Human spleen cells mediating natural killing: altered natural cytotoxicity of spleen effector cells from patients with carcinoma

MHC restricted and non-restricted killer lymphocytes

Cytotoxic lymphocytes are either MHC-restricted (cytotoxic T-cells) or nonrestricted (natural killer NK-cells), although cells of the monocyte/macrophage lineage are also cytotoxic, and lymphocytes or phagocytic cells expressing Fc-receptors for immunoglobulin can function as antibody-dependent killer cells (referred to as antibody-dependent cellular cytotoxicity: ADCC). Antigen-specific T-lymphocytes recognise their target antigen in the context of MHC class I components, focusing their attack only against those cells expressing the relevant antigen specificity on their cell surface. A more primitive and alternative mechanism exists whereby NK-cells, classified as large granular lymphocytes (LGL), are able to kill in a non-specific manner, not requiring prior sensitisation to antigen. Both antigen-specific T-cells and LGL mediate their cytotoxicity through the release of cytotoxic molecules at the target-effector cell interface. LGL also have a regulatory role in the immune system through the release of cytokines, and can be distinguished from T-lymphocytes by the expression of distinct phenotypic markers (CD16+, CD56+) and they lack CD3 antigen expression or rearranged alpha/beta or gamma/delta T-cell receptor gene products. Cytotoxic activity is positively regulated by interleukin-2 (IL-2) and interferon (IFN), whilst prostaglandins and transforming growth factor-beta (TGF beta) diminish activation and effector pathways. Cytotoxicity mediated by NK- and T-cell populations are principally involved in the defence against microbial infections and neoplasia; the abrogation of cytotoxicity either by direct interaction of 'suppressor factors' with effector cells, or indirectly by reducing cytokine production can inevitably lead to the proliferation of the disease.

The effect of the immune status of the TAR mouse on the growth and metastasis of tumour xenografts

Mice thymectomised at 3-4 weeks of age and subsequently given whole-body irradiation (9 Gy) under cytosine arabinoside cover (TAR mice) provide an alternative model to the athymic nude (nu+/nu+) mouse for studying the biological characteristics of tumour xenografts. In the present study we have evaluated the repopulation events in the bone marrow and spleen following whole body irradiation of TAR mice, and analysed immune competence up to 98 days following irradiation. Repopulation of both bone marrow and spleen was evident in the weeks following whole body irradiation, and an initial increase in the relative proportion of T-lymphocytes present in the spleen was followed by a decrease in the percentage of lymphocytes expressing T-cell markers, which remained below the level observed in control mouse spleen cell preparations. TAR mice exhibited a decreased ability to respond to a non-specific T-cell mitogen and to elicit a T-cell dependent antibody response to influenza viral antigen. Both TAR and control mice possessed macrophages which could be activated to the tumouricidal state, and natural killer activity of TAR mice was enhanced greater than 3-fold above control values. The ability of TAR mice to accept tumour xenografts decreased with the increasing time interval between irradiation and subcutaneous implantation of tumour cells, and (in some instances) spontaneous regression was observed. In addition, a hamster tumour cell line possessing high metastatic potential in its syngeneic host was shown to metastasise to the regional lymph node, lungs, liver, kidneys and spleen of TAR mice from a cell inoculum implanted subcutaneously immediately after irradiation; however, with increasing time between irradiation and inoculation of tumour cells tumour metastasis decreased. The ability of TAR mice to support the growth and metastasis of tumour xenografts would appear to inversely correlate with the increase in natural killer cell activity following irradiation.