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Tumor-Induced Oxidative Stress Perturbs Nuclear Factor-B Activity-Augmenting Tumor Necrosis Factor-–Mediated T-Cell Death: Protection by Curcumin

¹ Animal Physiology Section, Bose Institute, Calcutta, India and ² Department of Immunology, Lerner Research Institute, The Cleveland Clinic Foundation, Cleveland, Ohio

Requests for reprints: Gaurisankar Sa, Animal Physiology Section, Bose Institute, P-1/12 CIT Scheme VII M, Calcutta 700054, India. Phone: 91-33-2355-9416/9219/9544; Fax: 91-33-2334-3886; E-mail: gauri{at}bic.oseinst.ernet.in.

Cancer patients often exhibit loss of proper cell-mediated immunity and reduced effector T-cell population in the circulation. Thymus is a major site of T-cell maturation, and tumors induce thymic atrophy to evade cellular immune response. Here, we report severe thymic hypocellularity along with decreased thymic integrity in tumor bearer. In an effort to delineate the mechanisms behind such thymic atrophy, we observed that tumor-induced oxidative stress played a critical role, as it perturbed nuclear factor-B (NF-B) activity. Tumor-induced oxidative stress increased cytosolic IB retention and inhibited NF-B nuclear translocation in thymic T cells. These NF-B–perturbed cells became vulnerable to tumor-secreted tumor necrosis factor (TNF)- (TNF-)–mediated apoptosis through the activation of TNF receptor-associated protein death domain–associated Fas-associated protein death domain and caspase-8. Interestingly, TNF-–depleted tumor supernatants, either by antibody neutralization or by TNF--small interfering RNA transfection of tumor cells, were unable to kill T cell effectively. When T cells were overexpressed with NF-B, the cells became resistant to tumor-induced apoptosis. In contrast, when degradation-defective IB (IB super-repressor) was introduced into T cells, the cells became more vulnerable, indicating that inhibition of NF-B is the reason behind such tumor/TNF-–mediated apoptosis. Curcumin could prevent tumor-induced thymic atrophy by restoring the activity of NF-B. Further investigations suggest that neutralization of tumor-induced oxidative stress and restoration of NF-B activity along with the reeducation of the TNF- signaling pathway can be the mechanism behind curcumin-mediated thymic protection. Thus, our results suggest that unlike many other anticancer agents, curcumin is not only devoid of immunosuppressive effects but also acts as immunorestorer in tumor-bearing host. [Cancer Res 2007;67(1):362–70]

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