Dawn Chin scite author profile

Turmeric is traditionally used as a spice and coloring in foods. It is an important ingredient in curry and gives curry powder its characteristic yellow color. As a consequence of its intense yellow color, turmeric, or curcumin (food additive E100), is used as a food coloring (e.g. mustard). Turmeric contains the curcuminoids curcumin, demethoxycurcumin, and bisdemethoxycurcumin. Recently, the health properties (neuroprotection, chemo-, and cancer prevention) of curcuminoids have gained increasing attention. Curcuminoids induce endogenous antioxidant defense mechanisms in the organism and have anti-inflammatory activity. Curcuminoids influence gene expression as well as epigenetic mechanisms. Synthetic curcumin analogues also exhibit biological activity. This Review describes the development of curcumin from a "traditional" spice and food coloring to a "modern" biological regulator.

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Curcumin may impair iron status when fed to mice for six months

Chin

Huebbe

Frank

et al. 2014

Redox Biology

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Curcumin has been shown to have many potentially health beneficial properties in vitro and in animal models with clinical studies on the toxicity of curcumin reporting no major side effects. However, curcumin may chelate dietary trace elements and could thus potentially exert adverse effects. Here, we investigated the effects of a 6 month dietary supplementation with 0.2% curcumin on iron, zinc, and copper status in C57BL/6J mice. Compared to non-supplemented control mice, we observed a significant reduction in iron, but not zinc and copper stores, in the liver and the spleen, as well as strongly suppressed liver hepcidin and ferritin expression in the curcumin-supplemented mice. The expression of the iron-importing transport proteins divalent metal transporter 1 and transferrin receptor 1 was induced, while hepatic and splenic inflammatory markers were not affected in the curcumin-fed mice. The mRNA expression of other putative target genes of curcumin, including the nuclear factor (erythroid-derived 2)-like 2 and haem oxygenase 1 did not differ between the groups. Most of the published animal trials with curcumin-feeding have not reported adverse effects on iron status or the spleen. However, it is possible that long-term curcumin supplementation and a Western-type diet may aggravate iron deficiency. Therefore, our findings show that further studies are needed to evaluate the effect of curcumin supplementation on iron status.

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Neuroprotective Properties of Curcumin in Alzheimer’s Disease – Merits and Limitations

Chin¹,

Huebbe²,

Pallauf³

et al. 2013

CMC

125

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As demographics in developed nations shift towards an aging population, neurodegenerative pathologies, especially dementias such as Alzheimer's disease, pose one of the largest challenges to the modern health care system. Since there is yet no cure for dementia, there is great pressure to discover potential therapeutics for these diseases. One popular candidate is curcumin or diferuloylmethane, a polyphenolic compound that is the main curcuminoid found in Curcuma longa (family Zingiberaceae). In recent years, curcumin has been reported to possess anti-amyloidogenic, antiinflammatory, anti-oxidative, and metal chelating properties that may result in potential neuroprotective effects. Particularly, the hydrophobicity of the curcumin molecule hints at the possibility of blood-brain barrier penetration and accumulation in the brain. However, curcumin exhibits extremely low bioavailability, mainly due to its poor aqueous solubility, poor stability in solution, and rapid intestinal first-pass and hepatic metabolism. Despite the many efforts that are currently being made to improve the bioavailability of curcumin, brain concentration of curcumin remains low. Furthermore, although many have reported that curcumin possesses a relatively low toxicity profile, curcumin applied at high doses, which is not uncommon practice in many in vivo and clinical studies, may present certain dangers that in our opinion have not been addressed sufficiently. Herein, the neuroprotective potential of curcumin, with emphasis on Alzheimer's disease, as well as its limitations will be discussed in detail.

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Transforming Growth Factor-β1 Induces Heparan Sulfate 6-O-Endosulfatase 1 Expression in Vitro and in Vivo

Yue

Nguyen

et al. 2008

Journal of Biological Chemistry

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Resveratrol and Lifespan in Model Organisms

Pallauf

Rimbach²,

Rupp³

et al. 2016

CMC

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Dawn Chin

Curcumin—From Molecule to Biological Function

Curcumin may impair iron status when fed to mice for six months

Neuroprotective Properties of Curcumin in Alzheimer’s Disease – Merits and Limitations

Transforming Growth Factor-β1 Induces Heparan Sulfate 6-O-Endosulfatase 1 Expression in Vitro and in Vivo

Resveratrol and Lifespan in Model Organisms

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Resources

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Dawn Chin

Curcumin—From Molecule to Biological Function

Curcumin may impair iron status when fed to mice for six months

Neuroprotective Properties of Curcumin in Alzheimer&#8217;s Disease – Merits and Limitations

Transforming Growth Factor-β1 Induces Heparan Sulfate 6-O-Endosulfatase 1 Expression in Vitro and in Vivo

Resveratrol and Lifespan in Model Organisms

Contact Info

Product

Resources

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Neuroprotective Properties of Curcumin in Alzheimer’s Disease – Merits and Limitations