TY - JOUR
T1 - Mitochondrial ACSS1-K635 acetylation knock-in mice exhibit altered liver lipid metabolism on a ketogenic diet
AU - Xu, Guogang
AU - Schell, Joseph
AU - Quan, Songhua
AU - Gao, Yucheng
AU - Wei, Sung Jen
AU - Pan, Meixia
AU - Han, Xianlin
AU - Li, Guiming
AU - Zhou, Daohong
AU - Jiang, Haiyan
AU - Dong, Felix F.
AU - Munkácsy, Erin
AU - Horikoshi, Nobuo
AU - Gius, David
N1 - Publisher Copyright:
© 2025
PY - 2025/5
Y1 - 2025/5
N2 - Acetyl-CoA Synthetase Short Chain Family Member-1 (ACSS1) catalyzes the ligation of acetate and coenzyme A to generate acetyl-CoA in the mitochondria to produce ATP through the tricarboxylic acid (TCA) cycle. We recently generated an ACSS1-acetylation (Ac) mimic knock-in mouse, where lysine 635 was mutated to glutamine (K635Q), which structurally and biochemically mimics an acetylated lysine. ACSS1 enzymatic activity is regulated, at least in part, through the acetylation of lysine 635 in mice (lysine 642 in humans), a Sirtuin 3 deacetylation target. We challenged our Acss1K635Q knock-in mice with a three-week ketogenic diet. While both wild-type and Acss1K635Q knock-in mice were in ketosis with similar blood glucose levels, the Acss1K635Q mice exhibited elevated blood acetate and liver acetyl-CoA. In addition, and importantly, compared to wild-type mice, the liver in the Acss1K635Q mice displayed a much more predominant liver steatosis morphology and accumulation of lipid drops, as measured by H&E and Oil Red O staining. RNAseq analysis identified that genes related to mitochondrial respiratory chain complexes and oxidative stress were significantly overexpressed in the Acss1K635Q mice on a KD. Finally, lipidomics analysis revealed very different lipid profiles for these groups, including a dramatic increase in triacylglycerides (TAGs), phosphatidylcholines (PCs), phosphatidylethanolamines (PEs), and cardiolipins in the Acss1K635Q liver.
AB - Acetyl-CoA Synthetase Short Chain Family Member-1 (ACSS1) catalyzes the ligation of acetate and coenzyme A to generate acetyl-CoA in the mitochondria to produce ATP through the tricarboxylic acid (TCA) cycle. We recently generated an ACSS1-acetylation (Ac) mimic knock-in mouse, where lysine 635 was mutated to glutamine (K635Q), which structurally and biochemically mimics an acetylated lysine. ACSS1 enzymatic activity is regulated, at least in part, through the acetylation of lysine 635 in mice (lysine 642 in humans), a Sirtuin 3 deacetylation target. We challenged our Acss1K635Q knock-in mice with a three-week ketogenic diet. While both wild-type and Acss1K635Q knock-in mice were in ketosis with similar blood glucose levels, the Acss1K635Q mice exhibited elevated blood acetate and liver acetyl-CoA. In addition, and importantly, compared to wild-type mice, the liver in the Acss1K635Q mice displayed a much more predominant liver steatosis morphology and accumulation of lipid drops, as measured by H&E and Oil Red O staining. RNAseq analysis identified that genes related to mitochondrial respiratory chain complexes and oxidative stress were significantly overexpressed in the Acss1K635Q mice on a KD. Finally, lipidomics analysis revealed very different lipid profiles for these groups, including a dramatic increase in triacylglycerides (TAGs), phosphatidylcholines (PCs), phosphatidylethanolamines (PEs), and cardiolipins in the Acss1K635Q liver.
KW - Acetate
KW - Acetyl-CoA synthetase
KW - Ketogenic diet
KW - Lipid metabolism
KW - Steatosis
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UR - http://www.scopus.com/inward/citedby.url?scp=86000724499&partnerID=8YFLogxK
U2 - 10.1016/j.freeradbiomed.2025.03.009
DO - 10.1016/j.freeradbiomed.2025.03.009
M3 - Article
C2 - 40074187
AN - SCOPUS:86000724499
SN - 0891-5849
VL - 232
SP - 260
EP - 268
JO - Free Radical Biology and Medicine
JF - Free Radical Biology and Medicine
ER -