Emerging Concepts in Ion Channel Biophysics

Tuesday Speaker Abstracts

8 

The Activation of Glycine Channels: A Single-Channel Perspective

Lucia Sivilotti.

University College London, United Kingdom.

No Abstract

α7 Nicotinic Receptors at the Single-Channel Level

Cecilia Bouzat

.

Instituto de Investigaciones Bioquímicas de Bahía Blanca, Argentina.

The α7 nicotinic receptor (nAChR), which is the homomeric member of the family, is involved

in neurological, psychiatric and inflammatory disorders. Enhancement of α7 function by positive

allosteric modulators (PAMs) is a promising therapeutic strategy to improve cognitive deficits.

PAMs have been classified by their macroscopic effects as type I, which enhance agonist-

induced currents, and type II, which also decrease desensitization. To decipher the molecular

basis underlying the different activities, we explored their effects on single-channel currents. We

found that all PAMs enhance open-channel lifetime and produce episodes of successive openings

of different durations. We identified the structural determinants for the allosteric action and the

temperature sensitivity of potentiation by different PAMs. In addition to the homomeric α7,

emerging evidence demonstrates the expression in brain of a novel heteromeric α7β2 receptor

whose role and functional properties remain unknown. To establish its functional stoichiometry,

we used two different experimental approaches, concatemeric technology and the electrical

fingerprinting strategy with an α7 subunit tagged with a reporter mutation. Our results, which

include the first report of single α7β2 channels, revealed the stoichiometry of functional

heteromeric receptors, the contribution of β2 subunit to channel kinetics and ion permeability,

and the action of α7 PAMs at α7β2. This information is required for differentiating homomeric

from heteromeric receptors in native cells, for understanding their distinct roles, and opens doors

for the development of specific ligands.