Cholinesterases organophosphates interactions

However, there are some data on interactions of phosphate esters with other compounds. Cocaine undergoes metabolism by three major routes one of these routes involves hydrolysis by liver and plasma cholinesterases to form ecgonine methyl ester. It has been suggested that cocaine users with serious complications tend to have lower plasma cholinesterase levels. Thus, it is possible that individuals with decreased plasma cholinesterase levels (such as resulting from organophosphate ester exposure) may be highly sensitive to cocaine (Cregler and Mark 1986 Hoffman et al. 1992). However, there are no experimental data to support this hypothesis. 

Since organophosphate toxicosis results in respiratory failure, the treatment approach for must include the maintenance of a patent airway. Artificial respiration may also need to be employed. The first pharmacological approach is the administration of atropine. Atropine competes with acetylcholine for its receptor site, thus reducing the effects of the neurotransmitter. N-methylpyridinium 2-aldoxime (2-PAM) is used in with atropine therapy as an effective means to restore the covalently bound enzyme to a normal state. It reacts with the phosphorylated cholinesterase enzyme removing the phosphate group. As previously mentioned, carbamates interact with cholinesterase by weak, ionic bonding thus 2-PAM is of no use to combat toxicosis caused by these compounds. However, atropine is effective to prevent the effects on respiration. 

Discuss what the following shows regarding the interaction of an organophosphate insecticide with cholinesterase enzyme ... 

Chatonnet, A., Hotelier, T., and Cousin, X. 1999. Kinetic parameters of cholinesterase interactions with organophosphates retrieval and comparison tools available through ESTHER database ESTerases, alpha/beta hydrolase enzymes and relatives. Chem.-Biol. Interact., 119/120, 567-576. 

Piezoelectric sensors have become a versatile tool in biosensorics to study protein-protein and protein-small molecule interactions. Here we present theoretical background on piezoelectric sensors and instructions, how to modify their surface with various recognition elements for cholinesterases. These recognition elements comprise an organophosphate (paraoxon), a cocaine derivative (BZE-DADOO), and a tricyclic, aromatic compound (propidium). Additionally, a guide to the kinetic evaluation of the obtained binding curves is given in this chapter. 

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