SIRT4 positively regulates autophagy via ULK1, but independently of HDAC6 and OPA1

The sirtuin SIRT4 has been implicated in the control of autophagy and mitochondrial quality control via mitophagy, but the regulatory role of SIRT4 in autophagy/mitophagy induced by different stressors is unclear. Here, we show that cells expressing SIRT4(H161Y), a catalytically inactive, dominant-negative mutant of SIRT4, fail to upregulate LC3B-II and show a reduced autophagic flux upon treatment with different inducers of mitophagy/autophagy, i.e ., CoCl ₂ -triggered pseudohypoxia, CCCP/oligomycin-mediated respiratory chain inhibition, or rapamycin treatment. Interestingly, SIRT4(H161Y) expression (i) upregulated protein levels of HDAC6, which is involved in mitochondrial trafficking and autophagosome-lysosome fusion, and (ii) inhibited the conversion of OPA1-L to OPA1-S, which is associated with increased mitochondrial fusion and decreased mitophagy. Both HDAC6 and OPA1 are SIRT4 interactors. However, pharmacological inhibition of neither HDAC6 via Tubacin nor OPA1 via MYLS22 restored the stress-induced upregulation of LC3B-II levels upon autophagy/mitophagy treatment of SIRT4(H161Y)-expressing cells. Remarkably, inhibition of autophagosome-lysosome fusion and thus disruption of late autophagic flux by BafA1 treatment also failed to restore LC3B-II levels upon autophagy/mitophagy treatment, suggesting an inhibitory effect of SIRT4(H161Y) on the initiation/early phase of autophagy. Consistent with this idea, we show that SIRT4(H161Y) promoted the phosphorylation of ULK1 at S638 and S758 (mTORC1 targets), both of which mediate an important inhibitory regulation of autophagy initiation. Thus, our data suggest a positive regulatory function of SIRT4, presumably via modulation of AMPK/mTORC1 signaling, in the ULK1-dependent early regulation/initiation of stress-induced autophagic flux.