[PDF][PDF] Lysine-5 acetylation negatively regulates lactate dehydrogenase A and is decreased in pancreatic cancer
Cancer cell, 2013•cell.com
Tumor cells commonly have increased glucose uptake and lactate accumulation. Lactate is
produced from pyruvate by lactate dehydrogenase A (LDH-A), which is frequently
overexpressed in tumor cells and is important for cell growth. Elevated transcription by c-Myc
or HIF1α may contribute to increased LDH-A in some cancer types. Here, we show that LDH-
A is acetylated at lysine 5 (K5) and that this acetylation inhibits LDH-A activity. Furthermore,
the K5-acetylated LDH-A is recognized by the HSC70 chaperone and delivered to …
produced from pyruvate by lactate dehydrogenase A (LDH-A), which is frequently
overexpressed in tumor cells and is important for cell growth. Elevated transcription by c-Myc
or HIF1α may contribute to increased LDH-A in some cancer types. Here, we show that LDH-
A is acetylated at lysine 5 (K5) and that this acetylation inhibits LDH-A activity. Furthermore,
the K5-acetylated LDH-A is recognized by the HSC70 chaperone and delivered to …
Summary
Tumor cells commonly have increased glucose uptake and lactate accumulation. Lactate is produced from pyruvate by lactate dehydrogenase A (LDH-A), which is frequently overexpressed in tumor cells and is important for cell growth. Elevated transcription by c-Myc or HIF1α may contribute to increased LDH-A in some cancer types. Here, we show that LDH-A is acetylated at lysine 5 (K5) and that this acetylation inhibits LDH-A activity. Furthermore, the K5-acetylated LDH-A is recognized by the HSC70 chaperone and delivered to lysosomes for degradation. Replacement of endogenous LDH-A with an acetylation mimetic mutant decreases cell proliferation and migration. Importantly, K5 acetylation of LDH-A is reduced in human pancreatic cancers. Our study reveals a mechanism of LDH-A upregulation in pancreatic cancers.
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