Gihan Taha scite author profile

Four chiral congeners of arachidonylethanolamide (anandamide) have been synthesized and evaluated for (a) their ability to bind to the cannabinoid receptor in rat forebrain membranes and (b) their pharmacological potency as measured by the compounds' ability to inhibit electrically-evoked contractions of the mouse vas deferens. The lead analog was also tested for its potency in vivo. Of the analogs tested, (R)-(+)-arachidonyl-1'-hydroxy-2'-propylamide [(R)-methanandamide] exhibited the highest affinity for the cannabinoid receptor with a Ki of 20 +/- 1.6 nM, 4-fold lower than that of anandamide (Ki = 78 +/- 2 nM). Moreover, determination of the cannabinoid binding affinity in the presence and absence of the protease inhibitor phenylmethanesulfonyl fluoride (PMSF) revealed that (R)-methanandamide possesses a remarkable stability to aminopeptidase hydrolysis. Pharmacological studies on mouse isolated vasa deferentia demonstrated that all four analogs produce concentration-related inhibition of the twitch response and the order of potency is the same as the rank order of the affinities of these agonists for cannabinoid binding sites. Furthermore, experiments with mice have demonstrated that (R)-methanandamide also possesses cannabimimetric properties in vivo, as established by the four tests of hypothermia, hypokinesia, ring immobility, and antinociception.

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Head Group Analogs of Arachidonylethanolamide, the Endogenous Cannabinoid Ligand

Khanolkar

et al. 1996

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Several analogs of an endogenous cannabimimetic, arachidonylethanolamide (anandamide), were synthesized to study the structural requirements of the ethanolamide head group. CB1 receptor affinities of the analogs were evaluated by a standard receptor binding assay using tritiated CP-55,940 as the radioligand and compared to anandamide which was shown to have a Ki of 78 nM. Replacement of the amide carbonyl oxygen by a sulfur atom had a detrimental effect on the CB1 affinity. The thio analogs of both anandamide and (R)-methanandamide showed very weak affinity for CB1. The secondary nature of the amidic nitrogen was also shown to be important for affinity, indicating a possible hydrogen-bonding interaction between the amide NH and the receptor. Introduction of a phenolic moiety in the head group resulted in the loss of receptor affinity except when a methylene spacer was introduced between the amidic nitrogen and the phenol. A select group of analogs were also tested for their affinity for the CB2 receptor using a mouse spleen preparation and were found to possess low affinities for the CB2 sites. Notably, anandamide and (R)-methanandamide demonstrated high selectivity for the CB1 receptor. Overall, the data presented here show that structural requirements of the head group of anandamide are rather stringent.

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ChemInform Abstract: (R)‐Methanandamide: A Chiral Novel Anandamide Possessing Higher Potency and Metabolic Stability.

Abadji

Lin²,

Taha³

et al. 1994

ChemInform

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hormones hormones U 1000 44 -220 (R)-Methanandamide: A Chiral Novel Anandamide Possessing Higher Potency and Metabolic Stability. -Four chiral analogues of anandamide are synthesized and evaluated for their receptor binding and pharmaceutical activities. Compound (IIIa) shows the best activity of all anandamide analogues reported to date. -(ABADJI, V.; LIN, S.; TAHA, G.; GRIFFIN, G.; STEVENSON, L. A.; PERTWEE, R. G.; MAKRIYANNIS, A.;

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The Use of the Ant Algorithm in the Audit Planning of Multi-Branch Organizations

Alsolamy¹,

Taha²

2021

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Gihan Taha

(R)-Methanandamide: A Chiral Novel Anandamide Possessing Higher Potency and Metabolic Stability

Head Group Analogs of Arachidonylethanolamide, the Endogenous Cannabinoid Ligand

ChemInform Abstract: (R)‐Methanandamide: A Chiral Novel Anandamide Possessing Higher Potency and Metabolic Stability.

The Use of the Ant Algorithm in the Audit Planning of Multi-Branch Organizations

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