Giulia Santinon scite author profile

Increased glucose metabolism and reprogramming toward aerobic glycolysis are a hallmark of cancer cells, meeting their metabolic needs for sustained cell proliferation. Metabolic reprogramming is usually considered as a downstream consequence of tumor development and oncogene activation; growing evidence indicates, however, that metabolism on its turn can support oncogenic signaling to foster tumor malignancy. Here, we explored how glucose metabolism regulates gene transcription and found an unexpected link with YAP/TAZ, key transcription factors regulating organ growth, tumor cell proliferation and aggressiveness. When cells actively incorporate glucose and route it through glycolysis, YAP/TAZ are fully active; when glucose metabolism is blocked, or glycolysis is reduced, YAP/TAZ transcriptional activity is decreased. Accordingly, glycolysis is required to sustain YAP/TAZ pro-tumorigenic functions, and YAP/TAZ are required for the full deployment of glucose growth-promoting activity. Mechanistically we found that phosphofructokinase (PFK1), the enzyme regulating the first committed step of glycolysis, binds the YAP/TAZ transcriptional cofactors TEADs and promotes their functional and biochemical cooperation with YAP/ TAZ. Strikingly, this regulation is conserved in Drosophila, where phosphofructokinase is required for tissue overgrowth promoted by Yki, the fly homologue of YAP. Moreover, gene expression regulated by glucose metabolism in breast cancer cells is strongly associated in a large dataset of primary human mammary tumors with YAP/TAZ activation and with the progression toward more advanced and malignant stages. These findings suggest that aerobic glycolysis endows cancer cells with particular metabolic properties and at the same time sustains transcription factors with potent pro-tumorigenic activities such as YAP/TAZ.

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Control of YAP/TAZ Activity by Metabolic and Nutrient-Sensing Pathways

Santinon

Pocaterra

Dupont

2016

Trends in Cell Biology

149

124

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Extracellular matrix mechanical cues regulate lipid metabolism through Lipin-1 and SREBP

et al. 2019

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ach tissue has a specific composition of its extracellular matrix (ECM), which is associated with distinctive physical and mechanical properties. These mechanical properties are important for tissue structure, but also control cell function in physiology and disease 1,2. Cells sense the mechanical properties of the ECM through integrin receptors, and measure them by adjusting the contractility of their F-actin cytoskeleton: contractility is maximal when cells are free to spread on stiff ECM substrata, while it is progressively decreased on a soft ECM or in conditions of limited spreading 1. This is sufficient to control the switch between proliferation, differentiation and death in very diverse cell types, by regulating intracellular signalling pathways such as YAP (Yes-associated protein)/TAZ (transcriptional co-activator with PDZ-binding motif, also known as WWTR1) 3,4 and SRF (serum response factor) 5,6. In support of this model, inhibition of key players that maintain F-actin contractility including the small GTPase RHO, ROCK (RHO kinase), MLCK (myosin light chain kinase) and non-muscle myosin (NMII) induce similar responses to a soft ECM 1. Yet, which other general aspects of cell biology are regulated by mechanical cues, and through which mechanism(s), remain largely unexplored. This is especially true in the case of metabolism, a fundamental engine that is constantly remodelled to match the energetic and biosynthetic requirements of the cell, whose connections to mechanical cues are only starting to emerge 7,8. Results Actomyosin regulates lipid metabolism. To test in an unbiased manner the possibility that actomyosin contractility regulates metabolism we used global metabolomics to compare cells in conditions of high contractility (plated on plastics) with cells in conditions of low contractility, by inhibiting ROCK and MLCK. Analysis of steady-state levels of multiple metabolites indicated clear differences between controls and treated cells (Fig. 1a and Supplementary

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Impaired Mitochondrial ATP Production Downregulates Wnt Signaling via ER Stress Induction

et al. 2019

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d NTP metabolism links mechanical cues and YAP / TAZ to cell growth and oncogene‐induced senescence

et al. 2018

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YAP/TAZ, downstream transducers of the Hippo pathway, are powerful regulators of cancer growth. How these factors control proliferation remains poorly defined. Here, we found that YAP/TAZ directly regulate expression of key enzymes involved in deoxynucleotide biosynthesis and maintain dNTP precursor pools in human cancer cells. Regulation of deoxynucleotide metabolism is required for YAP-induced cell growth and underlies the resistance of YAP-addicted cells to chemotherapeutics targeting dNTP synthesis. During RAS-induced senescence, YAP/TAZ bypass RAS-mediated inhibition of nucleotide metabolism and control senescence. Endogenous YAP/TAZ targets and signatures are inhibited by RAS/MEK1 during senescence, and depletion of YAP/TAZ is sufficient to cause senescence-associated phenotypes, suggesting a role for YAP/TAZ in suppression of senescence. Finally, mechanical cues, such as ECM stiffness and cell geometry, regulate senescence in a YAP-dependent manner. This study indicates that YAP/TAZ couples cell proliferation with a metabolism suited for DNA replication and facilitates escape from oncogene-induced senescence. We speculate that this activity might be relevant during the initial phases of tumour progression or during experimental stem cell reprogramming induced by YAP.

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Giulia Santinon

Aerobic glycolysis tunes YAP / TAZ transcriptional activity

Control of YAP/TAZ Activity by Metabolic and Nutrient-Sensing Pathways

Extracellular matrix mechanical cues regulate lipid metabolism through Lipin-1 and SREBP

Impaired Mitochondrial ATP Production Downregulates Wnt Signaling via ER Stress Induction

d NTP metabolism links mechanical cues and YAP / TAZ to cell growth and oncogene‐induced senescence

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