Targeting the Warburg effect for cancer treatment: Ketogenic diets for management of glioma

Poff, Angela M.; Koutnik, Andrew P.; Egan, Kathleen M.; Sahebjam, Solmaz; D’Agostino, Dominic P.; Kumar, Nagi B.

doi:10.1016/j.semcancer.2017.12.011

Cited by 143 publications

(132 citation statements)

References 161 publications

(245 reference statements)

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“…In rodent glioma models, KDs decrease serum glucose, serum insulin-like growth factor and tumor weight when administered as a stand-alone therapy. When administered in combination with glycolytic inhibitor 2-deoxy-D-glucose (2-DG), radiation therapy, or temozolomide, the diet also reduced peritumoral edema and tumor microvasculature and increased median survival time [37][38][39][40][41][42]. Thus, KDs favor a metabolic shift in malignant cells towards an anti-angiogenic, anti-invasive, pro-apoptotic, and antiinflammatory state that contributes to suppressed tumor growth in vivo [43].…”

Section: Disease-specific Effects: Evidence From In Vivo Modelsmentioning

confidence: 99%

“…Potential mechanisms include enhanced cytotoxic T cell anti-tumor immunity [44], attenuated insulinactivated Akt/mTOR and Ras/MAPK signaling pathways [45,46], and reduced inflammation as previously described. Other proposed mechanisms include the induction of genes involved in oxidative stress protection, angiogenesis, and vascular remodeling [29,39,42].…”

Section: Disease-specific Effects: Evidence From In Vivo Modelsmentioning

confidence: 99%

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Ketogenic Diets for Adult Neurological Disorders

McDonald

Cervenka

2018

Neurotherapeutics

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The current review highlights the evidence supporting the use of ketogenic diet therapies in the management of a growing number of neurological disorders in adults. An overview of the scientific literature supporting posited mechanisms of therapeutic efficacy is presented including effects on neurotransmission, oxidative stress, and neuro-inflammation. The clinical evidence supporting ketogenic diet use in the management of adult epilepsy, malignant glioma, Alzheimer's disease, migraine headache, motor neuron disease, and other neurologic disorders is highlighted and reviewed. Lastly, common adverse effects of ketogenic therapy in adults, including gastrointestinal symptoms, weight loss, and transient dyslipidemia are discussed.

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Section: Disease-specific Effects: Evidence From In Vivo Modelsmentioning

confidence: 99%

Section: Disease-specific Effects: Evidence From In Vivo Modelsmentioning

confidence: 99%

Ketogenic Diets for Adult Neurological Disorders

McDonald

Cervenka

2018

Neurotherapeutics

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“…A shift towards aerobic glycolysis with high glucose uptake even under sufficient oxygen is one of the most prominent characteristic of metabolic alterations in cancer. This phenomenon is called the “Warburg effect” [3]. Glucose was once considered as the major fuel, if not the only factor, that support tumor growth [4].…”

Section: Introductionmentioning

confidence: 99%

Association Between Pretreatment Serum Apolipoprotein A1 and Prognosis of Solid Tumors in Chinese Population: A Systematic Review and Meta-Analysis

Zhou

Zhang

et al. 2018

Cell Physiol Biochem

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Background/Aims: Serum apolipoprotein A1 (apoA1) has been reported to be abnormally expressed in several malignancies. However, the prognostic role of apoA1 in solid tumors is still controversial. We conducted this meta-analysis to obtain a more accurate evaluation of prognostic significance of apoA1 in Chinese patients with solid tumors. Methods: A comprehensive literature search of electronic databases was carried out up to August 2018. We included studies investigating the association between pretreatment serum apoA1 level and clinicopathological features, including survival outcomes, in solid tumors. Hazard ratios (HRs) and odds ratio (ORs) with 95% confidence intervals (CIs) were applied as effect size estimates. Results: A total of 13 studies and 8052 patients were included in our meta-analysis. Elevated level of pretreatment serum apoA1 was markedly associated with an improved OS (pooled HR = 0.608, 95% CI = 0.557 – 0.665, P < 0.001). The statistical significances were observed in all cancer types, including digestive system malignancies (pooled HR = 0.633; 95% CI = 0.550–0.727; P < 0.001), urinary system cancers (pooled HR = 0.471; 95% CI = 0.352–0.630; P < 0.001), nasopharyngeal cancer (pooled HR = 0.642; 95% CI = 0.538–0.766; P < 0.001) and non-small cell lung cancer (pooled HR = 0.526; 95% CI = 0.329–0.841; P = 0.007), but not in breast cancer (pooled HR = 0.573; 95% CI = 0.266–1.246; P = 0.155). Meanwhile, cancer patients with a low level of serum apoA1 suffered an unfavorable DFS (pooled HR = 0.714, 95% CI = 0.603 – 0.845, P < 0.001). Moreover, abnormal serum apoA1 was significantly correlated to tumor size (pooled OR = 0.640, 95% CI = 0.475 – 0.863, P = 0.003), tumor differentiation (pooled HR = 0.724, 95% CI = 0.565 – 0.929, P = 0.011), and tumor stage (pooled HR = 0.493, 95% CI = 0.384 – 0.633, P < 0.001). Conclusion: Elevated level of pretreatment serum apoA1 was significantly associated with longer survival in patients with solid tumors. Pretreatment serum apoA1 could serve as a novel positive factor for malignant patient prognosis in Chinese population.

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“…In the GL-261 malignant glioma model, KD fed mice had reduced peritumoral edema and tumor microvasculature, 20–30% increased median survival time and achieved complete and long-term remission when used concomitantly with radiation therapy [81,82,83]. A similar synergistic effect was observed between KD and temozolomide in the GL-261 model [84]. Comparable effects of KDs on tumor growth and survival time have also been shown in glioma derived mouse models of metastatic cancer and in patient-derived GBM subcutaneous and orthotopic implantation models [85,86].…”

Section: Kds In the Management Of Adult Malignant Gliomasmentioning

confidence: 90%