AI Article Synopsis
- Tubulin acetylation, typically found in stable microtubules, increases after UV exposure or nutrient deprivation, although the mechanisms behind this hyperacetylation are not well understood.
- In this study, researchers reveal that this hyperacetylation is a common cellular response to stress, involving the tubulin acetyltransferase MEC-17, which is regulated by the acetyltransferase p300.
- The study highlights that oxidative stress from mitochondria is crucial for this process, activating AMP kinase that phosphorylates MEC-17, and emphasizes that disrupting hyperacetylation can impact cell survival during stressful conditions like starvation.
Article Abstract
Beyond its presence in stable microtubules, tubulin acetylation can be boosted after UV exposure or after nutrient deprivation, but the mechanisms of microtubule hyperacetylation are still unknown. In this study, we show that this hyperacetylation is a common response to several cellular stresses that involves the stimulation of the major tubulin acetyltransferase MEC-17. We also demonstrate that the acetyltransferase p300 negatively regulates MEC-17 expression and is sequestered on microtubules upon stress. We further show that reactive oxygen species of mitochondrial origin are required for microtubule hyperacetylation by activating the AMP kinase, which in turn mediates MEC-17 phosphorylation upon stress. Finally, we show that preventing microtubule hyperacetylation by knocking down MEC-17 affects cell survival under stress conditions and starvation-induced autophagy, thereby pointing out the importance of this rapid modification as a broad cell response to stress.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4002089 | PMC |
| http://dx.doi.org/10.1074/jbc.M113.507400 | DOI Listing |
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