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Effects of Pregnanolone Glutamate and Its Metabolites on GABA A and NMDA Receptors and Zebrafish Behavior.

Vera AbramovaVanessa Leal AlvaradoMartin HillTereza SmejkalovaMichal MalyKarel ValesIvan DittertPaulina BozikovaBohdan KysilovBarbora Hrcka KrausovaVojtech VyklickyAles BalikKlevinda FiliMiloslav KorinekHana ChodounskaEva KudovaDavid CizJan MartinovicJiri CernyPetr BartunekLadislav Vyklicky
Published in: ACS chemical neuroscience (2023)
Multiple molecular targets have been identified to mediate membrane-delimited and nongenomic effects of natural and synthetic steroids, but the influence of steroid metabolism on neuroactive steroid signaling is not well understood. To begin to address this question, we set out to identify major metabolites of a neuroprotective synthetic steroid 20-oxo-5β-pregnan-3α-yl l-glutamyl 1-ester (pregnanolone glutamate, PAG) and characterize their effects on GABA A and NMDA receptors (GABARs, NMDARs) and their influence on zebrafish behavior. Gas chromatography-mass spectrometry was used to assess concentrations of PAG and its metabolites in the hippocampal tissue of juvenile rats following intraperitoneal PAG injection. PAG is metabolized in the peripheral organs and nervous tissue to 20-oxo-17α-hydroxy-5β-pregnan-3α-yl l-glutamyl 1-ester (17-hydroxypregnanolone glutamate, 17-OH-PAG), 3α-hydroxy-5β-pregnan-20-one (pregnanolone, PA), and 3α,17α-dihydroxy-5β-pregnan-20-one (17-hydroxypregnanolone, 17-OH-PA). Patch-clamp electrophysiology experiments in cultured hippocampal neurons demonstrate that PA and 17-OH-PA are potent positive modulators of GABARs, while PAG and 17-OH-PA have a moderate inhibitory effect at NMDARs. PAG, 17-OH-PA, and PA diminished the locomotor activity of zebrafish larvae in a dose-dependent manner. Our results show that PAG and its metabolites are potent modulators of neurotransmitter receptors with behavioral consequences and indicate that neurosteroid-based ligands may have therapeutic potential.
Keyphrases
  • ms ms
  • gas chromatography mass spectrometry
  • small molecule
  • endothelial cells
  • spinal cord
  • spinal cord injury
  • high resolution