Harald O. Borbe scite author profile

The racemic compound carvedilol possesses two complementary pharmacological effects, vasodilation and beta-blockade. The R- and S-enantiomers of carvedilol and the racemate were investigated with respect to the beta-blocking, vasodilating, and hypotensive actions. In agreement with results obtained with other beta-blockers, only the S-enantiomer of carvedilol exerts beta-blocking effects. In contrast, no substantial difference between the enantiomers could be seen with respect to alpha-blockade. The greater hypotensive activity of S-carvedilol may be attributed to beta-blockade, which inhibits counter-regulatory mechanisms provoked by vasodilation. From these results it is concluded that there is a rationale for using carvedilol as the racemate. Using the S-enantiomer would lead to relatively strong beta-blockade with only a weak vasodilating effect. The R-enantiomer alone would act only as a hypotensive agent without beta-blockade.

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1-Methyl-?-carboline (Harmane), a potent endogenous inhibitor of benzodiazepine receptor binding

Rommelspacher

Nanz

Borbe

et al. 1980

Naunyn-Schmiedeberg's Arch. Pharmacol.

117

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The interaction of several beta-carbolines with specific [3H]-flunitrazepam binding to benzodiazepine receptors in rat brain membranes was investigated. Out of the investigated compounds, harmane and norharmane were the most potent inhibitors of specific [3H]-flunitrazepam binding, with IC50-values in the micromolar range. All other derivatives, including harmine, harmaline, and several tetrahydroderivatives were at least ten times less potent. Harmane has been previously found in rat brain and human urine, so it is the most potent endogenous inhibitor of specific [3H]-flunitrazepam binding known so far, with a several fold higher affinity for the benzodiazepine receptor than inosine and hypoxanthine. Thus, we suggest that harmane or other related beta-carbolines could be potential candidates as endogenous ligands of the benzodiazepine receptor.

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On the neuropharmacology of Harmane and other β-carbolines

Müller

Fehske

Borbe

et al. 1981

Pharmacology Biochemistry and Behavior

110

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Detection of Pericine, a New CNS-active Indole Alkaloid fromPicralima nitidaCell Suspension Culture by Opiate Receptor Binding Studies

Arens¹,

Borbe²,

Ulbrich³

et al. 1982

Planta Med

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Successive fractionation of a crude methanolic extract of cultured Picralima nitida cells accompanied by opiate receptor binding studies led to the detection and isolation of two compounds with opioid activity. The substances were identified as the indole alkaloids pericalline and pericine, the latter, as yet, not described. Half-maximal inhibition (IC0) by the alkaloids was 2.3 l.tMol/l for pericalline and 0.6 tMol/l for pericine, values which lie within the micromolar range of the weak analgetic codeine (1C50: 3.6 Mol/ I).

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Harald O. Borbe

Enantioselective pharmacokinetics and bioavailability of different racemic α-lipoic acid formulations in healthy volunteers

Pharmacological characteristics of the stereoisomers of carvedilol

1-Methyl-?-carboline (Harmane), a potent endogenous inhibitor of benzodiazepine receptor binding

On the neuropharmacology of Harmane and other β-carbolines

Detection of Pericine, a New CNS-active Indole Alkaloid fromPicralima nitidaCell Suspension Culture by Opiate Receptor Binding Studies

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