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  • Title: Inhibition of high-affinity choline uptake and acetylcholine synthesis by quinuclidinyl and hemicholinium derivatives.
    Author: Sterling GH, Doukas PH, Ricciardi FJ, Biedrzycka DW, O'Neill JJ.
    Journal: J Neurochem; 1986 Apr; 46(4):1170-5. PubMed ID: 3950622.
    Abstract:
    Choline uptake into cholinergic neurons for acetylcholine (ACh) synthesis is by a specific, high-affinity, sodium- and temperature-dependent transport mechanism (HAChU). To assess the role of choline availability in regulation of ACh synthesis, the structure-activity relationships of several hemicholinium (HC) and quinuclidinyl analogs were evaluated in a dose response manner. As confirms previous studies, the HCs, e.g., HC-3, acetylsecohemicholinium, and HC-15 are potent inhibitors of HAChU, HC-3 being the most potent (I50 = 6.1 X 10(-8) M). In the present study, the most potent quinuclidinyl derivative was the N-methyl-3-quinuclidinone (I50 = 5.6 X 10(-7) M). This compound had approximately 100-fold greater inhibitory activity than the corresponding racemic alcohol, suggesting that the 3-hydroxyl functional group is not absolutely essential for activity. Increasing the size of the N-functional group from a methyl to an allyl in the alcohol led to a 10-fold increase in activity. However, removal of the quaternizing N-methyl group yielding the tertiary amine, 3-quinuclidinol hydrochloride, greatly reduced its capacity to inhibit HAChU. Of the 2-benzylidene-3-quinuclidinone derivatives studied, only the m-chloro derivative significantly reduced HAChU.
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