Abstract
Although cyclic imines are present in various bioactive secondary metabolites, their degradative metabolism remains unknown. Here, we report that copper amine oxidases, which are important in metabolism of primary amines, catalyze a cyclic imine cleavage reaction. We isolate a microorganism (Arthrobacter sp. C-4A) which metabolizes a β-carboline alkaloid, harmaline. The harmaline-metabolizing enzyme (HarA) purified from strain C-4A is found to be copper amine oxidase and catalyze a ring-opening reaction of cyclic imine within harmaline, besides oxidative deamination of amines. Growth experiments on strain C-4A and Western blot analysis indicate that the HarA expression is induced by harmaline. We propose a reaction mechanism of the cyclic imine cleavage by HarA containing a post-translationally-synthesized cofactor, topaquinone. Together with the above results, the finding of the same activity of copper amine oxidase from E. coli suggests that, in many living organisms, these enzymes may play crucial roles in metabolism of ubiquitous cyclic imines.
Highlights
Cyclic imines are present in various bioactive secondary metabolites, their degradative metabolism remains unknown
We collected the samples for the screening of harmalinemetabolizing microorganisms from the soil around the root of P. harmala, which was grown at the Tokyo Metropolitan Institute of Public Health
At ~2 weeks from the start of the screening, using the enrichment culture method described under Methods, we isolated five microorganisms that were able to grow on minimum media containing 0.025% (w/v) harmaline as the sole carbon source
Summary
Cyclic imines are present in various bioactive secondary metabolites, their degradative metabolism remains unknown. We report that copper amine oxidases, which are important in metabolism of primary amines, catalyze a cyclic imine cleavage reaction. The harmaline-metabolizing enzyme (HarA) purified from strain C-4A is found to be copper amine oxidase and catalyze a ring-opening reaction of cyclic imine within harmaline, besides oxidative deamination of amines. 1234567890():,; β-Carboline alkaloids comprise a large group of indole alkaloids They are widely distributed secondary metabolites in nature and exhibit remarkable bioactivities[1]. Possibly due to the wide distribution of these enzymes among organisms, βcarboline alkaloids are ubiquitously produced by broad species of plants, microorganisms and animals, including humans[6,7]. We propose a two-step reaction mechanism for the cleavage of the C=N bond (in the unique cyclic imine structure), and show the generality of the dual functions of CAOs across species
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