AI Article Synopsis
- Scythe is a protein linked to preventing cell death (apoptosis) and is crucial for developing Xenopus embryos by interacting with specific proteins.
- The N-terminal part of Scythe binds to a version of the protein XEF1AO, which can trigger apoptosis, promoting its degradation through a process called poly-ubiquitination.
- Removing Scythe from embryonic extracts leads to an increase in XEF1AO levels, highlighting Scythe's role in regulating XEF1AO to avoid excessive apoptosis during embryo development.
Article Abstract
Scythe was originally identified as a novel Reaper-binding anti-apoptotic protein, although the mechanisms of its functions remain largely obscure. Our previous analysis revealed that Scythe can bind to a proteasomal subunit via N-terminal domains and that the domains are required for appropriate development of Xenopus embryos. In the present study, we show evidence that the N-terminus of Scythe interacts with XEF1AO, a maternal form of Xenopus laevis EF1A that was suggested to be a potential inducer of apoptosis in vertebrates, and that the binding enhances the poly-ubiquitin modification and subsequent degradation of XEF1AO. Scythe is required for degradation of XEF1AO, since immunodepletion of Scythe from embryonic extracts stabilized XEF1AO significantly. Furthermore, we show that apoptosis induced by accumulation of XEF1AO can be suppressed by co-expression of the full-length form of Scythe. These observations indicate that the proteolytic regulation of XEF1AO, mediated through Scythe, is essential to prevent inappropriate accumulation of XEF1AO and resulting apoptotic events during the course of Xenopus development.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2267304 | PMC |
| http://dx.doi.org/10.1042/BJ20061886 | DOI Listing |
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