Publication date: 19 December 2017
Source:Cell Reports, Volume 21, Issue 12
Author(s): Ja Choon Koo, In Chul Lee, Cheng Dai, Yuree Lee, Hui Kyung Cho, Yumi Kim, Bong-Kwan Phee, Hyunmin Kim, Il Hwan Lee, Seung Hee Choi, Su Jin Park, In Seon Jeon, Hong Gil Nam, June M. Kwak
Reactive oxygen species (ROS) are inevitable by-products of aerobic metabolic processes, causing non-specific oxidative damage and also acting as second messengers. Superoxide is a short-lived ROS that functions in various cellular responses, including aging and cell death. However, it is unclear as to how superoxide brings about age-dependent cell death and senescence. Here, we show that the accumulation and signaling of superoxide are mediated by three Arabidopsis proteins—RPK1, CaM4, and RbohF—which trigger subsequent cellular events leading to age-dependent cell death. We demonstrate that the NADPH oxidase RbohF is responsible for RPK1-mediated transient accumulation of superoxide, SIRK kinase induction, and cell death, all of which are positively regulated by CaM4. RPK1 physically interacts with and phosphorylates CaM4, which, in turn, interacts with RbohF. Overall, we demonstrate how the protein trio governs the superoxide accumulation and signaling at the cell surface to control senescence and cell death.
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Teaser
Senescence and cell death in plants are the final developmental stages that ensure a plant's survival and succession to the next generation. Koo et al. show that age-dependent cell death is controlled by the interplay between RPK1, CaM4, and RbohF via the accumulation of the superoxide.http://ift.tt/2ksl6rI
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