FEBS Lett 1993 Jun 14;3242:185-90.

A negative charge in the M2 transmembrane segment of the neuronal alpha 7 acetylcholine receptor increases permeability to divalent cations.

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Threonine-244 (T244) in the putative channel-forming M2 segment of the neuronal alpha 7 acetylcholine receptor (AChR), a residue proposed to form part of the selectivity filter, was mutated to aspartic acid to examine the influence of a negative charge on AChR ion permeation properties. Wild type (AChR alpha 7wt) and mutant (AChR alpha 7D244) acetylcholine receptors expressed in Xenopus oocytes give rise to acetylcholine (ACh)-activated, alpha-bungarotoxin-sensitive, cation-selective ionic currents. AChR alpha 7D244 exhibited larger currents than AChR alpha 7wt that, in addition, activated at lower ACh concentrations. The relative ionic permeability (Px/PNa) of AChR alpha 7wt to K+ was PK/PNa = 1.2, and to Ba2+, P'Ba/PNa = 1.4. In contrast, AChR alpha 7D244 was less selective in discriminating between K+ and Na+, PK/PNa = 0.95, but exhibited a remarkable increase in permeability to Ba2+, P'Ba/PNa = 3.7. Furthermore, only mutant receptors were permeable to Mg2+. Hence, a ring of negatively charged residues in the putative pore-forming segment of the receptor increases the permeability to divalent cations. Our results substantiate the notion that T244, or its equivalent, in the M2 transmembrane segment of cholinergic receptor channels is a key structural determinant of the selectivity filter.

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