AI Article Synopsis
- Lactate is found in high levels in rapidly dividing cells due to increased glucose breakdown needed for cell growth, but its impact on cell proliferation was unclear.
- Research revealed that accumulated lactate alters the anaphase promoting complex (APC/C) by inhibiting the SUMO protease SENP1, which affects protein regulation during the cell cycle.
- This mechanism allows lactate to signal the cell to proceed with division during nutrient-rich conditions, but excessive lactate can lead to faulty APC/C regulation and resistance to anti-mitotic treatments.
Article Abstract
Lactate is abundant in rapidly dividing cells owing to the requirement for elevated glucose catabolism to support proliferation. However, it is not known whether accumulated lactate affects the proliferative state. Here we use a systematic approach to determine lactate-dependent regulation of proteins across the human proteome. From these data, we identify a mechanism of cell cycle regulation whereby accumulated lactate remodels the anaphase promoting complex (APC/C). Remodelling of APC/C in this way is caused by direct inhibition of the SUMO protease SENP1 by lactate. We find that accumulated lactate binds and inhibits SENP1 by forming a complex with zinc in the SENP1 active site. SENP1 inhibition by lactate stabilizes SUMOylation of two residues on APC4, which drives UBE2C binding to APC/C. This direct regulation of APC/C by lactate stimulates timed degradation of cell cycle proteins, and efficient mitotic exit in proliferative human cells. This mechanism is initiated upon mitotic entry when lactate abundance reaches its apex. In this way, accumulation of lactate communicates the consequences of a nutrient-replete growth phase to stimulate timed opening of APC/C, cell division and proliferation. Conversely, persistent accumulation of lactate drives aberrant APC/C remodelling and can overcome anti-mitotic pharmacology via mitotic slippage. In sum, we define a biochemical mechanism through which lactate directly regulates protein function to control the cell cycle and proliferation.
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| http://dx.doi.org/10.1038/s41586-023-05939-3 | DOI Listing |
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