Possible Role of Macrophage-like Suppressor Cells in the Anti-tumour Activity of BCG

Overview

Journal Br J Cancer

Specialty Oncology

Date 1981 Dec 1

PMID 6459797

Citations 3

Authors

M Castes

N R Lynch

G Lespinats

S Orbach-Arbouys

Affiliations

Soon will be listed here.

Abstract

The i.v. injection of high doses (3 mg) of BCG into C3H mice bearing a transplantable 3-methylcholanthrene-induced fibrosarcoma caused the regression of a significant proportion. This effect was most evident when the BCG was injected on the day of the graft, or 7 days later. The injection of this agent either 14 days before the graft, or in low doses (0.1 or 0.5 mg), or directly into the tumour (i.t.) only prolonged the survival of the animals. Spleen cells from systemic high-dose BCG-treated mice were found to exert a strong nonspecific cytostatic effect in vitro that was not an artefact of the test conditions, and was not expressed by cells from low-dose animals. The cytostatic effect was shown to be caused by cells with the characteristics of macrophages, i.e. they were strongly adherent, unaffected by treatment with anti-Thy 1.2 + C', radioresistant but heat-sensitive, and were detected in BCG-treated "B" mice. The spleens of high-dose BCG-treated mice also contained suppressor cells that were capable of inhibiting the in vitro reactivity of normal T cells to PHA. Like the cytostatic effect, this suppressor activity was not detected in low-dose mice, and the cells responsible had the properties of macrophages; the effect was lost after the removal of adherent cells by sequential exposure to plastic and colloidal iron, but was conserved after treatment with anti-Thy 1.2 + C'. T-cell-deprived animals, such as "B" or nude mice, also developed suppressor-cell activity when treated with systemic high-dose BCG. Close parallels became evident between the in vivo anti-tumour activity of BCG, the in vitro cytostatic effect, and the suppressor-cell activity. We here discuss the possible role of suppressor cells in the mechanism of action of this agent.

Citing Articles

The immunologic and immunotherapeutic sequelae of intraperitoneal BCG. II: Serial changes in spleen weight, morphology, cell populations and in vitro mitogen responses.

Roche W, McLaughlin H Ir J Med Sci. 1983; 152(8):307-10.

PMID: 6629706 DOI: 10.1007/BF02945303.

Mechanisms associated with immunoregulation in human American cutaneous leishmaniasis.

Castes M, Agnelli A, Rondon A Clin Exp Immunol. 1984; 57(2):279-86.

PMID: 6467674 PMC: 1536102.

Effect of Bacillus Calmette-Guérin on the in vitro generation of cytotoxic T lymphocytes. II. Role of interleukin-1-like factors and of soluble suppressor factors.

Mellow L, SABBADINI E Immunology. 1985; 56(2):235-43.

PMID: 2932383 PMC: 1453679.

References

Stadecker M, Calderon J, Karnovsky M, UNANUE E . Synthesis and release of thymidine by macrophages. J Immunol. 1977; 119(5):1738-43. View

van der Gaag R, McCullagh P . Influence of secondary inoculum of tumour cells on growth of primary tumour. Br J Cancer. 1978; 37(1):86-91. PMC: 2009507. DOI: 10.1038/bjc.1978.13. View

Klimpel G, Henney C . BCG-induced suppressor cells. I. Demonstration of a macrophage-like suppressor cell that inhibits cytotoxic T cell generation in vitro. J Immunol. 1978; 120(2):563-9. View

Olsson L, Ebbesen P, Kiger N, Florentin I, MATHE G . The antileukemic effect of systemic non-specific BCG-immunostimulation vs systemic specific immunostimulation with irradiated isogeneic leukemic cells. Eur J Cancer (1965). 1978; 14(4):355-62. DOI: 10.1016/0014-2964(78)90205-0. View

Bullock W, Carlson E, GERSHON R . The evolution of immunosuppressive cell populations in experimental mycobacterial infection. J Immunol. 1978; 120(5):1709-16. View

Lynch N, Castes M, ASTOIN M, SALOMON J . Mechanism of inhibition of tumour growth by aspirin and indomethacin. Br J Cancer. 1978; 38(4):503-12. PMC: 2009769. DOI: 10.1038/bjc.1978.237. View

Orbach-Arbouys S, Castes M . Augmentation of immune responses after methotrexate administration. Immunology. 1979; 36(2):265-9. PMC: 1457463. View

Orbach-Arbouys S, Castes M . Suppression of T-cell responses to histocompatibility antigens by BCG pre-treatment. Immunology. 1980; 39(2):263-8. PMC: 1457978. View

Morton D, Eilber F, Malmgren R, Wood W . Immunological factors which influence response to immunotherapy in malignant melanoma. Surgery. 1970; 68(1):158-63; discussion 163-4. View

10.

Reif A, Allen J . THE AKR THYMIC ANTIGEN AND ITS DISTRIBUTION IN LEUKEMIAS AND NERVOUS TISSUES. J Exp Med. 1964; 120:413-33. PMC: 2137766. DOI: 10.1084/jem.120.3.413. View

11.

Mackaness G . The monocyte in cellular immunity. Semin Hematol. 1970; 7(2):172-84. View

12.

Cohen A, Schlesinger M . Absorption of guinea pig serum with agar. A method for elimination of itscytotoxicity for murine thymus cells. Transplantation. 1970; 10(1):130-2. DOI: 10.1097/00007890-197007000-00027. View

13.

GERSHON R, Kondo K . Infectious immunological tolerance. Immunology. 1971; 21(6):903-14. PMC: 1408252. View

14.

Evans R, Alexander P . Mechanism of immunologically specific killing of tumour cells by macrophages. Nature. 1972; 236(5343):168-70. DOI: 10.1038/236168a0. View

15.

Hanna Jr M, Zbar B, Rapp H . Histopathology of tumor regression after intralesional injection of Mycobacterium bovis. I. Tumor growth and metastasis. J Natl Cancer Inst. 1972; 48(5):1441-55. View

16.

Finklestein J, Tittle K, IMAGAWA D . Immunoprophylaxis and immunotherapy of leukaemia with B.C.G. Lancet. 1972; 2(7782):875-6. DOI: 10.1016/s0140-6736(72)92238-6. View

17.

Badger A, COOPERBAND S, Green J . Culture conditions affecting induction and release of lymphocyte produced proliferation inhibitory factor (PIF). Cell Immunol. 1973; 8(1):12-27. DOI: 10.1016/0008-8749(73)90089-0. View

18.

Golstein P, Blomgren H . Further evidence for autonomy of T cells mediating specific in vitro cytotoxicity: efficiency of very small amounts of highly purified T cells. Cell Immunol. 1973; 9(1):127-41. DOI: 10.1016/0008-8749(73)90174-3. View

19.

Ha T, Waksman B, TREFFERS H . The thymic suppressor cell. I. Separation of subpopulations with suppressor activity. J Exp Med. 1974; 139(1):13-23. PMC: 2139511. DOI: 10.1084/jem.139.1.13. View

20.

Julius M, Simpson E, Herzenberg L . A rapid method for the isolation of functional thymus-derived murine lymphocytes. Eur J Immunol. 1973; 3(10):645-9. DOI: 10.1002/eji.1830031011. View