Here, we describe that microenvironmental IL-1 and, to a lesser extent, IL-1␣ are required for in vivo angiogenesis and invasiveness of different tumor cells. In IL-1 knockout (KO) mice, local tumor or lung metastases of B16 melanoma cells were not observed compared with WT mice. Angiogenesis was assessed by the recruitment of blood vessel networks into Matrigel plugs containing B16 melanoma cells; vascularization of the plugs was present in WT mice, but was absent in IL-1 KO mice. The addition of exogenous IL-1 into B16-containing Matrigel plugs in IL-1 KO mice partially restored the angiogenic response. Moreover, the incorporation of IL-1 receptor antagonist to B16-containing plugs in WT mice inhibited the ingrowth of blood vessel networks into Matrigel plugs. In IL-1␣ KO mice, local tumor development and induction of an angiogenic response in Matrigel plugs was less pronounced than in WT mice, but significantly higher than in IL-1 KO mice. These effects of host-derived IL-1␣ and IL-1 were not restricted to the melanoma model, but were also observed in DA͞3 mammary and prostate cancer cell models. In addition to the in vivo findings, IL-1 contributed to the production of vascular endothelial cell growth factor and tumor necrosis factor in cocultures of peritoneal macrophages and tumor cells. Host-derived IL-1 seems to control tumor angiogenesis and invasiveness. Furthermore, the anti-angiogenic effects of IL-1 receptor antagonist, shown here, suggest a possible therapeutic role in cancer, in addition to its current use in rheumatoid arthritis.
In this study, we show that distinct compartmentalization patterns of the IL-1 molecules (IL-1α and IL-1β), in the milieu of tumor cells that produce them, differentially affect the malignant process. Active forms of IL-1, namely precursor IL-1α (pIL-1α), mature IL-1β (mIL-1β), and mIL-1β fused to a signal sequence (ssIL-1β), were transfected into an established fibrosarcoma cell line, and tumorigenicity and antitumor immunity were assessed. Cell lines transfected with pIL-1α, which expresses IL-1α on the membrane, fail to develop local tumors and activate antitumor effector mechanisms, such as CTLs, NK cells, and high levels of IFN-γ production. Cells transfected with secretable IL-1β (mIL-1β and ssIL-1β) were more aggressive than wild-type and mock-transfected tumor cells; ssIL-1β transfectants even exhibited metastatic tumors in the lungs of mice after i.v. inoculation (experimental metastasis). In IL-1β tumors, increased vascularity patterns were observed. No detectable antitumor effector mechanisms were observed in spleens of mice injected with IL-1β transfectants, mock-transfected or wild-type fibrosarcoma cells. Moreover, in spleens of mice injected with IL-1β transfectants, suppression of polyclonal mitogenic responses (proliferation, IFN-γ and IL-2 production) to Con A was observed, suggesting the development of general anergy. Histologically, infiltrating mononuclear cells penetrating the tumor were seen at pIL-1α tumor sites, whereas in mIL-1β and ssIL-1β tumor sites such infiltrating cells do not penetrate inside the tumor. This is, to our knowledge, the first report on differential, nonredundant, in vivo effects of IL-1α and IL-1β in malignant processes; IL-1α reduces tumorigenicity by inducing antitumor immunity, whereas IL-1β promotes invasiveness, including tumor angiogenesis, and also induces immune suppression in the host.
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