Modulation of the Akt Pathway Reveals a Novel Link with PERK/eIF2α, which Is Relevant during Hypoxia

Blaustein, Matı́as; Pérez-Munizaga, Daniela; Sánchez, Manuel Alejandro; Urrutia, Carolina; Grande, Alicia; Risso, Guillermo; Srebrow, Anabella; Alfaro, Jennifer; Colman‐Lerner, Alejandro

doi:10.1371/journal.pone.0069668

Cited by 34 publications

(40 citation statements)

References 85 publications

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“…The AKT pathway induces multiple cell survival processes, including inhibition of apoptosis, which results in improved survival under stressful conditions [25]. In addition, the AKT pathway interacts with the mTOR and the unfolded protein response pathways that also play a major role in hypoxic cell signaling and survival [26,27]. Further research will be necessary to determine which pathways downstream of AKT are important for hypoxic sensitization to AKT inhibition.…”

Section: Discussionmentioning

confidence: 99%

Interaction between hypoxia, AKT and HIF-1 signaling in HNSCC and NSCLC: implications for future treatment strategies

et al. 2016

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Background:Hypoxia is a negative prognostic factor and this study investigated the relationship between hypoxia, hypoxia inducible factor 1 (HIF-1) and AKT signaling in head and neck squamous cell carcinoma (HNSCC) and non-small-cell lung cancer (NSCLC).Results/methodology:pAKT was induced by hypoxia (0.5% O2) in a part of HNSCC (3/4) and squamous (2/3) and adenocarcinoma (1/3) NSCLS lines. AKT-inhibitor MK-2206 reduced hypoxic HIF-1 signaling in most HNSCC cell lines. This reduction did not correlate with hypoxic induction of pAKT or with sensitivity to MK-2206 under hypoxia. Patient biopsies revealed a hypoxia-induced expression pattern of pAKT in HNSCC (n = 16), which was not observed in squamous cell (n = 34) or adenocarcinoma (n = 41) NSCLC.Conclusion:The interaction between hypoxia, HIF-1 and AKT signaling varies between tumor types and histologies, which could significantly affect response to targeted therapies.

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Section: Discussionmentioning

confidence: 99%

Interaction between hypoxia, AKT and HIF-1 signaling in HNSCC and NSCLC: implications for future treatment strategies

et al. 2016

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“…Some researchers reported that PERK activation was directly regulated by AKT2324. More importantly, some evidence showed that AKT was phosphorylated by a PERK-dependent way at Ser-473 during ER stress22.…”

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confidence: 99%

PERK silence inhibits glioma cell growth under low glucose stress by blockage of p-AKT and subsequent HK2's mitochondria translocation

Hou

Liu

et al. 2015

Sci Rep

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Glioma relies on glycolysis to obtain energy and sustain its survival under low glucose microenvironment in vivo. The mechanisms on glioma cell glycolysis regulation are still unclear. Signaling mediated by Double-stranded RNA-activated protein kinase (PKR) – like ER kinase (PERK) is one of the important pathways of unfolded protein response (UPR) which is comprehensively activated in cancer cells upon the hypoxic and low glucose stress. Here we show that PERK is significantly activated in human glioma tissues. PERK silencing results in decreased glioma cell viability and ATP/lactate production upon low glucose stress, which is mediated by partially blocked AKT activation and subsequent inhibition of Hexokinase II (HK2)'s mitochondria translocation. More importantly, PERK silenced glioma cells show decreased tumor formation capacity. Our results reveal that PERK activation is involved in glioma glycolysis regulation and may be a potential molecular target for glioma treatment.

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“…Studies focused on the interplay between UPR and AKT signalling, however, are rare. AKT regulates PERK/eIF2α pathway controlling cell fates under pathological condition such as tumour and hypoxia . Inhibition of Akt synergistically sensitizes acute lymphoblastic leukaemia cells to 2‐deoxy‐D‐glucose and down‐regulates expression of UPR factors BiP, IRE1, and phospho‐eIF2α.…”

Section: Discussionmentioning

confidence: 99%

The double‐edged sword of endoplasmic reticulum stress in uremic sarcopenia through myogenesis perturbation

Jheng

Chen

et al. 2018

J cachexia sarcopenia muscle

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BackgroundSarcopenia is the age‐related degeneration characterized with the decline of skeletal muscle mass, strength, and function. The imbalance of protein synthesis and degradation which jeopardizes immune, hormone regulation, and muscle‐motor neuron connection is the main cause of sarcopenia. There is limited knowledge regarding molecular mechanism of sarcopenia. As the endoplasmic reticulum is the control centre of the protein syntheses and degradation, we hypothesized that endoplasmic reticulum stress and unfolded protein response (UPR) play an important in the development of sarcopenia. Understanding the sarcopenia molecular mechanisms may benefit the therapeutic diagnosis and treatment in the future.MethodsMouse myoblast C2C12 cells are exposed to designated time and concentration of indoxyl sulfate (IS), a uremic toxin of chronic kidney disease. The proliferation, differentiation, and the expression of atrogin 1 are examined. The protein and mRNA expression of IS treated‐C2C12 cells are inspected to distinguish the role of ER stress and oxidative stress underlying the sarcopenia.ResultsIndoxyl sulfate inhibits myoblast differentiation. We demonstrate that as the number of multi‐nuclei myotube decreased, the differentiation markers including myoD, myoG, and myosin heavy chain are also suppressed. Indoxyl sulfate inhibits myoblast proliferation and induces the myotubular atrophy marker atrogin‐1 protein expression. Indoxyl sulfate stimulates eIF2α phosphorylation and XBP1 mRNA splicing in UPR. Interestingly, the oxidative stress is related to eIF2α phosphorylation but not XBP1 mRNA splicing. The eIF2α phosphorylation triggered by IS reduces myoD, myoG, and myosin heavy chain protein expression, which represents the anti‐myogenic modulation on the early differentiation event. The XBP1 mRNA splicing induced by IS, however, is considered the adaptive response to restore the myogenic differentiation.ConclusionsOur studies indicated that the ER stress and UPR modulation are critical in the chronic kidney disease uremic toxin‐accumulated sarcopenia model. We believe that UPR‐related signals showed great potential in clinical application.

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Modulation of the Akt Pathway Reveals a Novel Link with PERK/eIF2α, which Is Relevant during Hypoxia

Cited by 34 publications

References 85 publications

Interaction between hypoxia, AKT and HIF-1 signaling in HNSCC and NSCLC: implications for future treatment strategies

Interaction between hypoxia, AKT and HIF-1 signaling in HNSCC and NSCLC: implications for future treatment strategies

PERK silence inhibits glioma cell growth under low glucose stress by blockage of p-AKT and subsequent HK2's mitochondria translocation

The double‐edged sword of endoplasmic reticulum stress in uremic sarcopenia through myogenesis perturbation

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