nishimura ¹, Kikuo Nomoto ¹

PMCID: PMC11038102 PMID: 8162615

Abstract

In order to search for a new therapy that would maximize the effect of interleukin-2 (IL-2) in evoking antitumor immunity in vivo, the therapeutic effect of a combination of mitomycin-C(MMC)-treated tumor cells and recombinant IL-2 was examined for its induction of antitumor activity against established melanoma metastasis. In C57BL/6 mice intravenously (i. v.) injected with B16 melanoma cells on day 0, the combined treatment with an intraperitoneal (i. p.) injection of MMC-treated melanoma cells on day 6 and 2500 U rIL-2 (twice daily) on days 7 and 8 markedly reduced the number of pulmonary metastases. This antitumor activity was more effective than that in untreated controls and mice that were injected with MMC-treated melanoma cells alone or rIL-2 alone. When the i. p. injection of MMC-treated tumor cells was replaced by other syngeneic tumor cells, antitumor activity against metastatic melanoma was not induced. The antitumor activity induced by this treatment increased in parallel with an increase in the dose of rIL-2 injected. In contrast, an i. p. injection of soluble tumor-specific antigens alone could induce only a marginal level of antitumor activity, and this activity was not augmented by subsequent i. p. injections of rIL-2. In vivo treatment with anti-CD8 monoclonal antibody (mAb), but not with anti-CD4 mAb or anti-asialo-GM1 antibody, abrogated the antitumor activity induced by this combined therapy. This suggests that the antitumor effect was dependent on CD8⁺ T cells. Lung-infiltrating lymphocytes from mice that had been i. v. injected with melanoma cells 11 days before and were treated with this combined therapy, showed melanoma-specific cytolytic activity. This combined therapy also showed significant antitumor activity against subcutaneously inoculated melanoma cells. These results demonstrate that the combined therapy of an i. p. injection of MMC-treated tumor cells and subsequent and consecutive i. p. administration of rIL-2 increases antitumor activity against established metastatic melanoma by generating tumor-specific CD8⁺ CTL in vivo.

Key words: Cytokine therapy, IL-2, in vivo, Melanoma

References

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9.Huland E, Huland H. A new therapeutic model for the treatment of advanced bladder carcinoma. Cancer Res. 1989;49:5469. [PubMed] [Google Scholar]
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22.Topalian SL, Solomon D, Rosenberg SA. Tumor-specific cytolysis by lymphocytes infiltrating human melanomas. J Immunol. 1989;142:3714. [PubMed] [Google Scholar]
23.Uchida H, Taniguchi K, Nomoto K. Combination treatment with irritant and recombinant interleukin 2 in the peritoncal cavity for evoking anti-tumor activity: generation of lymphokine-activated killer cells and tumor-specific killer cells. Jpn J Cancer Res. 1990;81:416. doi: 10.1111/j.1349-7006.1990.tb02584.x. [DOI] [PMC free article] [PubMed] [Google Scholar]
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25.Yoshizawa H, Chang AE, Shu S. Specific adoptive immunotherapy mediated by tumor-draining lymph node cells sequentially activated with anti-CD3 and interleukin-2. J Immunol. 1991;147:729. [PubMed] [Google Scholar]

[CR1] 1.Cheever MA, Greenberg PD, Fefer A, Gills S. Augmentation of the anti-tumor therapeutic efficacy of long-term cultured T lymphocytes by in vivo administration of purified interleukin 2. J Exp Med. 1982;155:968. doi: 10.1084/jem.155.4.968. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CR2] 2.Donohue JM, Rosenberg SA. The fate of interleukin 2 after in vivo administration. J Immunol. 1983;130:2203. [PubMed] [Google Scholar]

[CR3] 3.Einhorn LH, Burgess MA, Vallejos, Sr Bodey GP, Gutterman J, Mavligit G, Hersh EM, Luce JK, Frei E, Freireich EJ, Gottlieb JA. Prognostic correlations and response to treatment in advanced metastatic malignant melanoma. Cancer Res. 1974;34:1995. [PubMed] [Google Scholar]

[CR4] 4.Ettinghausen SE, Lipford EH, Mule JJ, Rosenberg SA. Recombinant interleukin 2 stimulates in vivo proliferation of adoptively transformed lymphokine-activated killer (LAK) cells. J Immunol. 1985;135:3623. [PubMed] [Google Scholar]

[CR5] 5.Fearon ER, Pardolla DM, Itaya T, Golumbek P, Levitsky HJ, Simons JI, Karasuyama H, Vogelstein B, Forest P. Interleukin-2 production by tumor cells bypasses T helper function in the generation of an antitumor response. Cell. 1990;60:397. doi: 10.1016/0092-8674(90)90591-2. [DOI] [PubMed] [Google Scholar]

[CR6] 6.Ganshacher B, Ziek K, Daniels B, Cronin K, Bannerji R, Gilboa E. Interleukin 2 gene transfer into tumor cells abrogates tumorigenecity and induces protective immunity. J Exp Med. 1990;172:1217. doi: 10.1084/jem.172.4.1217. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CR7] 7.Grimm EA, Mazumer A, Zhang HZ, Rosenberg SA. Lymphokine activated killer cell phenomenon. Lysis of natural killer-resistant fresh solid tumor cell by interleukin 2-activated autologous human peripheral blood lymphocytes. J Exp Med. 1982;155:1823. doi: 10.1084/jem.155.6.1823. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CR8] 8.Habu S, Fukui H, Shimamura K, Kasai M, Nagai Y, Okumura K, Tomaoka N. In vivo effects of anti-asialo-GM1. I. Reduction of NK activity and enhancement of transplanted tumor growth in nude mice. J Immunol. 1981;127:34. [PubMed] [Google Scholar]

[CR9] 9.Huland E, Huland H. A new therapeutic model for the treatment of advanced bladder carcinoma. Cancer Res. 1989;49:5469. [PubMed] [Google Scholar]

[CR10] 10.Kawano Y, Taniguchi K, Toshitani A, Nomoto K. Synergistic defense system by cooperative natural effectors against metastasis of B16 melanoma cells in H-2-associated control: different behavior of H-2+ and H-2− cells in metastatic processes. J Immunol. 1986;136:4729. [PubMed] [Google Scholar]

[CR11] 11.Lotze MT, Grimm EA, Mazumder A, Strausser JL, Rosenberg SA. Lysis of fresh and cultured autologous tumor by human lymphocytes cultured in T-cell growth factor. Cancer Res. 1981;41:4420. [PubMed] [Google Scholar]

[CR12] 12.Lotze MT, Frana LW, Sharrow SO, Robb R, Rosenberg SA. In vivo administration of purified interleukin 2. I. Half life and immunologic effect of the Jurkat cell line-derived interleukin 2. J Immuunol. 1985;134:157. [PubMed] [Google Scholar]

[CR13] 13.Lotze MT, Matory YL, Ettinghausen SE, Rayner AA, Sharriw SO, Seipp CAY, Custer MC, Rosenberg SA. In vivo administration of purified human interleukin 2. II. Half life, immunologic effects, and expansion of peritoneal lymphoid cells in vivo with recombinant IL 2. J Immunol. 1985;135:2865. [PubMed] [Google Scholar]

[CR14] 14.Lotze MT, Custer MC, Rosenberg SA. Intraperitoneal administration of interleukin-2 in patients with cancer. Arch Surg. 1986;121:1373. doi: 10.1001/archsurg.1986.01400120019002. [DOI] [PubMed] [Google Scholar]

[CR15] 15.Meltzer MS, Leonard EJ, Rapp HJ, Borsos T. Tumor-specific antigen solubilized by hypertonic potassium chloride. J Natl Cancer Inst. 1971;47:703. [PubMed] [Google Scholar]

[CR16] 16.Rosenberg SA. Immunotherapy of cancer using interleukin 2. Immunol Today. 1988;9:58. doi: 10.1016/0167-5699(88)91261-3. [DOI] [PubMed] [Google Scholar]

[CR17] 17.Rosenberg SA, Lotze MT. Cancer immunotherapy using interleukin-2 and interleukin-2 activated lymphocytes. Annu Rev Immunol. 1986;4:681. doi: 10.1146/annurev.iy.04.040186.003341. [DOI] [PubMed] [Google Scholar]

[CR18] 18.Rosenberg SA, Spiess PJ, Lafreniere R. A new approach to the adoptive immunotherapy of cancer with tumor infiltrating lymphocytes. Science. 1986;233:1318. doi: 10.1126/science.3489291. [DOI] [PubMed] [Google Scholar]

[CR19] 19.Tada T, Ohzeki S, Utsumi K, Takiuchi H, Muramatsu M, Li XL, Shimizu J, Fujiwara H, Hamaoka T. Transforming growth factor-b-induced inhibition of various phenotypes and functions and its relevance to immunosuppression in the tumor-bearing state. J Immunol. 1991;146:1077. [PubMed] [Google Scholar]

[CR20] 20.Tanida S, Uchida H, Taniguchi K, Nomoto K. Marked reduction of subcutaneous tumor growth by intraperitoneal administration of recombinant human interleukin 2 with a cell accumulator, proteose-peptone, in mice. Cancer Res. 1989;49:284. [PubMed] [Google Scholar]

[CR21] 21.Thompson JA, Peace DJ, Klarnet JP, Kern DE, Greenberg PD, Cheever MA. Eradication of disseminated murine leukemia by treatment with high-dose interleukin-2. J Immunol. 1986;137:3675. [PubMed] [Google Scholar]

[CR22] 22.Topalian SL, Solomon D, Rosenberg SA. Tumor-specific cytolysis by lymphocytes infiltrating human melanomas. J Immunol. 1989;142:3714. [PubMed] [Google Scholar]

[CR23] 23.Uchida H, Taniguchi K, Nomoto K. Combination treatment with irritant and recombinant interleukin 2 in the peritoncal cavity for evoking anti-tumor activity: generation of lymphokine-activated killer cells and tumor-specific killer cells. Jpn J Cancer Res. 1990;81:416. doi: 10.1111/j.1349-7006.1990.tb02584.x. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CR24] 24.Yasumoto K, Miyazaki K, Nagashima A, Ishida T, Kuda T, Yano T, Sugimachi K, Nomoto K. Induction of lymphokine-activated killer cells by intrapleural instillation of recombinant interleukin-2 in patients with malignant pleurisy due to lung cancer. Cancer Res. 1987;47:2184. [PubMed] [Google Scholar]

[CR25] 25.Yoshizawa H, Chang AE, Shu S. Specific adoptive immunotherapy mediated by tumor-draining lymph node cells sequentially activated with anti-CD3 and interleukin-2. J Immunol. 1991;147:729. [PubMed] [Google Scholar]

PERMALINK

Generation of tumor-specific cytotoxic T lymphocytesin vivo by combined treatment with inactivated tumor cells and recombinant interleukin-2

Mamoru Harada

Goro Matsuzaki

Yoshihiro Shinomiya

Shin Kurosawa

Osamu Ito

Tadao Okamoto

Mituhiro Takenoyama

Hiroshi Sumitika

Yousuke Nishimura

Kikuo Nomoto

Abstract

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PERMALINK

Generation of tumor-specific cytotoxic T lymphocytesin vivo by combined treatment with inactivated tumor cells and recombinant interleukin-2

Mamoru Harada

Goro Matsuzaki

Yoshihiro Shinomiya

Shin Kurosawa

Osamu Ito

Tadao Okamoto

Mituhiro Takenoyama

Hiroshi Sumitika

Yousuke Nishimura

Kikuo Nomoto

Abstract

References

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