Environment Dictates Dependence on Mitochondrial Complex I for NAD+ and Aspartate Production and Determines Cancer Cell Sensitivity to Metformin

Gui, Dan Y.; Sullivan, Lucas B.; Luengo, Alba; Hosios, Aaron M.; Bush, Lauren N.; Gitego, Nadege; Davidson, Shawn M.; Freinkman, Elizaveta; Thomas, Craig J.; Heiden, Matthew G. Vander

doi:10.1016/j.cmet.2016.09.006

Cited by 292 publications

(337 citation statements)

References 55 publications

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“…Although the precise mechanism of metformin action remains controversial (Luengo et al, 2014), recent work has shown that the anti-tumorigenic effect of metformin can at least be partially accounted for by direct mitochondrial complex I inhibition in tumors (Gui et al, 2016; Wheaton et al, 2014). Consistent with this notion, other complex I inhibitors have shown efficacy as anti-tumor agents (Appleyard et al, 2012; Schockel et al, 2015) and may show selective toxicity against oncogene-ablation resistant cells (Viale et al, 2014) and cancer stem cells (Sancho et al, 2015).…”

Section: Emerging Metabolic Targetsmentioning

confidence: 99%

“…Additionally, NAD+ serves as a critical redox cofactor required to generate oxidized molecules, such as amino acids and nucleotides necessary for biomass accumulation (Birsoy et al, 2015; Sullivan et al, 2015; Titov et al, 2016). Proliferating cells often require a high NAD+/NADH ratio to support anabolic reactions, and in some contexts the NAD+/NADH ratio directly correlates with proliferation rate (Gui et al, 2016). Higher NAD+/NADH ratios appear important for proliferation while lower ratios favor mitochondrial ATP production.…”

Section: Emerging Metabolic Targetsmentioning

confidence: 99%

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Targeting Metabolism for Cancer Therapy

Luengo

Gui

Heiden

2017

Cell Chemical Biology

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759

624

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Metabolic reprogramming contributes to tumor development and introduces metabolic liabilities that can be exploited to treat cancer. Chemotherapies targeting metabolism have been effective cancer treatments for decades, and the success of these therapies demonstrates that a therapeutic window exists to target malignant metabolism. New insights into the differential metabolic dependencies of tumors have provided novel therapeutic strategies to exploit altered metabolism, some of which are being evaluated in pre-clinical models or clinical trials. Here, we review our current understanding of cancer metabolism and discuss how this might guide treatments targeting the metabolic requirements of tumor cells.

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Section: Emerging Metabolic Targetsmentioning

confidence: 99%

Section: Emerging Metabolic Targetsmentioning

confidence: 99%

Targeting Metabolism for Cancer Therapy

Luengo

Gui

Heiden

2017

Cell Chemical Biology

Self Cite

759

624

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“…More recently, it has been recognised that complex I inhibition has additional consequences related to accumulation of NADH relative to NAD + , which of course would also be expected to influence cellular biochemistry. One example of this is the inhibitory effect of biguanides on aspartate synthesis [13].…”

Section: Molecular Targetsmentioning

confidence: 99%

The effects of metformin on gut microbiota and the immune system as research frontiers

Pollak

2017

Diabetologia

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Recent studies have revealed that metformin influences gut microbiota and the immune system although neither is a classic target of the drug. This research has revealed complexity not previously appreciated, and opened new research directions. The extent to which immunomodulatory effects and actions on the microbiota are related to each other and account for effects on host energy metabolism remains to be determined. These sites of action may be relevant not only to the efficacy of metformin for its established use in type 2 diabetes, but also to proposed novel indications in oncology and other diseases.

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“…In assessing the cellular metabolic capacity with Seahorse XF24, the cells exhibited different maximal respiratory capacity that may explain the findings. Gui et al recently attempted to explain the discrepancy between in vitro and in vivo doses of metformin by providing evidence that breast cancer cell sensitivity was dependent on tumour microenvironments such as low NAD+/NADH ratio secondary to lower serine levels [305]. Therefore, when considering metformin doses and various cell type sensitivities, the microenvironment needs to be considered in addition to the cell types.…”

Section: Discussionmentioning

confidence: 99%

“…The upstream regulators of GTPase Pac1 such as P-Rex1, cAMP, and CXCL12/CXCR4 were also downregulated by metformin. Further, the drug decreased lipogenic proteins such as acetyl-CoA carboxylase, fatty acid synthase and sterol regulatory element binding protein-1c resulting in inhibition of lipogenesis of LNCaP and DU145 [305]. Lipogenesis is a key self-propagating mechanism for PCa cell lines which has been observed to be affected by insulin and metformin [5].…”

Section: Metformin and Pca Cellsmentioning

confidence: 99%

Androgen Deprivation Therapy (ADT), Metabolic Syndrome and Metastatic Prostate Cancer: In Vivo and In Vitro Assessments of Effects of Metformin

Rhee¹

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Research Title -In vivo In this translational research PhD project, we conducted a randomized, placebo-controlled clinical trial named ADT and Adjuvant Metformin (ADMET) trial to determine the metabolic and therapeutic effects of treating hyperinsulinaemia in men starting ADT using a diabetic medication called metformin. Men who had been diagnosed with metastatic PCa and commencing ADT as a standard strategy provided the opportunity to study the physiological and pathological impact of the acute rise in insulin levels resulting from the iatrogenic hypogonadism [6]. To assess for the therapeutic benefits of metformin, we used a variety of novel technologies such as circulating tumour cell (CTC) enumeration, culture, transcriptomic analysis, and molecular imaging.The clinical trial was commenced in September 2014 and was completed in March 2017. It concluded that hyperinsulinaemia and MS is a phenomenon that affects most patients when using ADT, although the changes can be ameliorated by metformin. The use of medication was associated with the reduced need for treatment of MS with agents such as statins and progression to CRPC. Further, the trial confirmed that insulin resistance at the time of starting treatment is associated with early development of CRPC and progression of the disease.Progression free survival was also demonstrated using a novel molecular imaging called Prostate Specific

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Environment Dictates Dependence on Mitochondrial Complex I for NAD+ and Aspartate Production and Determines Cancer Cell Sensitivity to Metformin

Cited by 292 publications

References 55 publications

Targeting Metabolism for Cancer Therapy

Targeting Metabolism for Cancer Therapy

The effects of metformin on gut microbiota and the immune system as research frontiers

Androgen Deprivation Therapy (ADT), Metabolic Syndrome and Metastatic Prostate Cancer: In Vivo and In Vitro Assessments of Effects of Metformin

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