Abstract
Animal cells counteract oxidative stress and electrophilic attack through coordinated expression of a set of detoxifying and antioxidant enzyme genes mediated by transcription factor Nrf2. In unstressed cells, Nrf2 appears to be sequestered in the cytoplasm via association with an inhibitor protein, Keap1. Here, by using the yeast two-hybrid screen, human Keap1 has been identified as a partner of the nuclear protein prothymosin α. The in vivo and in vitro data indicated that the prothymosin α-Keap1 interaction is direct, highly specific, and functionally relevant. Furthermore, we showed that Keap1 is a nuclear-cytoplasmic shuttling protein equipped with a nuclear export signal that is important for its inhibitory action. Prothymosin α was able to liberate Nrf2 from the Nrf2-Keap1 inhibitory complex in vitro through competition with Nrf2 for binding to the same domain of Keap1. In vivo, the level of Nrf2-dependent transcription was correlated with the intracellular level of prothymosin α by using prothymosin α overproduction and mRNA interference approaches. Our data attribute to prothymosin α the role of intranuclear dissociator of the Nrf2-Keap1 complex, thus revealing a novel function for prothymosin α and adding a new dimension to the molecular mechanisms underlying expression of oxidative stress-protecting genes.
ACKNOWLEDGMENTS
We thank R. Agami for providing pSuper and Y. Lazebnik for providing anti-caspase-3 antibodies. We are grateful to Tatyana Pestova and Christopher Hellen for their constant support.
This work was supported in part by the Ludwig Institute for Cancer Research (to A.B.V.) and by grants from the Russian Foundation for Basic Research (to N.V.C., A.G.E., and A.B.V.), the U.S. Civilian Research and Development Foundation for the Independent States of the Former Soviet Union (CRDF) (to A.B.V.), and the Russian Frontiers in Genetics Program (to A.B.V.).