AI Article Synopsis
- - Sirtuins are proteins that play roles in aging, metabolism, and regulating cell processes, with Sirt3 being specific to mitochondrial functions during post-stroke recovery, yet its role was not well-studied.
- - Research using Sirt3 knockout mice showed these mice experienced significant neuroprotection after stroke, likely due to an increase in Sirt1 levels that counterbalance the absence of Sirt3, affecting LKB1 activity.
- - The study highlights the need for both pharmacological and genetic approaches in pre-clinical stroke research, as inhibiting Sirt3 did not yield expected neuroprotective benefits despite some deacetylation activity being evident.
Article Abstract
Sirtuins (Sirt) are a family of NAD+ dependent histone deacetylase (HDAC) proteins implicated in aging, cell cycle regulation, and metabolism. These proteins are involved in the epigenetic modification of neuromodulatory proteins after strokevia acetylation/deacetylation. The specific role of Sirt3, a mitochondrial sirtuin, in post-stroke injury has been relatively unexplored. Using male Sirt3 knockout (KO) mice and wild-type littermates (WT), we show that Sirt3 KO mice show significant neuroprotection at 3 days after ischemia/reperfusion (I/R) or stroke injury. The deacetylation activity of Sirt3, measured as the amount of reduced acetylated lysine, was increased after stroke. Stroke-induced increases in liver kinase 1 (LKB1) activity were also reduced in KO mice at 3 days after stroke. On further investigation, we found that the levels of Sirt1, another important member of the Sirtuin family, were increased in the brains of Sirt3 KO mice after stroke. To determine the translational relevance of these findings, we then tested the effects of pharmacological inhibition of Sirt3. We found no benefit of Sirt3 inhibition despite clear evidence of deacetylation. Overall, these data suggest that Sirt3 KO mice show neuroprotection by a compensatory rise in Sirt1 rather than the loss of Sirt3 after stroke. Further analysis reveals that the beneficial effects of Sirt1 might be mediated by a decrease in LKB1 activity after stroke. Finally, our data clearly demonstrate the importance of using both pharmacological and genetic methods in pre-clinical stroke studies.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9527822 | PMC |
| http://dx.doi.org/10.1007/s12975-017-0603-x | DOI Listing |
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