Positive Modulation of the Glycine Receptor by Means of Glycine Receptor–Binding Aptamers

According to the gate control theory of pain, the glycine receptors (GlyRs) are putative targets for development of therapeutic analgesics. A possible approach for novel analgesics is to develop a positive modulator of the glycine-activated Cl− channels. Unfortunately, there has been limited success...

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Bibliographic Details
Published in:Journal of biomolecular screening 2015-10, Vol.20 (9), p.1112-1123
Main Authors: Shalaly, Nancy Dekki, Aneiros, Eduardo, Blank, Michael, Mueller, Johan, Nyman, Eva, Blind, Michael, Dabrowski, Michael A., Andersson, Christin V., Sandberg, Kristian
Format: Article
Language:English
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Summary:According to the gate control theory of pain, the glycine receptors (GlyRs) are putative targets for development of therapeutic analgesics. A possible approach for novel analgesics is to develop a positive modulator of the glycine-activated Cl− channels. Unfortunately, there has been limited success in developing drug-like small molecules to study the impact of agonists or positive modulators on GlyRs. Eight RNA aptamers with low nanomolar affinity to GlyRα1 were generated, and their pharmacological properties analyzed. Cytochemistry using fluorescein-labeled aptamers demonstrated GlyRα1-dependent binding to the plasma membrane but also intracellular binding. Using a fluorescent membrane potential assay, we could identify five aptamers to be positive modulators. The positive modulation of one of the aptamers was confirmed by patch-clamp electrophysiology on L(tk) cells expressing GlyRα1 and/or GlyRα1β. This aptamer potentiated whole-cell Cl− currents in the presence of low concentrations of glycine. To our knowledge, this is the first demonstration ever of RNA aptamers acting as positive modulators for an ion channel. We believe that these aptamers are unique and valuable tools for further studies of GlyR biology and possibly also as tools for assay development in identifying small-molecule agonists and positive modulators.
ISSN:1087-0571
2472-5552
1552-454X
DOI:10.1177/1087057115590575