A Chemical Analog of Curcumin as an Improved Inhibitor of Amyloid Abeta Oligomerization

Orlando, Robert A.; Gonzales, Amanda; Royer, Robert E.; Deck, Lorraine M.; Jagt, David L. Vander

doi:10.1371/journal.pone.0031869

Cited by 68 publications

(54 citation statements)

References 46 publications

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“…Recently Orlando et al, have screened and analyzed a library of artificial curcumin analogs that inhibited Aβ oligomerization either equal to or more than the effect of curcumin28. We selected nine analogs of curcumin such that they are structurally similar to curcumin, but have different functional group and could have potential effect on α-Syn aggregation.…”

Section: Discussionmentioning

confidence: 99%

Effect of curcumin analogs onα-synuclein aggregation and cytotoxicity

Jha

Ghosh

Das

et al. 2016

Sci Rep

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Alpha-synuclein (α-Syn) aggregation into oligomers and fibrils is associated with dopaminergic neuron loss occurring in Parkinson’s disease (PD) pathogenesis. Compounds that modulate α-Syn aggregation and interact with preformed fibrils/oligomers and convert them to less toxic species could have promising applications in the drug development efforts against PD. Curcumin is one of the Asian food ingredient which showed promising role as therapeutic agent against many neurological disorders including PD. However, the instability and low solubility makes it less attractive for the drug development. In this work, we selected various curcumin analogs and studied their toxicity, stability and efficacy to interact with different α-Syn species and modulation of their toxicity. We found a subset of curcumin analogs with higher stability and showed that curcumin and its various analogs interact with preformed fibrils and oligomers and accelerate α-Syn aggregation to produce morphologically different amyloid fibrils in vitro. Furthermore, these curcumin analogs showed differential binding with the preformed α-Syn aggregates. The present data suggest the potential role of curcumin analogs in modulating α-Syn aggregation.

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Section: Discussionmentioning

confidence: 99%

Effect of curcumin analogs onα-synuclein aggregation and cytotoxicity

Jha

Ghosh

Das

et al. 2016

Sci Rep

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“…These ideas on the importance of the Cur structural features have been validated by solid state NMR experiments, showing that in Cur, the methoxy and hydroxyl groups adjacent to the aromatic carbons are involved in the Cur-Aβ interaction [200]. These data were confirmed by a study carried out with several Cur synthetic analogs, further suggesting that the carbon spacer between the two aryl rings must contain an enone group to ensure the anti-amyloidogenic activity [201]. The integration of these results with those obtained by Reinke et al [202] by using another library of Cur analogs and the Aβ42 peptide led to hypothesize that a fairly rigid unsaturated, 8–16 Ǻ-long, carbon chain provides the best linker to accommodate the aromatic rings in two distinct (yet unidentified) binding sites on the target peptide.…”

Section: The Anti-amyloid Properties Of Natural Phenols and Polyphmentioning

confidence: 94%

Protein Folding and Aggregation into Amyloid: The Interference by Natural Phenolic Compounds

Stefani

Rigacci

2013

IJMS

182

127

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Amyloid aggregation is a hallmark of several degenerative diseases affecting the brain or peripheral tissues, whose intermediates (oligomers, protofibrils) and final mature fibrils display different toxicity. Consequently, compounds counteracting amyloid aggregation have been investigated for their ability (i) to stabilize toxic amyloid precursors; (ii) to prevent the growth of toxic oligomers or speed that of fibrils; (iii) to inhibit fibril growth and deposition; (iv) to disassemble preformed fibrils; and (v) to favor amyloid clearance. Natural phenols, a wide panel of plant molecules, are one of the most actively investigated categories of potential amyloid inhibitors. They are considered responsible for the beneficial effects of several traditional diets being present in green tea, extra virgin olive oil, red wine, spices, berries and aromatic herbs. Accordingly, it has been proposed that some natural phenols could be exploited to prevent and to treat amyloid diseases, and recent studies have provided significant information on their ability to inhibit peptide/protein aggregation in various ways and to stimulate cell defenses, leading to identify shared or specific mechanisms. In the first part of this review, we will overview the significance and mechanisms of amyloid aggregation and aggregate toxicity; then, we will summarize the recent achievements on protection against amyloid diseases by many natural phenols.

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“…chemically synthesized curcumin analogs with several modifications on the basic structure of the curcumin [257]. Several structural features had been identified contributing to anti-aggregation of A β .…”

Section: Neuroprotective Action Of Curcumin Against Admentioning

confidence: 99%

Curcumin and its Derivatives: Their Application in Neuropharmacology and Neuroscience in the 21st Century

et al. 2013

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Curcumin (diferuloylmethane), a polyphenol extracted from the plant Curcuma longa, is widely used in Southeast Asia, China and India in food preparation and for medicinal purposes. Since the second half of the last century, this traditional medicine has attracted the attention of scientists from multiple disciplines to elucidate its pharmacological properties. Of significant interest is curcumin’s role to treat neurodegenerative diseases including Alzheimer’s disease (AD), and Parkinson’s disease (PD) and malignancy. These diseases all share an inflammatory basis, involving increased cellular reactive oxygen species (ROS) accumulation and oxidative damage to lipids, nucleic acids and proteins. The therapeutic benefits of curcumin for these neurodegenerative diseases appear multifactorial via regulation of transcription factors, cytokines and enzymes associated with (Nuclear factor kappa beta) NFκB activity. This review describes the historical use of curcumin in medicine, its chemistry, stability and biological activities, including curcumin's anti-cancer, anti-microbial, anti-oxidant, and anti-inflammatory properties. The review further discusses the pharmacology of curcumin and provides new perspectives on its therapeutic potential and limitations. Especially, the review focuses in detail on the effectiveness of curcumin and its mechanism of actions in treating neurodegenerative diseases such as Alzheimer’s and Parkinson’s diseases and brain malignancies.

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A Chemical Analog of Curcumin as an Improved Inhibitor of Amyloid Abeta Oligomerization

Cited by 68 publications

References 46 publications

Effect of curcumin analogs onα-synuclein aggregation and cytotoxicity

Effect of curcumin analogs onα-synuclein aggregation and cytotoxicity

Protein Folding and Aggregation into Amyloid: The Interference by Natural Phenolic Compounds

Curcumin and its Derivatives: Their Application in Neuropharmacology and Neuroscience in the 21st Century

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