Honokiol induces autophagy and apoptosis of osteosarcoma through PI3K/Akt/mTOR signaling pathway

Li, Zhiquan; Dong, Hui; Li, Mo; Wu, Yaoping; Liu, Yanwu; Zhao, Yinan; Chen, Xianfeng; Ma, Minliang

doi:10.3892/mmr.2017.8123

Cited by 22 publications

(31 citation statements)

References 25 publications

(29 reference statements)

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“…Other studies have also shown that honokiol induces autophagy in PC-3 and LNCaP prostate cancer cells via the suppression of mTOR and Akt phosphorylation [77]. Another study revealed that the treatment of neuroblastoma cells with honokiol caused significant downregulation of mTOR phosphorylation, which leads to the induction of autophagy of neuroblastoma cells (neuro-2a cells) through the PI3K/Akt/mTOR signalling pathways [96,195].…”

Section: Mammalian Target Of Rapamycin (Mtor)mentioning

confidence: 94%

Honokiol: A Review of Its Anticancer Potential and Mechanisms

Ong

Lee

Tang

et al. 2019

Cancers

121

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Cancer is characterised by uncontrolled cell division and abnormal cell growth, which is largely caused by a variety of gene mutations. There are continuous efforts being made to develop effective cancer treatments as resistance to current anticancer drugs has been on the rise. Natural products represent a promising source in the search for anticancer treatments as they possess unique chemical structures and combinations of compounds that may be effective against cancer with a minimal toxicity profile or few side effects compared to standard anticancer therapy. Extensive research on natural products has shown that bioactive natural compounds target multiple cellular processes and pathways involved in cancer progression. In this review, we discuss honokiol, a plant bioactive compound that originates mainly from the Magnolia species. Various studies have proven that honokiol exerts broad-range anticancer activity in vitro and in vivo by regulating numerous signalling pathways. These include induction of G0/G1 and G2/M cell cycle arrest (via the regulation of cyclin-dependent kinase (CDK) and cyclin proteins), epithelial-mesenchymal transition inhibition via the downregulation of mesenchymal markers and upregulation of epithelial markers. Additionally, honokiol possesses the capability to supress cell migration and invasion via the downregulation of several matrix-metalloproteinases (activation of 5 AMP-activated protein kinase (AMPK) and KISS1/KISS1R signalling), inhibiting cell migration, invasion, and metastasis, as well as inducing anti-angiogenesis activity (via the down-regulation of vascular endothelial growth factor (VEGFR) and vascular endothelial growth factor (VEGF)). Combining these studies provides significant insights for the potential of honokiol to be a promising candidate natural compound for chemoprevention and treatment.

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Section: Mammalian Target Of Rapamycin (Mtor)mentioning

confidence: 94%

Honokiol: A Review of Its Anticancer Potential and Mechanisms

Ong

Lee

Tang

et al. 2019

Cancers

121

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“…Recent studies showed that SIRT3 exhibits mighty deacetylase activity and is the key regulator in organ protection under many pathologic states including inflammatory and oxidative stress, acting pivotal roles in development and progression of metabolic diseases including diabetes, neurodegenerative disorders, and other diseases . Honokiol (HNK), [2‐(4‐hydroxy‐3‐prop‐2‐enyl‐phenyl)‐4‐prop‐2‐enyl‐phenol], is a bioactive compound obtained from Magnolia grandiflora which possesses multiple properties including anti‐tumor, anti‐arrhythmic, anti‐thrombocytic, anti‐inflammatory, anti‐angiogenesis, anxiolytic, anti‐oxidative activities in vivo and in vitro . As a potent reactive oxygen species (ROS) scavenger, it is also reported that HNK can enhance the overexpression of SIRT3 to improve antioxidant activity and mitochondrial energy regulation thereby reducing the levels of Aβ and sAPPβ in Chinese Hamster Ovarian (CHO) cells .…”

Section: Introductionmentioning

confidence: 99%

“…[12][13][14][15] Honokiol (HNK), [2-(4- anti-oxidative activities in vivo and in vitro. [16][17][18][19][20][21] As a potent reactive oxygen species (ROS) scavenger, it is also reported that HNK can enhance the overexpression of SIRT3 to improve antioxidant activity and mitochondrial energy regulation thereby reducing the levels of Aβ and sAPPβ in Chinese Hamster Ovarian (CHO) cells. 22 Additionally, Xian et al suggested that HNK could improve learning and memory impairments induced by scopolamine in mice and attenuate the concentration of prostaglandin E2 and cyclooxygenase-2 level and the neuroinflammatory processes.…”

mentioning

confidence: 99%

SIRT3 activator honokiol ameliorates surgery/anesthesia‐induced cognitive decline in mice through anti‐oxidative stress and anti‐inflammatory in hippocampus

Chen

et al. 2018

CNS Neurosci Ther

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Aims Increasing evidence indicates that neuroinflammatory and oxidative stress play two pivotal roles in cognitive impairment after surgery. Honokiol (HNK), as an activator of Sirtuin3 (SIRT3), has potential multiple biological functions. The aim of these experiments is to evaluate the effects of HNK on surgery/anesthesia‐induced cognitive decline in mice. Methods Adult C57BL/6 mice received a laparotomy under sevoflurane anesthesia and HNK or SIRT3 inhibitor (3‐TYP) treatment. Cognitive function and locomotor activity of mice were evaluated using fear conditioning test and open field test on postoperative 1 and 3 days. Neuronal apoptosis in CA1 and CA3 area of hippocampus was examined using TUNEL assay. And Western blot was applied to measure the expression of pro‐inflammatory cytokines and SIRT3/SOD2 signaling‐associated proteins in hippocampus. Meanwhile, SIRT3 positive cells were calculated by immunohistochemistry. The mitochondrial membrane potential, malondialdehyde (MDA), and mitochondrial radical oxygen species (mtROS) were detected using standard methods. Results Honokiol attenuated surgery‐induced memory loss and neuronal apoptosis, decreased neuroinflammatory response, and ameliorated oxidative damage in hippocampus. Notably, surgery/anesthesia induced an obviously decrease in hippocampal SIRT3 expression, whereas the HNK increased SIRT3 expression and thus decreased the acetylation of superoxide dismutase 2 (SOD2). However, 3‐TYP treatment inhibited the HNK's rescuing effects. Conclusions These results suggested that activation of SIRT3 by honokiol may attenuate surgery/anesthesia‐induced cognitive impairment in mice through regulation of oxidative stress and neuroinflammatory in hippocampus.

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“…Among the various compounds, pterostilbene (PTE), which is a methylated resveratrol derived from plants, has been shown to inhibit CSC properties in breast cancer [67,68], glioma [69], hepatocellular carcinoma [70], and lung cancer [71] through the inhibition of multiple pathways which are possibly related to the CSC propagation such as Wnt, Hedgehog, Notch, and PI3K/Akt. Honokiol (HNK), which is the extract from Magnolia obovata, has shown its various antitumor effects through the inhibition of several pathways such as PI3K/Akt/mTOR, Wnt, and c-Myc [72][73][74]. Besides these effects of PTE and HNK, we have identified that PTE in combination with HNK could be the possible metabolism-targeted therapy against osteosarcoma as a "two hit" or "dual inhibition" of metabolic pathways, OXPHOS and glycolysis.…”

Section: Novel Approach To Target Cellular Metabolism In Osteosarcomamentioning

confidence: 99%

A Novel Strategy of Dual Inhibition of Distinct Metabolic Features in Osteosarcoma

Kishi¹,

Honoki²,

Tanaka³

et al. 2019

Osteosarcoma – Diagnosis, Mechanisms, and Translational Developments

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Mitochondria are the places for the energy production of the cells, while reactive oxygen species (ROS) are also produced alongside. In recent years, it has been reported that cancer stem cells metabolize predominantly through oxidative phosphorylation (OXPHOS) rather than glycolysis. Targeting OXPHOS achieved by suppression of ATP synthesis through mitochondrial ATP synthase could be a potential therapeutic option against cancer stem cells. Since c-Myc inhibition is considered to lead a metabolic flux to OXPHOS from glycolysis, the combinatory inhibition of both OXPHOS and glycolysis could be a strong candidate for the treatment of malignant tumors. In this chapter, we will discuss about the mitochondria metabolism as the potential therapeutic target in osteosarcoma stem cells, and the synergistic effects of combination of OXPHOS inhibitor with c-Myc inhibitor, which target both OXPHOS-dominant cancer stem cells and glycolysis-dominant non-cancer stem cells, will be discussed.

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Honokiol induces autophagy and apoptosis of osteosarcoma through PI3K/Akt/mTOR signaling pathway

Cited by 22 publications

References 25 publications

Honokiol: A Review of Its Anticancer Potential and Mechanisms

Honokiol: A Review of Its Anticancer Potential and Mechanisms

SIRT3 activator honokiol ameliorates surgery/anesthesia‐induced cognitive decline in mice through anti‐oxidative stress and anti‐inflammatory in hippocampus

A Novel Strategy of Dual Inhibition of Distinct Metabolic Features in Osteosarcoma

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