Post-chemotherapeutic administration of interleukin-12 retards tumor growth and enhances immune cell function: combination therapy using paclitaxel and IL-12.

The antineoplastic agent paclitaxel (TAXOL) is a potent inhibitor of tumor cell division that also suppresses lymphocyte proliferative responses. Because chemotherapy-induced immunosuppression may limit the patient's antitumor responses, we investigated the possibility that the T cell stimulatory cytokine interleukin-12 (IL-12) could be used to reverse paclitaxel-mediated lymphocyte suppression. Recognizing that IL-12 treatment following paclitaxel exposure promotes T cell responses in vitro, we evaluated the antitumor efficacy of IL-12 administration concurrent and subsequent to paclitaxel treatment. Simultaneous administration of IL-12 and paclitaxel failed to limit tumor outgrowth or extend survival beyond chemotherapy alone, although IL-12 did not manifest negative effects. In contrast, post-chemotherapeutic IL-12 significantly delayed tumor outgrowth and extended survival in tumor-burdened BALB/c mice. Correlative enhancements in ex vivo immune cell effector function were also observed following paclitaxel and temporally delayed IL-12 therapy. Collectively, these data demonstrate an immunotherapeutic efficacy of IL-12 that augments the chemotherapeutic activities of paclitaxel when delivered in the appropriate temporal sequence.

Tumor-derived cytokines dysregulate macrophage interferon-gamma responsiveness and interferon regulatory factor-8 expression.

Tumors can evade immune responses through suppressor signals that dysregulate host effector cell function. In this study we demonstrate that tumor-derived suppressor molecules impede host antitumor immune activity through dysregulation of multiple macrophage (Mphi) pathways, including suppressed production of cytotoxic and immunostimulatory agents and impaired expression of the interferon regulatory factor-8 (IRF-8) protein, a critical transducer of interferon-gamma-mediated activation pathways. The tumor-derived immunosuppressive cytokines interleukin-10 and transforming growth factor-beta(1) constrain IRF-8 production by normal Mphis, regardless of priming, and IRF-8 is also dysregulated in primary Mphis from tumor-burdened hosts. Collectively, these data describe a new mechanism by which tumors disrupt immune function and suggest that abrogation of tumor-derived immunoregulatory factors in situ can restore immune function and enhance antitumor efficacy.