S I Tsukumo1, S Yonehara. 1. Institute for Virus Research, Kyoto University, Kawahara-cho, Shogoin, Sakyo-ku, Kyoto 606-8507, Japan.
Abstract
BACKGROUND: The death effector domain (DED), which functions as a domain for a homophilic protein interaction, plays a role in death receptor-mediated apoptosis. Two tandemly repeated DEDs in the prodomain of caspase-8 (Casp8NC-DED) and those in MC159 (viral FLIP) have been shown to positively and negatively regulate apoptosis, respectively, by binding to caspase-8 and/or Fas-associated death domain (FADD). However, characteristics of each DED in Casp8NC-DED and those in MC159 have not been well examined. RESULTS: We analysed deletion and chimera mutants of DEDs derived from Casp8NC-DED and MC159, and found that MC159 and Casp8NC-DED require the combined effects of the two repeated DEDs to exert their binding and biological activities. The carboxy-terminal DED of Casp8NC-DED (Casp8C-DED) has the potential to induce apoptosis, and the amino-terminal DED of MC159 showed a dominant inhibitory effect on apoptosis when combined with Casp8C-DED. In addition, the two repeated DEDs in Casp8NC-DED and MC159 were shown to regulate the activities of caspase differently from the caspase recruitment domain (CARD) in the prodomains of caspase-2, -9 and Apaf-1. CONCLUSIONS: Although each of the DEDs in Casp8NC-DED and MC159 has the potential to stimulate or inhibit apoptosis, the combination of the two-repeated DEDs is necessary for the DED-containing proteins to stimulate or inhibit apoptosis.
BACKGROUND: The death effector domain (DED), which functions as a domain for a homophilic protein interaction, plays a role in death receptor-mediated apoptosis. Two tandemly repeated DEDs in the prodomain of caspase-8 (Casp8NC-DED) and those in MC159 (viral FLIP) have been shown to positively and negatively regulate apoptosis, respectively, by binding to caspase-8 and/or Fas-associated death domain (FADD). However, characteristics of each DED in Casp8NC-DED and those in MC159 have not been well examined. RESULTS: We analysed deletion and chimera mutants of DEDs derived from Casp8NC-DED and MC159, and found that MC159 and Casp8NC-DED require the combined effects of the two repeated DEDs to exert their binding and biological activities. The carboxy-terminal DED of Casp8NC-DED (Casp8C-DED) has the potential to induce apoptosis, and the amino-terminal DED of MC159 showed a dominant inhibitory effect on apoptosis when combined with Casp8C-DED. In addition, the two repeated DEDs in Casp8NC-DED and MC159 were shown to regulate the activities of caspase differently from the caspase recruitment domain (CARD) in the prodomains of caspase-2, -9 and Apaf-1. CONCLUSIONS: Although each of the DEDs in Casp8NC-DED and MC159 has the potential to stimulate or inhibit apoptosis, the combination of the two-repeated DEDs is necessary for the DED-containing proteins to stimulate or inhibit apoptosis.
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