Protein Information

ID 106
Name monoamine oxidase
Synonyms Adrenalin oxidase; Amine oxidase; Amine oxidase [flavin containing] B; MAO B; MAOB; Monoamine oxidase; Monoamine oxidase B; Monoamine oxidase type B…

Compound Information

ID 1341
Name rotenone
CAS

Reference

PubMed Abstract RScore(About this table)
15710606 Zoccarato F, Toscano P, Alexandre A: Dopamine-derived dopaminochrome promotes H (2) O (2) release at mitochondrial complex I: stimulation by rotenone, control by Ca (2+), and relevance to Parkinson disease. J Biol Chem. 2005 Apr 22;280(16):15587-94. Epub 2005 Feb 14.
Inhibitors of Complex I of the mitochondrial respiratory chain, such as rotenone, promote Parkinson disease-like symptoms and signs of oxidative stress. Dopamine (DA) oxidation products may be implicated in such a process. We show here that the o-quinone dopaminochrome (DACHR), a relatively stable DA oxidation product, promotes concentration (0.1-0.2 mum)- and respiration-dependent generation of H (2) O (2) at Complex I in brain mitochondria, with further stimulation by low concentrations of rotenone (5-30 nm). The rotenone effect required that contaminating Ca (2+) (8-10 mum) was not removed. DACHR apparently extracts an electron from the constitutively autoxidizable site in Complex I, producing a semiquinone, which then transfers an electron to O (2), generating O (2)(.) and then H (2) O (2). Mitochondrial removal of H (2) O (2) monoamine, formed by either oxidase activity or DACHR, was performed largely by glutathione peroxidase and glutathione reductase, which were negatively regulated by low intramitochondrial Ca (2+) levels. Thus, the H (2) O (2) formed accumulated in the medium if contaminating Ca (2+) was present; in the absence of Ca (2+), H (2) O (2) was completely removed if it originated from monoamine oxidase, but was less completely removed if it originated from DACHR. We propose that the primary action of rotenone is to promote extracellular O (2)(.) release via activation of NADPH oxidase in the microglia. In turn, O (2)(.) oxidizes DA to DACHR extracellularly. (The reaction is favored by the lack of GSH, which would otherwise preferably produce GSH adducts of dopaminoquinone.) Once formed, DACHR (which is resistant to GSH) enters neurons to activate the rotenone-stimulated redox cycle described.
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