PI3K/Akt and HIF‑1 signaling pathway in hypoxia‑ischemia (Review)

Zhang, Zhen; Li, Yao; Yang, Jing; Wang, Zhenkang; Du, Gang

doi:10.3892/mmr.2018.9375

Cited by 210 publications

(188 citation statements)

References 91 publications

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“…There data demonstrated that HSF4 regulated motility and EMT mainly via activating AKT pathway. The previous studies revealed that HSF4 could promote HIF‐1α transcription, 20 and HIF‐1α play an important role in triggering AKT activation 35 . Consistent with these studies, we found HSF4 was positively correlated with HIF‐1α expression, and more importantly, re‐expression HIF‐1α could rescue HCC cells from the inhibitory effects on AKT activation caused by HSF4 knockdown, whereas silence of HIF‐1α abolished the activation effect of HSF4 overexpression on AKT.…”

Section: Discussionsupporting

confidence: 90%

HSP4 triggers epithelial‐mesenchymal transition and promotes motility capacities of hepatocellular carcinoma cells via activating AKT

Tang

et al. 2020

Liver International

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Background and Aims: Heat shock factor (HSF4) plays a vital role in carcinogenesis and tumour progression. However, its clinical significance implications in hepatocellular carcinoma (HCC) remained elusive.Methods: RT-PCR and western blot were used to detect the HSF4 expression levels in HCC cells and tissues. Immunohistochemistry staining was performed on a tissue microarray containing 104 HCC patients received radical resection. In vitro effects of HSF4 on proliferation, migration and invasion were determined by colony formation and transwell assays in HCCLM3, Huh7, MHCC97L and SMMC7721 cells. Epithelialmesenchymal transition (EMT) was identified by RT-PCR, WB and immunofluorescence in HCCLM3 and MHCC97L cells. AKT pathway activation was detected by WB and dual luciferase report system in HCCLM3 and MHCC97L cells.Results: HSF4 expression was higher in primary HCC tissues derived from recurrent patients, and positively correlated with invasiveness potentials of cell lines. Clinically,

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Section: Discussionsupporting

confidence: 90%

HSP4 triggers epithelial‐mesenchymal transition and promotes motility capacities of hepatocellular carcinoma cells via activating AKT

Tang

et al. 2020

Liver International

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“…Since the balance between Akt and p53 signaling is known to determine cell fate toward apoptosis or survival in hypoxia [25][26][27], we validated our results by p53 activity and Akt phosphorylation evaluation with ELISA assays, on three cell lines with different DLK1 cleavage abilities transfected with the various DLK1 constructs. All cell lines showed increased p53 DNA binding after 24 h of hypoxia, but at a later time point U3082MG and U3084MG cells had a persistent increase in DNA-binding ability only in cells transfected with DLK-C form, with levels back to basal in cells transfected with DLK-A or empty vector.…”

Section: Dlk1 Cleavage Modulates Cell Metabolism Under Hypoxic Conditmentioning

confidence: 59%

Hypoxia-induced release, nuclear translocation, and signaling activity of a DLK1 intracellular fragment in glioma

2020

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Glioblastoma multiforme is characterized in part by severe hypoxia associated with tumor necrosis. The cellular response to hypoxia can influence several properties of tumor cells associated with aggressive tumor growth, including metabolic adaptations and tumor cell migration and invasion. Here, we found that Delta Like Non-Canonical Notch Ligand 1 (DLK1) expression was elevated as compared with normal brain in a genetically engineered mouse model of glioma, and that DLK1 expression increased with tumor grade in human glioma samples. DLK1 expression was highest in hypoxic and perivascular tumor areas, and we found that hypoxia induced the release and nuclear translocation of an intracellular fragment of DLK1 in murine glioma as well as in human glioma cultures. Release of the intracellular fragment was dependent on ADAM17 and Hypoxia-inducible Factor 1alpha and 2alpha (HIF-1alpha/HIF-2alpha), as ADAM17 inhibitors and HIF1A/HIF2A siRNA blocked DLK1 cleavage. Expression of a cleavable form of DLK1 amplified several hypoxia-induced traits of glioma cells such as colony formation, stem cell marker gene expression, a PI3K-pathway-mediated metabolic shift, and enhanced invasiveness. Effects of DLK1 were dependent on DLK1-cleavage by ADAM17, as expression of non-cleavable DLK1 could not replicate the DLK1-induced hypoxic phenotype. Finally, forced expression of DLK1 resulted in more invasive tumor growth in a PDGFB-induced glioma mouse model without affecting overall survival. Together, our findings suggest a previously undescribed role for DLK1 as an intracellular signaling molecule.

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“…Whilst aiming to limit Hif-1α expression may be a prime strategy for anticancer therapies and controlling excessive inflammation, target genes of Hif-1α play a critical role in angiogenesis, cell proliferation/survival and glucose/ iron metabolism presenting therapeutic opportunities in stabilizing Hif-1α when treating anemia associated with chronic kidney disease or hypoxia-ischemia during myocardial infarction, stroke and perinatal asphyxia. [170][171][172][173] Dimethyloxalylglycine (DMOG) is a potent driver of Hif-1α activity and acts through the inhibition of PHD resulting in stabilization of Hif-1α protein expression and expression of Hif-1α target genes such as vascular endothelial growth factor (VEGF) and proglycolytic enzymes. 174 Hif-1α plays a key role in promoting expression of erythropoietin (EPO) thereby stimulating production of hemoglobin and red blood cells.…”

Section: Modulating the Tca Cycle Therapeutically To Limit Inflammationmentioning

confidence: 99%

Targeting immunometabolism as an anti-inflammatory strategy

2020

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The growing field of immunometabolism has taught us how metabolic cellular reactions and processes not only provide a means to generate ATP and biosynthetic precursors, but are also a way of controlling immunity and inflammation. Metabolic reprogramming of immune cells is essential for both inflammatory as well as anti-inflammatory responses. Four anti-inflammatory therapies, DMF, Metformin, Methotrexate and Rapamycin all work by affecting metabolism and/or regulating or mimicking endogenous metabolites with anti-inflammatory effects. Evidence is emerging for the targeting of specific metabolic events as a strategy to limit inflammation in different contexts. Here we discuss these recent developments and speculate on the prospect of targeting immunometabolism in the effort to develop novel anti-inflammatory therapeutics. As accumulating evidence for roles of an intricate and elaborate network of metabolic processes, including lipid, amino acid and nucleotide metabolism provides key focal points for developing new therapies, we here turn our attention to glycolysis and the TCA cycle to provide examples of how metabolic intermediates and enzymes can provide potential novel therapeutic targets.

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PI3K/Akt and HIF‑1 signaling pathway in hypoxia‑ischemia (Review)

Cited by 210 publications

References 91 publications

HSP4 triggers epithelial‐mesenchymal transition and promotes motility capacities of hepatocellular carcinoma cells via activating AKT

HSP4 triggers epithelial‐mesenchymal transition and promotes motility capacities of hepatocellular carcinoma cells via activating AKT

Hypoxia-induced release, nuclear translocation, and signaling activity of a DLK1 intracellular fragment in glioma

Targeting immunometabolism as an anti-inflammatory strategy

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