Although tumor growth enhances macrophage (m phi) cytotoxic activity by increasing their tumor necrosis factor-alpha (TNF-alpha) production, increased prostaglandin E2 (PGE2) synthesis reduces most immune responses during tumor growth. Macrophages that do not express major histocompatibility complex class II molecules (Ia- m phi) are the predominant suppressor and cytotoxic population and are more abundant in tumor-bearing hosts (TBHs). This study determined if TBH Ia- m phi s are the major population producing TNF-alpha and PGE2 and if these molecules affect Ia- m phi-mediated suppression of alloantigen-stimulated T cell proliferation. Normal host (NH) and TBH splenic Ia(+)-depleted (Ia-) m phi s synthesized more TNF-alpha than their respective whole populations (WPs) when cultured with lipopolysaccharide and interferon-gamma. TBH Ia- m phi s produced the most TNF-alpha. Northern blot analyses showed that Ia- m phi s had higher amounts of TNF-alpha mRNA expression than their respective WP, and TBH Ia- m phi s expressed the highest amounts of TNF-alpha mRNA. When WP and Ia- NH and TBH m phi s were added to alloantigen-stimulated T cells, suppression of T cell proliferation mediated by Ia- m phi s was greater than by their respective WP. TBH Ia- m phi s were most suppressive. The blockage of PGE2 production reduced suppression mediated by TBH Ia- m phi s more than by all other m phi populations. A PGE2-specific enzyme-linked immunosorbent assay showed that PGE2 production was greater in Ia- m phi- than in WP m phi-containing cultures and greatest in cultures containing TBH Ia- m phi s. Because TNF-alpha enhances T cell responses, its effects on Ia- m phi PGE2-mediated suppression was determined. When TNF-alpha was added to m phi-containing T cell cultures, TNF-alpha directly stimulated NH, but not TBH, Ia- m phi s, which enhanced T cell proliferation. However, inhibiting PGE2 production allowed TNF-alpha to stimulate T cell proliferation in TBH Ia- m phi-containing cultures. Collectively, these data show that Ia- m phi s are the major TNF-alpha- and PGE2-producing cells and that these molecules are partly responsible for the tumor-induced increase in m phi-mediated cytotoxicity and suppression, respectively. TNF-alpha not only mediates cytotoxicity but also counteracts Ia- m phi PGE2-mediated suppression. Although tumor growth increases Ia- m phi TNF-alpha production, enhanced PGE2 production blocks TNF-alpha's stimulatory action on Ia- m phi s, which favors their suppressor function during tumor growth.
Tumor-derived transforming growth factor-beta 1 (TGF-beta 1) suppresses several immune responses. Because tumor growth induces macrophage (m phi) suppressor activity, we determined whether murine fibrosarcoma-derived TGF-beta 1 contributed to m phi-mediated suppression of autoantigen- and alloantigen-stimulated T cell proliferation. The murine fibrosarcoma Meth-KDE cell line constitutively produced TGF-beta 1. Meth-KDE tumor-bearing host (TBH) syngeneic splenic m phi s suppressed autoantigen- and alloantigen-stimulated normal host (NH) CD4+ T cell proliferation. Pretreatment with Meth-KDE supernatants induced NH m phi s to suppress T cell proliferation as much as TBH m phi s. Anti-TGF-beta 1 antibody treatment reversed Meth-KDE-induced NH m phi-mediated suppression. Recombinant TGF-beta 1-induced m phi-mediated suppression was not blocked during inhibition of prostaglandin E2 (PGE2), nitric oxide (NO), or TGF-beta 1 production. However, Meth-KDE-induced m phi-mediated suppression was partly reduced when PGE2 production was inhibited. Pretreatment with tumor cell-derived TGF-beta 1, but not recombinant TGF-beta 1, increased activated m phi PGE2 production. These results show that additional tumor-derived molecules aid in TGF-beta 1-enhanced PGE2 production. Also, TGF-beta 1 alone up-regulates m phi synthesis of suppressor molecules that are different from PGE2, NO, and TGF-beta 1. Although TGF-beta 1 has direct suppressor activity on lymphocytes, these results show that release of tumor cell TGF-beta 1 also induces m phi suppressor activity.
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