BIOMAT Database Logo BIOMAT Database Logo

Phenylmethylsulfonyl fluoride inhibitory effects on acetylcholinesterase of brain and muscle. 1999

K A Skau, and M T Shipley
Division of Pharmaceutical Sciences, College of Pharmacy, University of Cincinnati, OH 45267-0004, USA. ken.skau@uc.edu

Differential inhibition of brain versus peripheral acetylcholinesterase (AChE) by phenylmethylsulfonyl fluoride (PMSF) suggested that PMSF might preferentially inhibit different AChE molecular forms. AChE inhibition was examined after systemic and in vitro PMSF treatment. Systemic administration resulted in no overt behavioral changes but produced a 71% reduction in brain AChE; hemidiaphragm, extensor digitorum longus and soleus muscles showed 65, 50 and 41% reductions. Muscle asymmetric AChE was reduced to the greatest extent (50-80%). The tetrameric form was inhibited in brain and hemidiaphragm (60-76%) but spared in other muscles (18-22%). Monomeric AChE was spared in all tissues. When PMSF was added to a muscle homogenate all forms were inhibited equally. Purified monomer and tetramer forms were inhibited equally in vitro. These results suggest that PMSF inhibition of AChE is a consequence of a selective inhibition of membrane-associated forms and that the apparent brain selectivity is related to the greater fraction of membrane-associated AChE in brain.

UI MeSH Term Description Entries
D009830 Olfactory Bulb Ovoid body resting on the CRIBRIFORM PLATE of the ethmoid bone where the OLFACTORY NERVE terminates. The olfactory bulb contains several types of nerve cells including the mitral cells, on whose DENDRITES the olfactory nerve synapses, forming the olfactory glomeruli. The accessory olfactory bulb, which receives the projection from the VOMERONASAL ORGAN via the vomeronasal nerve, is also included here. Accessory Olfactory Bulb,Olfactory Tract,Bulbus Olfactorius,Lateral Olfactory Tract,Main Olfactory Bulb,Olfactory Glomerulus,Accessory Olfactory Bulbs,Bulb, Accessory Olfactory,Bulb, Main Olfactory,Bulb, Olfactory,Bulbs, Accessory Olfactory,Bulbs, Main Olfactory,Bulbs, Olfactory,Glomerulus, Olfactory,Lateral Olfactory Tracts,Main Olfactory Bulbs,Olfactorius, Bulbus,Olfactory Bulb, Accessory,Olfactory Bulb, Main,Olfactory Bulbs,Olfactory Bulbs, Accessory,Olfactory Bulbs, Main,Olfactory Tract, Lateral,Olfactory Tracts,Olfactory Tracts, Lateral,Tract, Lateral Olfactory,Tract, Olfactory,Tracts, Lateral Olfactory,Tracts, Olfactory
D010664 Phenylmethylsulfonyl Fluoride An enzyme inhibitor that inactivates IRC-50 arvin, subtilisin, and the fatty acid synthetase complex. Benzenemethanesulfonyl Fluoride,Phenylmethanesulfonyl Fluoride,Fluoride, Benzenemethanesulfonyl,Fluoride, Phenylmethanesulfonyl,Fluoride, Phenylmethylsulfonyl
D002800 Cholinesterase Inhibitors Drugs that inhibit cholinesterases. The neurotransmitter ACETYLCHOLINE is rapidly hydrolyzed, and thereby inactivated, by cholinesterases. When cholinesterases are inhibited, the action of endogenously released acetylcholine at cholinergic synapses is potentiated. Cholinesterase inhibitors are widely used clinically for their potentiation of cholinergic inputs to the gastrointestinal tract and urinary bladder, the eye, and skeletal muscles; they are also used for their effects on the heart and the central nervous system. Acetylcholinesterase Inhibitor,Acetylcholinesterase Inhibitors,Anti-Cholinesterase,Anticholinesterase,Anticholinesterase Agent,Anticholinesterase Agents,Anticholinesterase Drug,Cholinesterase Inhibitor,Anti-Cholinesterases,Anticholinesterase Drugs,Anticholinesterases,Cholinesterase Inhibitors, Irreversible,Cholinesterase Inhibitors, Reversible,Agent, Anticholinesterase,Agents, Anticholinesterase,Anti Cholinesterase,Anti Cholinesterases,Drug, Anticholinesterase,Drugs, Anticholinesterase,Inhibitor, Acetylcholinesterase,Inhibitor, Cholinesterase,Inhibitors, Acetylcholinesterase,Inhibitors, Cholinesterase,Inhibitors, Irreversible Cholinesterase,Inhibitors, Reversible Cholinesterase,Irreversible Cholinesterase Inhibitors,Reversible Cholinesterase Inhibitors
D004791 Enzyme Inhibitors Compounds or agents that combine with an enzyme in such a manner as to prevent the normal substrate-enzyme combination and the catalytic reaction. Enzyme Inhibitor,Inhibitor, Enzyme,Inhibitors, Enzyme
D000110 Acetylcholinesterase An enzyme that catalyzes the hydrolysis of ACETYLCHOLINE to CHOLINE and acetate. In the CNS, this enzyme plays a role in the function of peripheral neuromuscular junctions. EC 3.1.1.7. Acetylcholine Hydrolase,Acetylthiocholinesterase,Hydrolase, Acetylcholine
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D016548 Prosencephalon The anterior of the three primitive cerebral vesicles of the embryonic brain arising from the NEURAL TUBE. It subdivides to form DIENCEPHALON and TELENCEPHALON. (Stedmans Medical Dictionary, 27th ed) Forebrain,Forebrains
D017207 Rats, Sprague-Dawley A strain of albino rat used widely for experimental purposes because of its calmness and ease of handling. It was developed by the Sprague-Dawley Animal Company. Holtzman Rat,Rats, Holtzman,Sprague-Dawley Rat,Rats, Sprague Dawley,Holtzman Rats,Rat, Holtzman,Rat, Sprague-Dawley,Sprague Dawley Rat,Sprague Dawley Rats,Sprague-Dawley Rats
D051381 Rats The common name for the genus Rattus. Rattus,Rats, Laboratory,Rats, Norway,Rattus norvegicus,Laboratory Rat,Laboratory Rats,Norway Rat,Norway Rats,Rat,Rat, Laboratory,Rat, Norway,norvegicus, Rattus
D018482 Muscle, Skeletal A subtype of striated muscle, attached by TENDONS to the SKELETON. Skeletal muscles are innervated and their movement can be consciously controlled. They are also called voluntary muscles. Anterior Tibial Muscle,Gastrocnemius Muscle,Muscle, Voluntary,Plantaris Muscle,Skeletal Muscle,Soleus Muscle,Muscle, Anterior Tibial,Muscle, Gastrocnemius,Muscle, Plantaris,Muscle, Soleus,Muscles, Skeletal,Muscles, Voluntary,Skeletal Muscles,Tibial Muscle, Anterior,Voluntary Muscle,Voluntary Muscles

Related Publications

K A Skau, and M T Shipley
Inactivation studies of acetylcholinesterase with phenylmethylsulfonyl fluoride.
June 2000, Molecular pharmacology,
K A Skau, and M T Shipley
The action of phenylmethylsulfonyl fluoride on human acetylcholinesterase, chymotyrpsin and trypsin.
May 1969, The Journal of pharmacology and experimental therapeutics,
K A Skau, and M T Shipley
Influence of phenylmethylsulfonyl fluoride on anandamide brain levels and pharmacological effects.
August 2000, Life sciences,
K A Skau, and M T Shipley
Late preventive effects of phenylmethylsulfonyl-fluoride on carbon tetrachloride-induced liver necrosis.
May 1984, Toxicology letters,
K A Skau, and M T Shipley
The effects of phenylmethylsulfonyl fluoride on inositol-acylation and fatty acid remodeling in African trypanosomes.
July 1994, The Journal of biological chemistry,
K A Skau, and M T Shipley
Effects of various post-treatment by phenylmethylsulfonyl fluoride on delayed neurotoxicity induced by leptophos.
November 1995, The Journal of toxicological sciences,
K A Skau, and M T Shipley
Specificity of the serine protease inhibitor, phenylmethylsulfonyl fluoride.
July 1979, Biochemical and biophysical research communications,
K A Skau, and M T Shipley
A phospholipase C inhibitor, phenylmethylsulfonyl fluoride, ameliorates ischemic injury to brain mitochondria in rats.
March 2001, Acta pharmacologica Sinica,
K A Skau, and M T Shipley
Inactivation of the protease inhibitor phenylmethylsulfonyl fluoride in buffers.
June 1978, Analytical biochemistry,
K A Skau, and M T Shipley
Potentiation of organophosphorus-induced delayed neurotoxicity by phenylmethylsulfonyl fluoride.
December 1990, Journal of toxicology and environmental health,
Copied contents to your clipboard!