Cryptotanshinone inhibits human glioma cell proliferation in vitro and in vivo through SHP-2-dependent inhibition of STAT3 activation

Liang, Lu; Zhang, Sulin; Li, Cuixian; Zhou, Chun; Li, Dong; Liu, Peiqing; Huang, Min; Shen, X. Y.

doi:10.1038/cddis.2017.174

Cited by 53 publications

(30 citation statements)

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“…Cryptotanshinone (CT) is isolated from the plant Salvia miltiorrhiza Bunge and has been identified to block STAT3 phosphorylation and homodimerization . CT has been demonstrated to have anti‐tumor activities in various malignancies, including breast cancer,liver cancer,prostate cancer, and ovarian cancer .…”

Section: Introductionmentioning

confidence: 99%

“…Cryptotanshinone (CT) is isolated from the plant Salvia miltiorrhiza Bunge and has been identified to block STAT3 phosphorylation and homodimerization. [7][8][9] CT has been demonstrated to have anti-tumor activities in various malignancies, including breast cancer,liver cancer,prostate cancer, and ovarian cancer. [10][11][12][13] CT was found to induced apoptosis and cell cycle arrest in gastric cancer cells via reactive oxygen species (ROS)-mediated MAPK and AKT signaling pathways.…”

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confidence: 99%

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Cryptotanshinone suppresses cell proliferation and glucose metabolism via STAT3/SIRT3 signaling pathway in ovarian cancer cells

et al. 2018

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Ovarian cancer is the most malignant gynecologic cancer among women worldwide. Cryptotanshinone (CT), isolated from Salvia miltiorrhiza Bunge, has been identified as a potential therapeutic agent in treating several malignant tumors, but the molecular mechanism of CT in ovarian cancer still remains illustrated. Here, we sought to elucidate the regulatory function of CT on cell glucose metabolism in ovarian cancer. The treatment of CT on ovarian cancer cells effectively inhibited glucose uptake and lactate production in ovarian cancer cells. The expression levels of glycolysis‐related proteins, such as GLUT1, LDHA, and HK2, were decreased by the treatment of CT detected by qRT‐PCR and immunoblotting. Mechanistically, CT exerted its anti‐tumor effect by targeting STAT3/SIRT3/HIF‐1α signaling pathway in vitro and in vivo, which could be rescued by the introduction of SIRT3 shRNA in ovarian cancer cells. The clinical data showed that the expression level of STAT3 in ovarian cancer patients’ sera and tissues was positively correlated with those of GLUT1, LDHA, HK2 and HIF‐1α, but negatively with that of SIRT3These findings provide evidence that CT inhibited cellular glycolysis‐induced cell growth and proliferation through repression of STAT3/SIRT3/HIF‐1α signaling pathway, indicating that CT may be developed as a chemotherapeutic agent to treat ovarian cancer.

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Section: Introductionmentioning

confidence: 99%

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Cryptotanshinone suppresses cell proliferation and glucose metabolism via STAT3/SIRT3 signaling pathway in ovarian cancer cells

et al. 2018

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“…Dai et al (2017) have used the BrdU assay to examine the antiproliferative efficacy of isocostunolide in glioma stem cells. Lu et al (2017) have used the BrdU assay to determine cryptotanshinone-mediated cell proliferation in human glioma cells (U 251). As BrdU is a toxic substance, care must be taken when handling (Miller & Nowakowski, 1988).…”

Section: Cells Based Assays Based On Dna Synthesismentioning

confidence: 99%

In vitro assays and techniques utilized in anticancer drug discovery

Ediriweera

Tennekoon

Samarakoon

2018

J of Applied Toxicology

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Development of a cancer is a multistep process and six major hallmarks of cancer that are known to control malignant transformation have been described. Anticancer drug development is a tedious process, requiring a number of in vitro, in vivo and clinical studies. In vitro assays provide an initial platform for cancer drug discovery approaches. A wide range of in vitro assays/techniques have been developed to evaluate each hallmark feature of cancer and selection of a particular in vitro assay or technique mainly depends on the specific research question (s) to be examined. In the present review, we have described some commonly utilized in vitro assays and techniques used to examine cell viability/proliferation, apoptosis, cellular senescence, invasion and migration, oxidative stress and antioxidant effects, gene and protein expression, angiogenesis and genomic alterations in cancer drug discovery. Additionally, uses of modern techniques such as high throughput screening, high content screening and reporter gene assays in cancer drug discovery have also been described.

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“…Other benefits of Salvia miltiorrhiza include antibacterial (23), immunomodulatory (24) and antioxidant (25) activities. One of the main components of Salvia miltiorrhiza, Cryptotanshinone (CT), has been evaluated in vitro and in vivo as anticancer treatment in human tumor cell lines from different origins, such as, prostate (18,26), breast (26,27,28,29) hepatic (30) and colorectal (18,30,31,32), lung (33), pancreatic (34), kidney (35), glioma (36) and ovarian (37). To date, several human studies have highlighted significant apoptotic effects of CT treatment in cancer cell lines using concentrations of 5 -50 μM (28,32,33,34).…”

Section: Introductionmentioning

confidence: 99%

“…To date, several human studies have highlighted significant apoptotic effects of CT treatment in cancer cell lines using concentrations of 5 -50 μM (28,32,33,34). Other effects of CT included cell cycle arrest at G1/G0 phase (30,34,38), and at G2/M phase (33,36,39), inhibition of Cyclin D1 protein expression in different types of cancer (18,31,33,34,35), and downregulation of matrix metallopeptidases (MMP-2/MMP-9), which are responsible for cell invasion and metastasis (37). Human cancer cells exposed to different concentrations of CT showed inhibition of major signaling pathways that are involved in multiple cellular processes such as, mammalian target of rapamycin (mTOR) in hepatic (30), gastric (30), pancreatic (34), soft sarcoma (38) and prostate (38) cancer.…”

Section: Introductionmentioning

confidence: 99%

Comprehensive Live-cell Imaging Analysis of Cryptotanshinone and Synergistic Drug-Screening Effects in Various Human and Canine Cancer Cell Lines

Wilson-Robles

Bittner

Lopes

et al. 2020

Preprint

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ABSTRACTBackgroundSeveral studies have highlighted both the extreme anticancer effects of Cryptotanshinone (CT), a Stat3 crippling component from Salvia miltiorrhiza, as well as other STAT3 inhibitors to fight cancer.MethodsData presented in this experiment incorporates 2 years of in vitro studies applying a comprehensive live-cell drug-screening analysis of human and canine cancer cells exposed to CT at 20 μM concentration, as well as to other drug combinations. As previously observed in other studies, dogs are natural cancer models, given to their similarity in cancer genetics, epidemiology and disease progression compared to humans.ResultsResults obtained from several types of human and canine cancer cells exposed to CT and varied drug combinations, verified CT efficacy at combating cancer by achieving an extremely high percentage of apoptosis within 24 hours of drug exposure.ConclusionsCT anticancer efficacy in various human and canine cancer cell lines denotes its ability to interact across different biological processes and cancer regulatory cell networks, driving inhibition of cancer cell survival.

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Cryptotanshinone inhibits human glioma cell proliferation in vitro and in vivo through SHP-2-dependent inhibition of STAT3 activation

Cited by 53 publications

References 56 publications

Cryptotanshinone suppresses cell proliferation and glucose metabolism via STAT3/SIRT3 signaling pathway in ovarian cancer cells

Cryptotanshinone suppresses cell proliferation and glucose metabolism via STAT3/SIRT3 signaling pathway in ovarian cancer cells

In vitro assays and techniques utilized in anticancer drug discovery

Comprehensive Live-cell Imaging Analysis of Cryptotanshinone and Synergistic Drug-Screening Effects in Various Human and Canine Cancer Cell Lines

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