Michel Xilinas scite author profile

Inhibition of neocortical beta-amyloid (Abeta) accumulation may be essential in an effective therapeutic intervention for Alzheimer's disease (AD). Cu and Zn are enriched in Abeta deposits in AD, which are solubilized by Cu/Zn-selective chelators in vitro. Here we report a 49% decrease in brain Abeta deposition (-375 microg/g wet weight, p = 0.0001) in a blinded study of APP2576 transgenic mice treated orally for 9 weeks with clioquinol, an antibiotic and bioavailable Cu/Zn chelator. This was accompanied by a modest increase in soluble Abeta (1.45% of total cerebral Abeta); APP, synaptophysin, and GFAP levels were unaffected. General health and body weight parameters were significantly more stable in the treated animals. These results support targeting the interactions of Cu and Zn with Abeta as a novel therapy for the prevention and treatment of AD.

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Metal-Protein Attenuation With Iodochlorhydroxyquin (Clioquinol) Targeting Aβ Amyloid Deposition and Toxicity in Alzheimer Disease

Ritchie¹,

Bush²,

Mackinnon³

et al. 2003

Arch Neurol

940

685

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Degradation of the Alzheimer Disease Amyloid β-Peptide by Metal-dependent Up-regulation of Metalloprotease Activity

White

Laughton

et al. 2006

Journal of Biological Chemistry

270

296

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Biometals play an important role in Alzheimer disease, and recent reports have described the development of potential therapeutic agents based on modulation of metal bioavailability. The metal ligand clioquinol (CQ) has shown promising results in animal models and small phase clinical trials; however, the actual mode of action in vivo has not been determined. We now report a novel effect of CQ on amyloid ␤-peptide (A␤) metabolism in cell culture. Treatment of Chinese hamster ovary cells overexpressing amyloid precursor protein with CQ and Cu 2؉ or Zn 2؉ resulted in an ϳ85-90% reduction of secreted A␤-(1-40) and A␤-(1-42) compared with untreated controls. Analogous effects were seen in amyloid precursor protein-overexpressing neuroblastoma cells. The secreted A␤ was rapidly degraded through up-regulation of matrix metalloprotease (MMP)-2 and MMP-3 after addition of CQ and Cu 2؉ . MMP activity was increased through activation of phosphoinositol 3-kinase and JNK. CQ and Cu 2؉ also promoted phosphorylation of glycogen synthase kinase-3, and this potentiated activation of JNK and loss of A␤-(1-40). Our findings identify an alternative mechanism of action for CQ in the reduction of A␤ deposition in the brains of CQ-treated animals and potentially in Alzheimer disease patients. Alzheimer disease (AD)4 is characterized by progressive neuronal dysfunction, reactive gliosis, and the formation of amyloid plaques in the brain. The major constituent of AD plaques is the amyloid ␤-peptide (A␤), which is cleaved from the membrane-bound amyloid precursor protein (APP) (1). Aggregated or oligomeric A␤ can induce neurotoxicity through pathways involving free radical production and increased neuronal oxidative stress (2). Among the factors capable of promoting A␤ aggregation in vivo, recent evidence supports a central role for biometals such as Cu 2ϩ and Zn 2ϩ in this process (3). An important factor in controlling A␤ accumulation in AD patients is the activity of A␤-degrading enzymes. Recent studies have identified several candidate proteases that may contribute to catabolism of A␤ in the brain. Neprilysin, insulin-degrading enzyme, angiotensin-converting enzyme, and matrix metalloproteases (MMPs) have all demonstrated A␤-degrading activity in vitro and/or in vivo (4 -6). Reduced activity of these or other A␤-degrading proteases with age may play a role in promoting accumulation and deposition of A␤ in AD patients. Development of strategies to enhance clearance of A␤ may lead to novel therapeutic treatments for AD patients.Promoting A␤ clearance may be achieved through modulating metal sequestration or metal-protein interactions. 5-Chloro-7-iodo-8-hydroxyquinoline or clioquinol (CQ), a disused antibiotic, has received considerable attention as a potential metal ligand in AD and Parkinson disease patients (7-9). Preliminary studies revealed that CQ rapidly and potently dissolved aggregates of synthetic or AD brain-derived A␤ in vitro (10). In subsequent animal studies, a 9-week oral treatment with CQ resulted in a 49% reduction of...

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Treatment of Alzheimer’s Disease with Clioquinol

Regland

Lehmann

Abedini

et al. 2001

Dement Geriatr Cogn Disord

209

130

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As heavy metal ions may be implicated in the formation of senile plaques in Alzheimer-afflicted brains, treatment with clioquinol was tested in 20 patients with Alzheimer’s disease. Clioquinol is a chelator that crosses the blood-brain barrier and has greater affinity for zinc and copper ions than for calcium and magnesium ions. Treatment was given for 21 days at doses of 20 mg/day to 10 patients and 80 mg/day to another 10 patients. The study was blind to the dosages but included no controls. Cerebrospinal fluid (CSF) investigations revealed a significant increase at day 7 and a decrease at day 21 in Tau protein and growth-associated protein (GAP43). These proteins are increased in Alzheimer’s disease and considered as rather stable markers. The initial increase may indicate a temporary cytotoxicity to the brain and/or an increased release into the CSF from stores in the tissue, possibly from senile plaques where the proteins are accumulated. The levels of CSF-Tau protein correlated positively and significantly with the serum levels of copper and also with the serum copper/zinc ratio. Clinical ratings showed slight improvement after 3 weeks treatment with clioquinol in this open study.

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Changes in uptake of vitamin B12 and trace metals in brains of mice treated with clioquinol

Yassin

Ekblom

Xilinas

et al. 2000

Journal of the Neurological Sciences

122

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Michel Xilinas

Treatment with a Copper-Zinc Chelator Markedly and Rapidly Inhibits β-Amyloid Accumulation in Alzheimer's Disease Transgenic Mice

Metal-Protein Attenuation With Iodochlorhydroxyquin (Clioquinol) Targeting Aβ Amyloid Deposition and Toxicity in Alzheimer Disease

Degradation of the Alzheimer Disease Amyloid β-Peptide by Metal-dependent Up-regulation of Metalloprotease Activity

Treatment of Alzheimer’s Disease with Clioquinol

Changes in uptake of vitamin B12 and trace metals in brains of mice treated with clioquinol

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