Effects of Curcumin on Vessel Formation Insight into the Pro- and Antiangiogenesis of Curcumin

Wang, Tingye; Chen, Jiaxu

doi:10.1155/2019/1390795

Cited by 62 publications

(51 citation statements)

References 99 publications

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“…Curcumin has a dual effect on angiogenesis depending on the dosage and concentration. In vivo data suggest proangiogenic effects of curcumin at a lower dose while anti‐angiogenesis effects at higher doses (Wang and Chen, 2019). In the present study, we used reasonably low concentrations of curcumin (1–5 μM) to stimulate tube formation and gene expression.…”

Section: Discussionmentioning

confidence: 99%

Curcumin stimulates angiogenesis through VEGF and expression of HLA‐G in first‐trimester human placental trophoblasts

Basak

Vilasagaram

Mallepogu

et al. 2020

Cell Biology International

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Curcumin has a protective role in placental diseases like preeclampsia and preterm birth. Very little is known about its functional effects on growth, angiogenesis, and epigenetic activities of human first trimester placenta. HTR8/SVneo trophoblasts cells were used as model for human first trimester placenta. Effects of curcumin (≥80%) in these cells were investigated using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT), radioactive thymidine uptake, quantitative real-time polymerase chain reaction (qRT-PCR), promoter DNA methylation, qRT-PCR array, tube formation, wound healing, and immunoblot assays. PC3 (prostate cancer), JEG-3 (trophoblast), and HMEC-1 (endothelial) cells were used as control in various experiments. Unlike in PC3 cells, curcumin stimulated growth, proliferation, and viability in HTR8/SVneo cells. Curcumin increased tube formation, and messenger RNA (mRNA) expression of angiogenic factors such as vascular endothelial growth factor A (VEGFA) and protein expression of proangiogenic factor VEGF receptor-2 and fatty acid-binding protein-4 (FABP4) in these cells. Curcumin-stimulated tube formation was associated with an increased expression of VEGFR2 and FABP4. The stimulatory effects of curcumin were inhibited by VEGFR2 (SU5416) and FABP4 (BMS309403) inhibitors. Curcumin also significantly increased both mRNA and protein expression of HLA-G in HTR8/ SVneo cells. Curcumin increased mRNA expression of DNMT3A and NOTCH signaling system whereas down-regulated mRNA expression of HSD11β2. Curcumin enhanced hypomethylation of gene promoters against oxidative stress and DNA damage pathway mediators. Curcumin promotes cell growth, migration, and thus angiogenic potential of these cells. Increased expression of HLA-G by curcumin, hitherto unknown, is a novel finding since HLA-G not only favors the immune environment for invasive trophoblasts but also positively modulates angiogenesis.

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Section: Discussionmentioning

confidence: 99%

Curcumin stimulates angiogenesis through VEGF and expression of HLA‐G in first‐trimester human placental trophoblasts

Basak

Vilasagaram

Mallepogu

et al. 2020

Cell Biology International

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“…Experimentell hat Curcumin eine hemmende Wirkung auf die neuronale und vaskuläre Degeneration in der Netzhaut nach Ischämie und Reperfusion [172], hat antiangiogenetische Wirkungen [173] und ist schützend gegenüber der NMDA-Exzitotoxizität [174,175]. In einem Zellkultur-und Tierexperiment zeigte Curcumin eine antioxidative Schutzwirkung auf die Mikroglia und hemmte signifikant deren Apoptose [176]. Außerdem war Curcumin neuroprotektiv bei retinalen Ganglienzellen [168].…”

Section: Verringerung Des Oxidativen Stresses: Curcuminunclassified

Sekundäre Neuroprotektion beim Glaukom durch ergänzende medikamentöse Therapiekonzepte

Erb

2020

Klin Monatsbl Augenheilkd

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ZusammenfassungDas primäre Offenwinkelglaukom (POWG) wird derzeit als eine neurodegenerative Systemerkrankung angesehen. Die alleinige individualisierte Augeninnendrucksenkung wird dabei dem komplexen Geschehen im chronischen Verlauf der Erkrankung nicht gerecht werden, sodass begleitende medikamentöse Therapiekonzepte sinnvoll sind. Anhand von 4 Therapiestrategien, wie die Verbesserung der mitochondrialen Atmungskette mit Coenzym Q10, die Stabilisierung der mitochondrialen und zellulären Plasmamembranen mit Citicolin, die Verminderung des oxidativen Stresses am Auge und im Körper mit Curcumin und die Verbesserung des Fettstoffwechsels, speziell des LDL-Cholesterins, mit der Anwendung der Statine, soll ein Einblick in mögliche additive Therapieansätze gegeben werden. Da neuroprotektive Therapien als Monotherapien wenig erfolgversprechend sein dürften, werden sie eher in der Kombination aus verschiedenen Therapieansätzen bestehen.

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Section: обзорные статьиunclassified

“…проангиогенеза VEGF, bFGF и MMPs [39]. bFGF индуцирует ангиогенез, воздействуя на клетки гладких мышц и эндотелиальные клетки, а также выступая в роли хемоаттрактанта, и способствует пролиферации фибро бластов и эпителиальных клеток [39]. MMP-9, в свою очередь, повышает эффективность VEGF, отвечающего за пролиферацию, проницаемость ГЭБ и ангиогенез [40].…”

Section: обзорные статьиunclassified

“…MMP-9, в свою очередь, повышает эффективность VEGF, отвечающего за пролиферацию, проницаемость ГЭБ и ангиогенез [40]. Большая часть биологических свойств VEGF обусловлена его высоким сродством к рецепторам VEGFR-1 и VEGFR-2 на эндотелиальных клетках сосудов [38], а также к рецептору VEGFR-3 [8,39]. Результаты, полученные на мышиной модели, позволяют предположить, что куркумин может ингибировать VEGF / Ang-2 / TSP-1-опосредованный ангиогенез и рост опухоли [29].…”

Section: обзорные статьиunclassified

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The therapeutic potential of curcumin for the treatment of glioblastoma multiforme

et al. 2020

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Glioblastoma multiforme (GBM), a grade IV astrocytoma, is the most common and deadly type of primary malignant brain tumor, with a patien’s median survival rate ranging from 12 to 15 months. Over the last fifteen years, the treatment for GBM has included maximal safe surgical resection with combination radiotherapy and adjuvant temozolomide chemotherapy. The low efficacy of mentioned therapies has forced researchers to explore an appropriate alternative or complementary treatment for GBM. It has been shown that curcumin has therapeutic potentials to fight against GBM via affecting on cell proliferation, apoptosis, cell cycle, invasion and angiogenesis pathways. In addition, curcumin possess a synergistic impact with chemotherapeutic agents. Herein, we summarized the current findings on curcumin as potential therapeutic agent in the treatment of GBM.

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Effects of Curcumin on Vessel Formation Insight into the Pro- and Antiangiogenesis of Curcumin

Cited by 62 publications

References 99 publications

Curcumin stimulates angiogenesis through VEGF and expression of HLA‐G in first‐trimester human placental trophoblasts

Curcumin stimulates angiogenesis through VEGF and expression of HLA‐G in first‐trimester human placental trophoblasts

Sekundäre Neuroprotektion beim Glaukom durch ergänzende medikamentöse Therapiekonzepte

The therapeutic potential of curcumin for the treatment of glioblastoma multiforme

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