Crosstalk between the Warburg effect, redox regulation and autophagy induction in tumourigenesis

Gwangwa, Mokgadi Violet; Joubert, Anna Margaretha; Visagie, Michelle Helen

doi:10.1186/s11658-018-0088-y

Cited by 81 publications

(67 citation statements)

References 135 publications

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“…Literature has also recently described molecular cross-talk between the Warburg effect, redox homeostasis, and autophagy induction-all processes proposed as potential drivers of AD (Tonnies & Trushina, 2017;Uddin et al, 2018;Vlassenko & Raichle, 2015). To the extent that this crosstalk is mediated by known pathways such as phosphatidylinositol-3-kinase/ protein kinase B (PI3K/Akt) activation, mammalian target of rapamycin (mTOR) signal transduction, and mitogen-activated protein kinase (MAPK) activity (Gwangwa, Joubert, & Visagie, 2018), their role in integrating pro-survival versus pro-apoptotic signaling in DS-AD should be further evaluated, ideally in neural tissue.…”

Section: Lactic Acid Production and Oxidative Stress: Complementarymentioning

confidence: 99%

Plasma metabolites related to cellular energy metabolism are altered in adults with Down syndrome and Alzheimer's disease

Groß

Doran

Cheema

et al. 2019

Developmental Neurobiology

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Down syndrome (DS) is a well‐known neurodevelopmental disorder most commonly caused by trisomy of chromosome 21. Because individuals with DS almost universally develop heavy amyloid burden and Alzheimer's disease (AD), biomarker discovery in this population may be extremely fruitful. Moreover, any AD biomarker in DS that does not directly involve amyloid pathology may be of high value for understanding broader mechanisms of AD generalizable to the neurotypical population. In this retrospective biomarker discovery study, we examined banked peripheral plasma samples from 78 individuals with DS who met clinical criteria for AD at the time of the blood draw (DS‐AD) and 68 individuals with DS who did not (DS‐NAD). We measured the relative abundance of approximately 5,000 putative features in the plasma using untargeted mass spectrometry (MS). We found significantly higher levels of a peak putatively annotated as lactic acid in the DS‐AD group (q = .014), a finding confirmed using targeted MS (q = .011). Because lactate is the terminal product of glycolysis and subsequent lactic acid fermentation, we performed additional targeted MS focusing on central carbon metabolism which revealed significantly increased levels of pyruvic (q = .03) and methyladipic (q = .03) acids in addition to significantly lower levels of uridine (q = .007) in the DS‐AD group. These data suggest that AD in DS is accompanied by a shift from aerobic respiration toward the less efficient fermentative metabolism and that bioenergetically derived metabolites observable in peripheral blood may be useful for detecting this shift.

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Section: Lactic Acid Production and Oxidative Stress: Complementarymentioning

confidence: 99%

Plasma metabolites related to cellular energy metabolism are altered in adults with Down syndrome and Alzheimer's disease

Groß

Doran

Cheema

et al. 2019

Developmental Neurobiology

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“…This metabolic re-programming in cancer was famously discovered by Warburg and Cori in the 1920s [8,9] and has been suggested as a cancer cell means to evade toxic levels of ROS production. However, maintenance of this Warburg effect requires higher glucose uptake and elevated metabolic activity making tumour cells nevertheless heavily reliant on the antioxidant machinery and maybe even more susceptible to oxidative stress [10,11]. Therefore, highly proliferative cancer cells are known to require handling of elevated cellular ROS levels in order to successfully establish tumours [12][13][14].…”

Section: Introductionmentioning

confidence: 99%

Ferroptosis in Cancer Cell Biology

Bebber

Müller

Clemente

et al. 2020

Cancers

241

209

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A major hallmark of cancer is successful evasion of regulated forms of cell death. Ferroptosis is a recently discovered type of regulated necrosis which, unlike apoptosis or necroptosis, is independent of caspase activity and receptor-interacting protein 1 (RIPK1) kinase activity. Instead, ferroptotic cells die following iron-dependent lipid peroxidation, a process which is antagonised by glutathione peroxidase 4 (GPX4) and ferroptosis suppressor protein 1 (FSP1). Importantly, tumour cells escaping other forms of cell death have been suggested to maintain or acquire sensitivity to ferroptosis. Therefore, therapeutic exploitation of ferroptosis in cancer has received increasing attention. Here, we systematically review current literature on ferroptosis signalling, cross-signalling to cellular metabolism in cancer and a potential role for ferroptosis in tumour suppression and tumour immunology. By summarising current findings on cell biology relevant to ferroptosis in cancer, we aim to point out new conceptual avenues for utilising ferroptosis in systemic treatment approaches for cancer.

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“…Preliminary studies have shown that autophagy through Glut-1 translocation affects glucose uptake of cancer cells [19][20][21][22][23]. In comparison with normal cells, cancer cells preferentially produce energy by glycolysis in anaerobic environments [4]. The energy supply of cancer cells in hypoxic environments is related to the high-level expression of Glut-1 and autophagy.…”

Section: Discussionmentioning

confidence: 99%

“…Laryngeal squamous cell carcinoma (LSCC), which is related to many risk factors, including smoking, drinking alcohol, and laryngeal reflux, is one of the most common malignant tumors occurring in the head and neck [1]. Some studies have demonstrated that autophagy and glucose metabolism play important roles in the occurrence and development of cancer cells [2][3][4][5]. However, the mechanisms underlying autophagy and glucose metabolism in the process of LSCC remain unclear.…”

Section: Introductionmentioning

confidence: 99%

“…It has gradually become apparent that most tumor cells show a variable glycolysis phenotype, so increased glycolytic metabolism has been identified as a characteristic of malignant cells, known as the Warburg effect [4]. Previous studies confirmed the upregulation of members of the glucose transporter family (Gluts) during the process of glycolysis in tumor cells to meet the energy needs of cancer cells [6][7][8].…”

Section: Introductionmentioning

confidence: 99%

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shRNA Glut-1 inhibits cell viability, apoptosis and migration of laryngeal carcinoma HEp-2 cells through regulating Beclin-1-mediated autophagy

Wang

Zhu

Zhou

et al. 2020

Preprint

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Objective: Glut-1 is a key regulator in the process of glucose uptake. Previous studies have shown that Glut-1 affects autophagy. However, it is unclear whether there is a correlation between Glut-1 and autophagy in the progression of laryngeal carcinoma.This study was performed to investigate the role of Glut-1 in the development of laryngeal carcinoma.Methods: A stable HEp-2 cell model was constructed by Glut-1 and Beclin-1 shRNA lentiviral infection. The autophagosome was measured by transmission electron microscopy. Protein levels of LC3, ATG5, CyclinD1, Bcl-2, Caspase-3, and c-Myc were determined by Western blotting. CCK8 assay and Transwell assays were used to determine cell viability and migration rate of HEp-2 cells, respectively. Flow cytometry was performed to analyze the rate of apoptosis. Immunofluorescence was performed to determine the expression distribution of LC3. Results:Glut-1 knockdown significantly promoted autophagosome formation by upregulating the ratio of LC3-II/LC3-I as well as the role of rapamycin (RAP) andBeclin-1 overexpression on autophagy flux in HEp-2 cells. Glut-1 inhibition also reduced the viability of HEp-2 cells followed by the decreases in expression of cyclinD1 and c-Myc. In addition, Glut-1 depletion increased the number of apoptotic HEp-2 cells accompanied by activation of caspase-3 and downregulation of Bcl-2.Glut-1 knockdown also reduced the migration rate of HEp-2 cells by promoting the expression of N-cadherin and inhibiting the expression of E-cadherin. Beclin-1 consumption significantly reversed Gult-1 knockdown-mediated autophagy activation, resulting in promotion of both proliferation and migration and inhibition of apoptosis. Conclusions:Glut-1 knockdown-induced autophagy inhibits the proliferation and migration of HEp-2 cells, and promotes apoptosis of HEp-2 cells partly by regulating autophagy.

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Crosstalk between the Warburg effect, redox regulation and autophagy induction in tumourigenesis

Cited by 81 publications

References 135 publications

Plasma metabolites related to cellular energy metabolism are altered in adults with Down syndrome and Alzheimer's disease

Plasma metabolites related to cellular energy metabolism are altered in adults with Down syndrome and Alzheimer's disease

Ferroptosis in Cancer Cell Biology

shRNA Glut-1 inhibits cell viability, apoptosis and migration of laryngeal carcinoma HEp-2 cells through regulating Beclin-1-mediated autophagy

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