Amyloid-β-Acetylcholinesterase complexes potentiate neurodegenerative changes induced by the Aβ peptide. Implications for the pathogenesis of Alzheimer's disease

Dinamarca, Margarita C.; Sagal, Juan Paulo; Quintanilla, Rodrigo A.; Godoy, Juan A.; Arrázola, Macarena S.; Inestrosa, Nibaldo C.

doi:10.1186/1750-1326-5-4

Cited by 113 publications

(85 citation statements)

References 47 publications

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“…Moreover, the AChE gets infused stereotaxically into CA1 region of the rat hippocampus and induces the formation of plaque-like structures and directly promotes the deposition of Ab plaques. More recently, it has been demonstrated that Ab-AChE complexes are more toxic than Ab fibrils alone and neurons treated with Ab-AChE complex showed a neurite network more highly disrupted than one treated with Ab alone (Dinamarc et al, 2010). In addition to that, the activity of BuChE has been found to be increased during the later stages of plaque maturation, which subsequently results in neuronal degeneration (Guillozet et al, 1997).…”

Section: Discussionmentioning

confidence: 99%

Antioxidant and anti-cholinesterase activity ofSargassum wightii

Syad

Shunmugiah

Kasi

2013

Pharmaceutical Biology

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Context: Sargassum has been used in traditional Chinese medicine since the eighth century AD to treat goiter. Sargassum wightii Greville (Sargassaceae) is a major source of alginic acid used widely in food and drug industries. Objective: To evaluate the anti-Alzheimer potential of S. wightii through evaluation of antioxidant and cholinesterase inhibitory activities. Materials and methods: Successive extraction was done using solvents of varying polarity. Solvent extracts (100-500 mg/mL) were employed for all the antioxidant assays. Free radical scavenging activity was evaluated by 2,2-diphenyl-1-picrylhydrazyl, OH. , H 2 O 2 radical scavenging assay. The reducing power of the seaweed was evaluated by ferric reducing antioxidant power and reducing power assay. Cholinesterase (ChE) inhibitory activity was evaluated and the Km, Vmax and Ki were calculated. Further, compound characterization was done by GC-MS analysis. Results: The non-polar extracts were found to possess significant antioxidant activity. At 100 mg/mL, petroleum ether, hexane, benzene and dichloromethane extracts showed significant ChE inhibitory activity with IC 50 values of 19.33 AE 0.56, 46.81 AE 1.62, 27.24 AE 0.90, 50.56 AE 0.90 mg/mL, respectively, for AChE, and 17.91 AE 0.65, 32.75 AE 1.00, 12.98 AE 0.31, 36.16 AE 0.64 mg/mL, respectively, for BuChE. GC-MS reveals that 1,2-benzenedicarboxylic acid, diisooctyl ester is the major compound present in dichloromethane extract of S. wightii. The mode of inhibition exhibited by dichloromethane extract against the cholinesterases was found to be competitive type. Discussion and conclusion: The presence of high amount of terpenoids could be the possible reason for its potential antioxidant and ChE inhibitory activity.

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Section: Discussionmentioning

confidence: 99%

Antioxidant and anti-cholinesterase activity ofSargassum wightii

Syad

Shunmugiah

Kasi

2013

Pharmaceutical Biology

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“…Experimental evidences illustrate that AChE accelerates aggregation of Ab peptide and formation of Ab-AChE complex at the synaptic region of hippocampus leading to DOI: 10.3109/13880209.2015.1017886 neuronal degeneration (Dinamarca et al, 2010;Reyes et al, 2004). Symptomatic treatment for AD involves potentiation of cholinergic activity through the inhibition of AChE (Rahman & Choudhary, 2001).…”

Section: Acetylcholinesterase and Butyrylcholinesterase Inhibitory Acmentioning

confidence: 99%

“…Moreover, Wu et al (2012) reported the blood-brain permeability of catechins, which illustrates that catechins can act as drug for the treatment of AD. Scientific evidences have illustrated AChE inhibitor as most viable therapeutic target for symptomatic improvement in AD because AChE not only enhances the cholinergic neurotransmission in the brain but also reduce the aggregation of b-amyloid, the key factor in AD (Dinamarca et al, 2010). Recent reports have showed that in addition to cholinergic deficit, oxidative stress also plays a pivotal role in the cognitive impairment of AD.…”

Section: Characterization Of Compoundmentioning

confidence: 99%

In vitroantioxidant and anti-cholinesterase activities ofRhizophora mucronata

Suganthy

Devi

2015

Pharmaceutical Biology

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Context: Rhizophora mucronata Lam. (Rhizophoraceae), commonly known as Asiatic mangrove, has been used traditionally among Asian countries as folk medicine. Objective: This study investigates the cholinesterase inhibitory potential and antioxidant activities of R. mucronata. Materials and method: Rhizophora mucronata leaves were successively extracted using solvents of varying polarity and a dosage of 100-500 mg/ml were used for each assay. Acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) inhibitory activities were assessed according to the method of Ellman. In vitro antioxidant activity was assessed using free radical scavenging, reducing power, and metal-chelating activity (duration -3 months). Total phenolic and flavonoid content were quantified spectrophotometrically. Compound characterization was done using column chromatography, NMR, FTIR, and LC-MS analysis. Results: Methanolic leaf extract (500 mg/ml) exhibited the highest inhibitory activity against AChE (92.73 ± 0.54%) and BuChE (98.98 ± 0.17%), with an IC 50 value of 59.31 ± 0.35 and 51.72 ± 0.33 mg/ml, respectively. Among the different solvent extracts, methanolic extract exhibited the highest antioxidant activity with an IC 50 value of 47.39 ± 0.43, 401.45 ± 18.52, 80.23 ± 0.70, and 316.47 ± 3.56 mg/ml for DPPH, hydroxyl, nitric oxide radical, and hydrogen peroxide, respectively. Total polyphenolic and flavonoid contents in methanolic extract were observed to be 598.13 ± 1.85 mg of gallic acid equivalent and 48.85 ± 0.70 mg of rutin equivalent/ mg of extract. Compound characterization illustrated (+)-catechin as the bioactive compound responsible for cholinesterase inhibitory and antioxidant activities. Conclusion: The presence of rich source of flavonoids, in particular catechin, might be responsible for its cholinesterase inhibitory and antioxidant activities.

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“…Several in vivo experiments indicated that BuChE is able to compensate for the lack of AChE, enabling continued regulation of cholinergic neurotransmission 19,20 . It has also been shown that cholinesterases display several non-classical properties associated with Ab and neurofibrillary tangles, and are therefore important for AD pathogenesis [21][22][23][24][25] . Recent studies have shown that BuChE exerts an influence on the modulation of motor control, awareness, cognition and behavior by regulation of ACh levels in the central nervous system (CNS) 26 .…”

Section: Introductionmentioning

confidence: 99%

Discovery of butyrylcholinesterase inhibitors among derivatives of azaphenothiazines

Lodarski

Jończyk

Guzior

et al. 2014

Journal of Enzyme Inhibition and Medicinal Chemistry

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The study presents the discovery of novel butyrylcholinesterase (BuChE) inhibitors among derivatives of azaphenothiazines by application of in silico and in vitro screening methods. From an in-house library of compounds, 143 heterocyclic molecules derived from the azaphenothiazine scaffold were chosen for virtual screening. Based on results of the docking procedure, 15 compounds were identified as exhibiting the best fit for the two screening complexes (ligand -AChE and ligand -BuChE). Five compounds displayed moderate AChE and good BuChE inhibitory activity at screening concentrations of 10 mM. The IC 50 values for active BuChE inhibitors were in the 11.8-122.2 nM range. Three of the most active inhibitors are tetra-or pentacyclic derivatives of azaphenothiazines with the same N-methyl-2-piperidinethyl substituent.

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Amyloid-β-Acetylcholinesterase complexes potentiate neurodegenerative changes induced by the Aβ peptide. Implications for the pathogenesis of Alzheimer's disease

Cited by 113 publications

References 47 publications

Antioxidant and anti-cholinesterase activity ofSargassum wightii

Antioxidant and anti-cholinesterase activity ofSargassum wightii

In vitroantioxidant and anti-cholinesterase activities ofRhizophora mucronata

Discovery of butyrylcholinesterase inhibitors among derivatives of azaphenothiazines

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