Your search keyword '"Harmaline metabolism"' showing total 2 results

1. Harmaline distribution in single muscle fibres and the inhibition of sodium efflux.

Author

Lea TJ and Ashley CC

Subjects

Animals, Biological Transport drug effects, Glutamates metabolism, Harmaline metabolism, Kinetics, Muscles drug effects, Ouabain pharmacology, Thoracica, Alkaloids pharmacology, Harmaline pharmacology, Muscles metabolism, Sodium metabolism

Abstract

Harmaline, a known inhibitor of the (Na+ + K+)-ATPase in cell membranes, inhibited 50% of the 22Na efflux from barnacle muscle fibres at an extracellular concentration of 2.4 mM. Injected harmaline inhibited 50% of the efflux at an estimated intracellular concentration of about 8 mM . kg-1, assuming complete equilibration with no binding. Total fibre harmaline was measured in separate fibres by ultraviolet spectrophotometry. Fibres in 3 mM harmaline saline accumulated harmaline with a half-time of 17 min and a final total fibre concentration of 6-12 mM . kg-1. In harmaline-free saline this accumulated harmaline was lost exponentially with a half-time of 35 min; injected harmaline was lost exponentially from fibres with a half-time of 50 min. It is proposed that harmaline crosses the fibre membrane as the uncharged base and that its apparent accumulation against a concentration gradient is mainly due to intracellular binding with an additional contribution from a transmembrane ph gradient. It is concluded that, in fibres exposed to harmaline saline, the intracellular concentration can reach a sufficiently high value, as judged from the results of the injection experiments, to inhibit Na+ efflux at an interior-facing site on the fibre membrane. In contrast, harmaline appears to inhibit the Na+-dependent uptake of L-glutamate at an extracellular site.

Published

1981

2. Studies of the interaction of the fluorophores harmine and harmaline with calf thymus DNA.

Author

Duportail G and Lami H

Subjects

Animals, Binding Sites, Cattle, Nucleic Acid Denaturation, Spectrometry, Fluorescence, Spectrophotometry, Ultraviolet, Viscosity, Alkaloids metabolism, DNA metabolism, Harmaline metabolism, Harmine metabolism

Abstract

The binding to calf thymus DNA of the hallucinogen harmine and one of its analogues harmaline was studied by absorption spectrophotometry and fluorescence quenching analysis. Viscosity measurements were also carried out. For both molecules, quenched and unquenched sites on DNA are present. For each type of binding site, the value of the product of the number of sites times the association constant was determined. Harmine is more strongly bound than harmaline. Viscosity measurements indicate intercalation in the case of harmine only.

Published

1975