William E. Dasher scite author profile

O6-Ether derivatives of 6 beta-naltrexol in which the ether substituent includes various electrophilic groups have been synthesized in an effort to examine structure-activity requirements at the 6 beta-substituent for receptor affinity and irreversibility of binding in opioid receptor preparations. A series of tethered 6 beta-ethers having terminal epoxides, alpha-methylene-gamma-lactones, and an isothiocyanate group were prepared. The stereochemistry of the alpha-methylene-gamma-lactones was established by convergent synthesis of their reduction products from epoxides of known absolute stereochemistry. In general, the tested compounds showed comparable affinity and selectivity for the receptor subtypes. All were found with high affinity for mu-sites. The terminal epoxide ether diastereomers 8 and 9 were not bound irreversibly in the assay for total opioid receptors. The alpha-methylene-gamma-lactone diastereomers 10 and 11, and their O14-acetyl precursors 20 and 21, respectively, varied in their irreversible effects, but where noted these effects were mu-site selective. Methacrylate ether 7 and isothiocyanate ether 12 were bound irreversibly at both mu- and delta-sites.

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ChemInform Abstract: Reactive Cationic Dicyclopentadienylzirconium(IV) Complexes.

Jordan¹,

Dasher²,

Echols³

1986

Chemischer Informationsdienst

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William E. Dasher

Reactive cationic dicyclopentadienyl zirconium(IV) complexes

Hydrogenation of cationic dicyclopentadienylzirconium(IV) alkyl complexes. Characterization of cationic zirconium(IV) hydrides

Electrophilic opioid ligands. Oxygen-tethered .alpha.-methylene-.gamma.-lactone, acrylate, isothiocyanate, and epoxide derivatives of 6.beta.-naltrexol

ChemInform Abstract: Reactive Cationic Dicyclopentadienylzirconium(IV) Complexes.

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