Abstract
Intracellular recordings were performed in voltage-clamped Xenopus oocytes upon injection with a mixture of cDNAs encoding the beta3 and mutant alpha7 (L247Talpha7) neuronal nicotinic acetylcholine receptor (nAChR) subunits. The expressed receptors maintained sensitivity to methyllycaconitine and to alpha-bungarotoxin but exhibited a functional profile strikingly different from that of the homomeric L247Talpha7 receptor. The heteromeric L247Talpha7beta3 nAChR had a lower apparent affinity and a faster rate of desensitization than L247Talpha7 nAChR, exhibited nonlinearity in the I-V relationship, and was inhibited by 5-hydroxytryptamine, much like wild type alpha7 (WTalpha7) nAChR. Single channel recordings in cell-attached mode revealed unitary events with a slope conductance of 19 picosiemens and a lifetime of 5 ms, both values being much smaller than those of the homomeric receptor channel. Upon injection with a mixture of WTalpha7 and beta3 cDNAs, clear evidence was obtained for the plasma membrane assembly of heteromeric nAChRs, although ACh could not activate these receptors. It is concluded that beta3, long believed to be an orphan subunit, readily co-assembles with other subunits to form heteromeric receptors, some of which may be negative regulators of cholinergic function.
Highlights
The 11 neuronal nicotinic acetylcholine receptor1 subunits cloned to date fall into two classes depending on whether an ␣/ pair is required for assembly or whether they can assemble into functional homomeric receptors
We show that 3 coassembles with wild type ␣7 (WT␣7), but that the resulting heteromeric nicotinic acetylcholine receptor (nAChR) is insensitive to ACh
Properties of the Homomeric L247T␣7 nAChR—Oocytes injected with the L247T␣7 subunit cDNA responded to ACh with an inward current whose peak amplitude depended on transmitter concentration
Summary
The 11 neuronal nicotinic acetylcholine receptor (nAChR)1 subunits cloned to date fall into two classes depending on whether an ␣/ pair is required for assembly (obligatory heteromers) or whether they can assemble into functional homomeric receptors.
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