F. Guzman scite author profile

We have prepared a series of tetrahydro-beta-carbolines (TH beta C), beta-carbolines (beta-C), and other nitrogen heterocycles and evaluated them in vitro with respect to their ability to bind to benzodiazepine receptors. The fully aromatic beta-C's were more potent than their corresponding TH beta C derivatives. When substituents possessing a carbonyl (CO2Me, COCH3, CHO) were introduced at the beta-C 3-position the in vitro potency was augmented. Alcohol substituents (CH2OH, CHOHCH3) demonstrated decreased in vitro potency. The importance of the carbonyl moiety was further demonstrated when beta-carboline-3-carboxylic acid was shown to bind tighter to benzodiazepine receptors at lower pH. A lower pH increases the concentration of the acid and decreases the concentration of the anion. 3-(Hydroxymethyl)-beta-carboline (24), 3-formyl-beta-carboline (25) and 3-acetyl-beta-carboline (27) were benzodiazepine antagonists in vivo. Methyl isoquinoline-3-carboxylate (31a) also had in vitro activity. The same structure-activity relationships seen in beta-C's were also observed for isoquinolines.

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β-carboline-3-carboxylate-t-butyl ester: A selective BZ1 benzoiazepine receptor antagonist

Shannon

Guzman

Cook

1984

Life Sciences

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ChemInform Abstract: β‐CARBOLINES: SYNTHESIS AND NEUROCHEMICAL AND PHARMACOLOGICAL ACTIONS ON BRAIN BENZODIAZEPINE RECEPTORS

Cain¹,

Weber²,

Guzman³

et al. 1983

Chemischer Informationsdienst

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Biomimetic Approach to Potential Benzodiazepine Agonists and Antagonists

Cook¹,

Cain²,

Guzman³

et al. 1982

HETEROCYCLES

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F. Guzman

.beta.-Carbolines: synthesis and neurochemical and pharmacological actions on brain benzodiazepine receptors

β-carboline-3-carboxylate-t-butyl ester: A selective BZ1 benzoiazepine receptor antagonist

ChemInform Abstract: β‐CARBOLINES: SYNTHESIS AND NEUROCHEMICAL AND PHARMACOLOGICAL ACTIONS ON BRAIN BENZODIAZEPINE RECEPTORS

Biomimetic Approach to Potential Benzodiazepine Agonists and Antagonists

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