Abstract
BackgroundHuman syncytiotrophoblast mitochondria require the activity of the isocitrate dehydrogenase type 2 (IDH2) to obtain reduced coenzymes for progesterone (P4) synthesis. Data from the literature indicate that mitochondrial steroidogenic contact sites transform efficiently cholesterol into P4. In this research, we identified the IDH2 as a member of the steroidogenic contact site and analyzed the steroidogenic role of its activity. MethodHuman syncytiotrophoblast mitochondria were isolated by differential centrifugation, and steroidogenic contact sites were obtained by osmotic shock and sucrose gradient ultracentrifugation. In-gel native activity assay, mass spectroscopy, and western blot were used to identify the association of proteins and their activities. P4 was determined by immunofluorescence. ResultsThe IDH2 was mainly identified in steroidogenic contact sites, and its activity was associated with a complex of proteins with an apparent molecular mass of ~590 kDa. Mass spectroscopy showed many groups of proteins with several metabolic functions, including steroidogenesis and ATP synthesis. The IDH2 activity was coupled to P4 synthesis since in the presence of Ca2+ or Na2SeO3, inhibitors of the IDH2, the P4 production decreased. ConclusionsThe human syncytiotrophoblast mitochondria build contact sites for steroidogenesis. The IDH2, a non-membrane protein, supplies the NADPH required for the synthesis of P4 in a complex (steroidosome) that associate the proteins required to transform efficiently cholesterol into P4, which is necessary in pregnancy to maintain the relationship between mother and fetus. General significanceThe IDH2 is proposed as a check point in the regulation of placental steroidogenesis.
Published Version
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