Anti-Warburg Effect of Melatonin: A Proposed Mechanism to Explain its Inhibition of Multiple Diseases

Reíter, Russel J.; Sharma, Ramaswamy; Rosales-Corral, Sergio

doi:10.3390/ijms22020764

Cited by 44 publications

(34 citation statements)

References 230 publications

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“…The phosphorylated AKT separates from the cell membrane, causing intracellular reactions with the mTORC-containing substrates. AKT promotes lipid biosynthesis and glucose transport to cancer cells with improved glycolysis through activation of mTOR [24]. The PI3K/AKT signaling pathway promotes the breakdown and uptake of glucose and lactic acid production, thus playing an important role in the metabolic reprogramming of cancer cells [25].…”

Section: Changes In the Signaling Pathwaysmentioning

confidence: 99%

Regulation of Cancer Metabolism by Deubiquitinating Enzymes: The Warburg Effect

Kim

Baek

2021

IJMS

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Cancer is a disorder of cell growth and proliferation, characterized by different metabolic pathways within normal cells. The Warburg effect is a major metabolic process in cancer cells that affects the cellular responses, such as proliferation and apoptosis. Various signaling factors down/upregulate factors of the glycolysis pathway in cancer cells, and these signaling factors are ubiquitinated/deubiquitinated via the ubiquitin–proteasome system (UPS). Depending on the target protein, DUBs act as both an oncoprotein and a tumor suppressor. Since the degradation of tumor suppressors and stabilization of oncoproteins by either negative regulation by E3 ligases or positive regulation of DUBs, respectively, promote tumorigenesis, it is necessary to suppress these DUBs by applying appropriate inhibitors or small molecules. Therefore, we propose that the DUBs and their inhibitors related to the Warburg effect are potential anticancer targets.

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Section: Changes In the Signaling Pathwaysmentioning

confidence: 99%

Regulation of Cancer Metabolism by Deubiquitinating Enzymes: The Warburg Effect

Kim

Baek

2021

IJMS

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“…New molecular insights beyond metabolic reprogramming introduce new opportunities to target essential steps of cancer-associated energetic processes. Melatonin affects steps associated with the Warburg phenotype and suppresses the switch from OXPHOS to aerobic glycolysis [ 12 ].…”

Section: Structural and Functional Aspects Of Melatoninmentioning

confidence: 99%

“…Moreover, melatonin has oncostatic effects by stimulating apoptosis, regulation of survival signaling, suppression of metastasis and angiogenesis and on the epigenetic machinery contributing to the malignant transformation demonstrated in vitro and in vivo [ 8 , 9 , 10 , 11 ]. Significantly, melatonin can attenuate the metabolic reprogramming of cancer cells [ 12 , 13 ]. Indeed, melatonin exerts a wide range of different effects, and its functional chemical groups play a key role in the induced oncostatic properties.…”

Section: Introductionmentioning

confidence: 99%

Metabolic Anti-Cancer Effects of Melatonin: Clinically Relevant Prospects

Samec

Líšková

Koklesová

et al. 2021

Cancers

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Metabolic reprogramming characterized by alterations in nutrient uptake and critical molecular pathways associated with cancer cell metabolism represents a fundamental process of malignant transformation. Melatonin (N-acetyl-5-methoxytryptamine) is a hormone secreted by the pineal gland. Melatonin primarily regulates circadian rhythms but also exerts anti-inflammatory, anti-depressant, antioxidant and anti-tumor activities. Concerning cancer metabolism, melatonin displays significant anticancer effects via the regulation of key components of aerobic glycolysis, gluconeogenesis, the pentose phosphate pathway (PPP) and lipid metabolism. Melatonin treatment affects glucose transporter (GLUT) expression, glucose-6-phosphate dehydrogenase (G6PDH) activity, lactate production and other metabolic contributors. Moreover, melatonin modulates critical players in cancer development, such as HIF-1 and p53. Taken together, melatonin has notable anti-cancer effects at malignancy initiation, progression and metastasing. Further investigations of melatonin impacts relevant for cancer metabolism are expected to create innovative approaches supportive for the effective prevention and targeted therapy of cancers.

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“…The notion that the expression of melatoninconverting enzyme is correlated with the expression of these metabolic enzymes brings up a possible genetic and functional interdependence associated with these tumor types. Importantly, melatonin functions as a glycolytic agent by changing the tumor cell phenotype to a healthier phenotype (54). In this context, numerous observations point to melatonin synthesized in the mitochondria of all healthy cells but not, or at much lower levels, in cancerous cells.…”

Section: Discussionmentioning

confidence: 99%

Melatonergic index as a prognostic biomarker of reproductive organ cancers: correlations with metabolic parameters as well as clock genes PER1 and TIMELESS

Chuffa¹,

Carvalho²,

Seiva³

et al. 2021

Melatonin Res.

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Cancers of the reproductive organs are often hard to be detected, and patients’ survival rate drops considerably even when the tumor is removed. Based on the fact that melatonin levels are significantly lower in cancer cells than that in the healthy cells, and this melatonin suppression remains during tumor progression, we have examined a simple two-gene-based melatonergic system [the indices of melatonin synthesis and metabolism (ASMT:CYP1A1, ASMT:CYP1A2, ASMT:CYP1B1)] as a prognostic factor for reproductive organ cancer survival rate. RNA-seq data from The Cancer Genome Atlas (TCGA) of seven types of human reproductive organ tumors (n = 3571 samples) were analyzed. By stratifying the set of index values into high vs low risk, we observed that patients with a high melatonergic index had improved survival rates for cervical, ovarian, and endometrial cancers. Patients at high-risk (low melatonergic index) showed a trend of diagnosis of breast, prostate, and testicular cancers at the younger age, while patients with cervical, ovarian, and endometrial cancers presented with higher tumor staging. The melatonergic indices, especially the ASMT:CYP1B1, positively correlated with the clock gene PER1 while negatively correlated with the clock gene TIMELESS in all reproductive organ cancers. We further analyzed the correlation between the expression profiles of the melatonin-synthesizing enzyme (ASMT gene) with metabolic enzyme-encoding genes. Notably, LDHA, PDK1, and PDHA1 showed a higher correlation in male and female reproductive organ tumors, while IDH1, SDHB, GLS, and ATP1A1 had a positive correlation in breast, testicular, and endometrial cancers. These results have provided a comprehensive evaluation of the melatonergic system in relation to the reproductive organ tumor microenvironment and identified promising gene signatures as potential biomarkers for cancer diagnostics, prognostics, and therapeutics.

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Anti-Warburg Effect of Melatonin: A Proposed Mechanism to Explain its Inhibition of Multiple Diseases

Cited by 44 publications

References 230 publications

Regulation of Cancer Metabolism by Deubiquitinating Enzymes: The Warburg Effect

Regulation of Cancer Metabolism by Deubiquitinating Enzymes: The Warburg Effect

Metabolic Anti-Cancer Effects of Melatonin: Clinically Relevant Prospects

Melatonergic index as a prognostic biomarker of reproductive organ cancers: correlations with metabolic parameters as well as clock genes PER1 and TIMELESS

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