The Role of PIDD in Apoptosis and Innate Antiviral Immunity

Kim, Ira

18 January 2012

PIDD has previously been described as a death domain (DD)-containing protein that is inducible upon p53 activation and plays a role in programmed cell death. It has previously been shown that PIDD interacts with RAIDD (RIP-associated ICE/CED3 homologous protein with a death domain) in a cytoplasmic complex known as the PIDDosome, which results in the activation of capsase-2 and ultimately in cell death in response to DNA damage. Despite earlier studies on PIDD, however, the physiological role of PIDD has not been elucidated. Thus, we have generated PIDD-deficient mice and examined its in vivo functions particularly in cell death and in antiviral innate immunity. The first major aim of the thesis is to determine whether or not PIDD is required in cell death. PIDD mice are developmentally normal and do not display a pronounced phenotype. Surprisingly, PIDD deficiency perturbed neither DNA damage-induced nor stress-induced cell death in a variety of cell types, suggesting that PIDD may not play a critical role in cell death. In addition, caspase-2 processing occurred normally in the absence of PIDD in response to ionizing irradiation or etoposide treatment, indicating that PIDD is dispensable in the cleavage of caspase-2. The second major aim is to examine the role of PIDD and RAIDD in LCMV-induced innate immunity. To study the role of PIDD and RAIDD in antiviral immune responses, I have generated PIDD/RAIDD double-deficient mice and challenged them with lymphocytic choriomeningitis virus (LCMV). Interestingly, I observed that ablation of both PIDD and RAIDD together resulted in defective viral clearance in the spleen, but not in other organs including the lung, liver, and kidney. In addition, the production of type I IFN was also decreased in the mice deficient in both PIDD and RAIDD. However, the cytotoxicity of the T lymphocytes was largely intact in the absence of both PIDD and RAIDD. Collectively, our results suggest that PIDD is dispensable in cell death, yet PIDD and RAIDD together have a synergistic effect in LCMV-induced antiviral innate immunity. The findings presented in this thesis provide a better understanding of the physiological role of PIDD and may ultimately contribute to the novel therapeutic strategies for the proper control of viral infection.

PIDD

apoptosis

Innate antiviral immunity

caspase-2

death domain

leucine-rich repeats

0982