Assembly of nicotinic alpha7 subunits in Xenopus oocytes is partially blocked at the tetramer level.

The assembly of nicotinic alpha1beta1gammadelta, alpha3beta4, and alpha7 receptors and 5-hydroxytryptamine 3A (5HT3A) receptors was comparatively evaluated in Xenopus oocytes by blue native PAGE analysis. While alpha1betagammadelta subunits, alpha3beta4 subunits, and 5HT3A subunits combined efficiently to pentamers, alpha7 subunits existed in various assembly states including trimers, tetramers, pentamers, and aggregates. Only alpha7 subunits that completed the assembly process to homopentamers acquired complex-type carbohydrates and appeared at the cell surface. We conclude that Xenopus oocytes have a limited capacity to guide the assembly of alpha7 subunits, but not 5HT3A subunits to homopentamers. Accordingly, ER retention of imperfectly assembled alpha7 subunits rather than inefficient routing of fully assembled alpha7 receptors to the cell surface limits surface expression levels of alpha7 nicotinic acetylcholine receptors.

Trimeric architecture of homomeric P2X2 and heteromeric P2X1+2 receptor subtypes.

Of the three major classes of ligand-gated ion channels, nicotinic receptors and ionotropic glutamate receptors are known to be organized as pentamers and tetramers, respectively. The architecture of the third class, P2X receptors, is under debate, although evidence for a trimeric assembly is accumulating. Here we provide biochemical evidence that in addition to the rapidly desensitising P2X1 and P2X3 receptors, the slowly desensitising subtypes P2X2, P2X4, and P2X5 are trimers of identical subunits. Similar (heteromeric) P2X subunits also formed trimers, as shown for co-expressed P2X1 and P2X2 subunits, which assembled efficiently to a P2X1+2 receptor that was exported to the plasma membrane. In contrast, P2X6 subunits, which are incapable of forming functional homomeric channels in Xenopus oocytes, were retained in the ER as apparent tetramers and high molecular mass aggregates. Altogether, we conclude from these data that a trimeric architecture is the structural hallmark of functional homomeric and heteromeric P2X receptors.

A basic cluster determines topology of the cytoplasmic M3-M4 loop of the glycine receptor alpha1 subunit.

The inhibitory glycine receptor is a member of the ligand-gated ion channel superfamily of neurotransmitter receptors, which are composed of homologous subunits with four transmembrane segments (M1-M4), each. Here, we demonstrate that the correct topology of the glycine receptor alpha1 subunit depends critically on six positively charged residues within a basic cluster, RFRRKRR, located in the large cytoplasmic loop (designated M3-M4 loop) following the C-terminal end of M3. Neutralization of one or more charges of this cluster, but not of other charged residues in the M3-M4 loop, led to an aberrant translocation into the endoplasmic reticulum lumen of the M3-M4 loop. However, when two of the three basic charges located in the ectodomain linking M2 and M3 were neutralized, in addition to two charges of the basic cluster, endoplasmic reticulum disposition of the M3-M4 loop was prevented. We conclude that a high density of basic residues C-terminal to M3 is required to compensate for the presence of positively charged residues in the M2-M3 ectodomain, which otherwise impair correct membrane integration of the M3 segment.

Glu496Ala polymorphism of human P2X7 receptor does not affect its electrophysiological phenotype.

A glutamate to alanine exchange at amino acid position 496 of the human P2X(7) receptor was recently shown to be associated with a loss of function in human B lymphocytes in terms of ATP-induced ethidium(+) uptake, Ba(2+) influx, and induction of apoptosis (Gu BJ, Zhang WY, Worthington RA, Sluyter R, Dao-Ung P, Petrou S, Barden JA, and Wiley JS. J Biol Chem 276: 11135-11142, 2001). Here we analyzed the effect of the Glu(496) to Ala exchange on the channel properties of the human P2X(7) receptor expressed in Xenopus oocytes with the two-microelectrode voltage-clamp technique. The amplitudes of ATP-induced whole cell currents characteristic of functional expression, kinetic properties including ATP concentration dependence, and permeation behavior were not altered by this amino acid exchange. Also in HEK293 cells, the Ala(496) mutant mediated typical P2X(7) receptor-dependent currents like the parent Glu(496) hP2X(7) receptor. Because the function of the P2X(7) receptor as an ATP-gated channel for small cations including Ba(2+) remained unaffected by this mutation, we conclude that Glu(496) plays a critical role in pore formation but does not determine the ion channel properties of the human P2X(7) receptor.