Dysfunction of copper metabolism leading to its excess or deficiency results in severe ailments. Recently, neurodegenerative disorders such as Alzheimer's disease have been associated with copper metabolism. Compounds having the ability to reduce copper levels in brain or to affect its distribution could have neuroprotective effects, mainly through a downregulation of the transcription of amyloid peptide precursor (APP). We report here the biological effect of compound 1,1'-xylyl bis-1,4,8,11-tetraaza cyclotetradecane, which specifically affects copper concentration in the brain cortex region. Its copper homeostatic activity is compared with that of clioquinol, a well-known drug, which has been recently reported as an active A beta-peptide clearance drug in vivo for Alzheimer's patients.