Litcius/Paper detail

Site-specific effects of neurosteroids on GABAA receptor activation and desensitization

Yusuke Sugasawa, Wayland W.L. Cheng, John Bracamontes, Zi-Wei Chen, Lei Wang, Allison L. Germann, Spencer R. Pierce, Thomas C. Senneff, Kathiresan Krishnan, David E. Reichert, Douglas F. Covey, Gustav Akk, Alex S. Evers

2020eLife60 citationsDOIOpen Access PDF

Abstract

This study examines how site-specific binding to three identified neurosteroid-binding sites in the α 1 β 3 GABA A receptor (GABA A R) contributes to neurosteroid allosteric modulation. We found that the potentiating neurosteroid, allopregnanolone, but not its inhibitory 3β-epimer epi-allopregnanolone, binds to the canonical β 3 (+)–α 1 (-) intersubunit site that mediates receptor activation by neurosteroids. In contrast, both allopregnanolone and epi-allopregnanolone bind to intrasubunit sites in the β 3 subunit, promoting receptor desensitization and the α 1 subunit promoting effects that vary between neurosteroids. Two neurosteroid analogues with diazirine moieties replacing the 3-hydroxyl (KK148 and KK150) bind to all three sites, but do not potentiate GABA A R currents. KK148 is a desensitizing agent, whereas KK150 is devoid of allosteric activity. These compounds provide potential chemical scaffolds for neurosteroid antagonists. Collectively, these data show that differential occupancy and efficacy at three discrete neurosteroid-binding sites determine whether a neurosteroid has potentiating, inhibitory, or competitive antagonist activity on GABA A Rs.

Topics & Concepts

Neuroactive steroidAllopregnanoloneAllosteric regulationGABAA receptorChemistryPregnanoloneReceptorAllosteric modulatorPharmacologyInhibitory postsynaptic potentialBiochemistryNeuroscienceBiologyNeuroscience and Neuropharmacology ResearchReceptor Mechanisms and SignalingNeuroendocrine regulation and behavior