Using a toolkit that integrates epiproteomics and metabolomics with stable isotope tracer studies, we show that depletion of HATs in murine hepatocytes leads to accumulation of lipids as well as lipid droplets. This increase in lipids in HAT-depleted cells resulted from carbon atoms flowing from the deacetylation of doubly labeled acetylated histone marks to fatty acids, making histone-derived acetyl-CoA an important source for lipid synthesis. In fact, we demonstrate that the synthesis of HDAC-derived acetyl-CoA mediated from ACSS2 is essential for lipid droplet formation. We also demonstrate that ACSS2-mediated increase in lipid content in HAT-depleted cells is not HAT-specific but due to their common feature of consuming acetyl-CoA. Overall, our findings demonstrate a novel path through which histone-modifying enzymes can directly contribute to lipogenic acetyl-CoA pools, contributing to metabolic disorders such as fatty liver. Our proposed model provides a novel mechanistic role of HATs, HDACs and ACSS2 in the metabolism-epigenetics nexus, where histones can act as metabolic reservoirs and the relative activity between HATs and HDACs acting on these reservoirs can determine lipogenic acetyl-CoA pools. This emerging concept has been proposed by recent reviews and might have important implications in diseases with increased rates of lipid synthesis, such as non-alcoholic fatty liver disease.
The results of the project were disseminated to the following conferences:
1. 18th Annual Conference of the Metabolomics Society
Valencia, Spain 2022
June 19-21
Poster presentation title: “Acetyltransferases as direct regulators of metabolic reprogramming: Towards a New Paradigm”
2. 10th International Multithematic Bio-Medical Congress (IMBMC) Scientific Cyprus
Nicosia, Cyprus 2022
November 3-5
Oral Presentation title: “Histone modifying enzymes as direct regulators of metabolic reprogramming in fatty liver”
3. 17th Annual Conference of the Metabolomics Society, Online
2021
Oral Presentation title: Histone acetyltransferase NAA40 affects insulin signalling by modulating acetyl-CoA levels and lipid synthesis
4. EMBO | EMBL Symposium: Metabolism Meets Epigenetics Online
Wed 11/17/2021 - Sat 11/20/2021
Poster presentation title: Histone acetyltransferase NAA40 affects insulin signalling by modulating acetyl-CoA levels and lipid synthesis
In addition to conferences, the fellow presented the MetabolACE project to a departmental seminar, sharing results with the Biological Sciences Department of UCY.
The results of the project as anticipated resulted into two publications:
1. Charidemou, E., Tsiarli, M.A. Theophanous, A. et al. Histone acetyltransferase NAA40 modulates acetyl-CoA levels and lipid synthesis. BMC Biol 20, 22 (2022).
https://doi.org/10.1186/s12915-021-01225-8(s’ouvre dans une nouvelle fenêtre)2. Charidemou, E. et al.(In preparation)