The MA Helix Is Important for Receptor Assembly and Function in the α4β2 nACh Receptor.

Pentameric ligand-gated ion channels (pLGICs) are expressed throughout the central and peripheral nervous systems of vertebrates and modulate many aspects of human health and disease. Recent structural and computational data indicate that cation-selective pLGICs contain a long helical extension (MA) of one of the transmembrane helices. The MA helix has been shown to affect both the membrane expression of, and ion conductance levels through, these pLGICs.

Residues in the 1st Transmembrane-Spanning Helix Are Important for GABA Receptor Function.

GABA receptors are a subfamily of the GABA receptor family of pentameric ligand-gated ion channels (pLGICs). Each subunit has a common structure, including a transmembrane domain of four α-helices (M1-M4). The aim of this study was to identify important M1 residues in the GABA receptor (GABAR), using mutagenesis and functional assays combined with bioinformatic approaches.

5-HT Receptor MX Helix Contributes to Receptor Function.

5-HT receptors are members of the family of pentameric ligand-gated ion channels. Each subunit has an extracellular, transmembrane, and intracellular domain. Only part of the intracellular domain structure has been solved, revealing it contains two α-helical segments; one, the MA helix, is an extension of M4, while the other, the MX helix, is formed from residues located close to the end of M3.

Mutations of the nACh Receptor M4 Helix Reveal Different Phenotypes in Different Expression Systems: Could Lipids be Responsible?

The role of the outermost helix (M4) in the pentameric ligand-gated ion channel (pLGIC) family is currently not fully understood. It is known that M4 is important for receptor assembly, possibly via interactions with neighboring M1 and M3 helices. M4 can also transmit information on the lipid content of the membrane to the gating mechanism, and it may form a link to the extracellular domain via the Cys-loop.

A Single Mutation in the Outer Lipid-Facing Helix of a Pentameric Ligand-Gated Ion Channel Affects Channel Function Through a Radially-Propagating Mechanism.

Pentameric ligand-gated ion channels (pLGICs) mediate fast synaptic transmission and are crucial drug targets. Their gating mechanism is triggered by ligand binding in the extracellular domain that culminates in the opening of a hydrophobic gate in the transmembrane domain. This domain is made of four α-helices (M1 to M4).

M4, the Outermost Helix, is Extensively Involved in Opening of the α4β2 nACh Receptor.

Nicotinic acetylcholine receptors (nAChR) are the archetypal members of the pentameric ligand-gated ion channel (pLGIC) family, an important class of cell signaling proteins. In all members of this family, each of the five subunits has four transmembrane α-helices (M1-M4), with M2 lining the pore, then M1 and M3, and with M4 outermost and adjacent to the membrane lipids. Despite its remote location, M4 contributes both to receptor assembly and gating in pLGICs where it has been examined.

Many Proline Residues in the Extracellular Domain Contribute to Glycine Receptor Function.

Prolines in signaling proteins are of particular interest because they have a range of unique properties that may be critical for function. Here we show that many proline residues in the extracellular domain (ECD) of the glycine receptor are involved in the correct functioning of this ligand-gated ion channel. We explore their role by creating mutant receptors, expressing them in cells, and using fluorescent membrane potential sensitive dye to monitor receptor activity.

The M4 Helix Is Involved in α7 nACh Receptor Function.

Nicotinic acetylcholine receptors (nAChR) are the archetypal members of the pentameric ligand-gated ion channel (pLGIC) family, an important class of cell signaling proteins. In all members of this family, each of the five subunits has four transmembrane α-helices (M1-M4) with M2 lining the pore and then M1 and M3, with M4 outermost and adjacent to the membrane lipids. M4 has a variety of roles: its interaction with neighboring M1 and M3 helices is important for receptor assembly, it can a transmit information on the lipid content of the membrane to the gating mechanism, and it may form a vital link to the extracellular domain via the Cys-loop.

Characterization of Residues in the 5-HT Receptor M4 Region That Contribute to Function.

5-HT receptors are members of the family of pentameric ligand gated ion channels (pLGICs). Each subunit has four transmembrane α-helices (M1-M4), with M4 being most distant from the central pore. Residues in this α-helix interact with adjacent lipids and the neighboring M1 and M3 helices, contributing to both receptor assembly and channel function.