Potencies and selectivities of inhibitors of acetylcholinesterase and its molecular forms in normal and Alzheimer's disease brain

Eight inhibitors of acetylcholinesterase (AChE), tacrine, bis-tacrine, donepezil, rivastigmine, galantamine, heptyl-physostigmine, TAK-147 and metrifonate, were compared with regard to their effects on AChE and butyrylcholinesterase (BuChE) in normal human brain cortex. Additionally, the IC50 values...

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Veröffentlicht in:	Acta biologica Hungarica 2003-01, Vol.54 (2), p.183-189
1. Verfasser:	Rakonczay, Z
Format:	Artikel
Sprache:	eng
Schlagworte:	Acetylcholinesterase - metabolism Alzheimer Disease - enzymology Benzazepines - pharmacology Brain - drug effects Brain - enzymology Butyrylcholinesterase - metabolism Carbamates - pharmacology Cerebral Cortex - drug effects Cerebral Cortex - enzymology Cholinesterase Inhibitors - pharmacology Edrophonium - pharmacology Humans In Vitro Techniques Phenylcarbamates Physostigmine - analogs & derivatives Physostigmine - pharmacology Rivastigmine Tacrine - pharmacology Trichlorfon - pharmacology
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description	Eight inhibitors of acetylcholinesterase (AChE), tacrine, bis-tacrine, donepezil, rivastigmine, galantamine, heptyl-physostigmine, TAK-147 and metrifonate, were compared with regard to their effects on AChE and butyrylcholinesterase (BuChE) in normal human brain cortex. Additionally, the IC50 values of different molecular forms of AChE (monomeric, G1, and tetrameric, G4) were determined in the cerebral cortex in both normal and Alzheimer's human brains. The most selective AChE inhibitors, in decreasing sequence, were in order: TAK-147, donepezil and galantamine. For BuChE, the most specific was rivastigmine. However, none of these inhibitors was absolutely specific for AChE or BuChE. Among these inhibitors, tacrine, bis-tacrine, TAK-147, metrifonate and galantamine inhibited both the G1 and G4 AChE forms equally well. Interestingly, the AChE molecular forms in Alzheimer samples were more sensitive to some of the inhibitors as compared with the normal samples. Only one inhibitor, rivastigmine, displayed preferential inhibition for the G1 form of AChE. We conclude that a molecular form-specific inhibitor may have therapeutic applications in inhibiting the G1 form, which is relatively unchanged in Alzheimer's brain.
doi_str_mv	10.1556/abiol.54.2003.2.7
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Additionally, the IC50 values of different molecular forms of AChE (monomeric, G1, and tetrameric, G4) were determined in the cerebral cortex in both normal and Alzheimer's human brains. The most selective AChE inhibitors, in decreasing sequence, were in order: TAK-147, donepezil and galantamine. For BuChE, the most specific was rivastigmine. However, none of these inhibitors was absolutely specific for AChE or BuChE. Among these inhibitors, tacrine, bis-tacrine, TAK-147, metrifonate and galantamine inhibited both the G1 and G4 AChE forms equally well. Interestingly, the AChE molecular forms in Alzheimer samples were more sensitive to some of the inhibitors as compared with the normal samples. Only one inhibitor, rivastigmine, displayed preferential inhibition for the G1 form of AChE. 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Additionally, the IC50 values of different molecular forms of AChE (monomeric, G1, and tetrameric, G4) were determined in the cerebral cortex in both normal and Alzheimer's human brains. The most selective AChE inhibitors, in decreasing sequence, were in order: TAK-147, donepezil and galantamine. For BuChE, the most specific was rivastigmine. However, none of these inhibitors was absolutely specific for AChE or BuChE. Among these inhibitors, tacrine, bis-tacrine, TAK-147, metrifonate and galantamine inhibited both the G1 and G4 AChE forms equally well. Interestingly, the AChE molecular forms in Alzheimer samples were more sensitive to some of the inhibitors as compared with the normal samples. Only one inhibitor, rivastigmine, displayed preferential inhibition for the G1 form of AChE. 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subjects	Acetylcholinesterase - metabolism Alzheimer Disease - enzymology Benzazepines - pharmacology Brain - drug effects Brain - enzymology Butyrylcholinesterase - metabolism Carbamates - pharmacology Cerebral Cortex - drug effects Cerebral Cortex - enzymology Cholinesterase Inhibitors - pharmacology Edrophonium - pharmacology Humans In Vitro Techniques Phenylcarbamates Physostigmine - analogs & derivatives Physostigmine - pharmacology Rivastigmine Tacrine - pharmacology Trichlorfon - pharmacology
title	Potencies and selectivities of inhibitors of acetylcholinesterase and its molecular forms in normal and Alzheimer's disease brain
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