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Glycosylation is required for maintenance of functional voltage-activated channels in growing neocortical neurons of the rat
No full textVoltage-activated currents were studied in whole-cell patch-clamped rat neocortical neurons growing in culture and treated with tunicamycin (TU), an inhibitor of protein N-glycosylation. The size of the Na+ current decreased progressively in the presence of TU (1-2 microM). This decrease was faster in growing 5-14 day-old neurons (to ca. 40% of control after 24 hours of treatment) than in fully grown 20-40-day-old neurons (to ca. 40% of control after 68 hours of treatment). The fast transient K+ current (A-current) was abolished, and the delayed rectifier K+ current was markedly reduced by a 24 hour treatment with TU (1-2 microM) in growing neurons. In contrast, in fully grown neurons these currents were unaffected by the same TU treatment. The size of the Ca2+ current was significantly reduced following a 24 hour treatment with TU (1-2 microM) in neurons at early stages of differentiation, but remained stable in 20-40-day-old neurons. It is concluded that protein glycosylation, presumably of the channel proteins themselves, is important for the functional expression of voltage-activated channels in embryonic cortical neurons during the early stages of cell growth in culture; the channels become less dependent on glycosylation in mature neurons
Strychnine activates neuronal a7 nicotinic receptors after mutations in the leucine ring and transmitter binding site domains
No full textRecent work has shown that strychnine, the potent and selective antagonist of glycine receptors, is also an antagonist of nicotinic acetylcholine (AcCho) receptors including neuronal homomeric alpha 7 receptors, and that mutating Leu-247 of the alpha 7 nicotinic AcCho receptor-channel domain (L247T alpha 7; mut1) converts some nicotinic antagonists into agonists. Therefore, a study was made of the effects of strychnine on Xenopus oocytes expressing the chick wild-type alpha 7 or L247T alpha 7 receptors, In these oocytes, strychnine itself did not elicit appreciable membrane currents but reduced the currents elicited by AcCho in a reversible and dose-dependent manner. In sharp contrast, in oocytes expressing L247T alpha 7 receptors with additional mutations at Cys-189 and Cys-190, in the extracellular N-terminal domain (L247T/C189-190S alpha 7; mut2), micromolar concentrations of strychnine elicited inward currents that were reversibly inhibited by the nicotinic receptor blocker a-bungarotoxin, Single-channel recordings showed that strychnine gated mut2-channels with two conductance levels, 56 pS and 42 pS, and with kinetic properties similar to AcCho-activated channels. We conclude that strychnine is a modulator, as well as an activator, of some homomeric nicotinic alpha 7 receptors, After injecting oocytes with mixtures of cDNAs encoding mut1 and mut2 subunits, the expressed hybrid receptors were activated by strychnine, similar to the mut2, and had a high affinity to AcCho like the mut1, A pentameric symmetrical model yields the striking conclusion that two identical alpha 7 subunits may be sufficient to determine the functional properties of alpha 7 receptors
Tunicamycin Increases Desensitization of Acetylcholine Receptors in cultured Muscle Cells
No full textThe single-channel properties of human acetylcholine alpha 7 receptors are altered by fusing alpha 7 to the green fluorescent protein
No full textNeuronal nicotinic acetylcholine (AcCho) receptors composed of alpha7-subunits (alpha7-AcChoRs) are involved in many physiological activities. Nevertheless, very little is known about their single-channel characteristics. By using outside-out patch-clamp recordings from Xenopus oocytes expressing wild-type (wt) alpha7-AcChoRs, we identified two classes of channel conductance: a low conductance (gamma(L)) of 72 pS and a high one (gamma(H)) of 87 pS, with mean open-times (tau(op)) of 0.6 ms. The same classes of conductances, but longer tau(op) (3 ms), were seen in experiments with chimeric alpha7 receptors in which the wtalpha7 extracellular C terminus was fused to the green fluorescent protein (wtalpha7-GFP AcChoRs). In contrast, channels with three different conductances were gated by AcCho in oocytes expressing alpha7 receptors carrying a Leu-to-Thr 248 mutation (mutalpha7) or oocytes expressing chimeric mutalpha7-GFP receptors. These conductance levels were significantly smaller, and their mean open-times were larger, than those of wtalpha7-AcChoRs. Interestingly, in the absence of AcCho, these oocytes showed single-channel openings of the same conductances, but shorter tau(op), than those activated by AcCho. Accordingly, human homomeric wtalpha7 receptors open channels of high conductance and brief lifetime, and fusion to GFP lengthens their lifetime. In contrast, mutalpha7 receptors open channels of lower conductance and longer lifetime than those gated by wtalpha7-AcChoRs, and these parameters are not greatly altered by fusing the mutalpha7 to GFP. All this evidence shows that GFP-tagging can alter importantly receptor kinetics, a fact that has to be taken into account whenever tagged proteins are used to study their function
Threonine-for-leucine mutation within domain M2 of the neuronal a7 nicotinic receptor converts 5-hydroxytryptamine from antagonist to agonist
No full textA study was made of the effects of 5-hydroxy-tryptamine (5HT) on homomeric neuronal nicotinic receptors (nAcChoR) expressed in Xenopus oocytes after injection of cDNA encoding the wild-type chicken alpha(7) subunit. Acetylcholine (AcCho) elicited large currents (I-AcCho) that were reduced by 5HT in a reversible and dose-dependent manner, with a half-inhibitory concentration (IC50) of 56 mu M and a Hill coefficient (n(H)) of 1.2. The inhibition of I-AcCho by 5HT was noncompetitive and voltage independent, a behavior incompatible with a channel blockade mechanism, 5HT alone did not elicit membrane currents in oocytes injected with the wild-type alpha(7) subunit cDNA, In contrast, 5HT elicited membrane currents (I-5HT) in oocytes injected with cDNA encoding an cv mutant subunit with a threonine-for-leucine-247 substitution (L247T alpha(7)), I-5HT was inhibited by the potent nicotinic receptor blockers alpha-bungarotoxin (100 nM) and methyllycaconitine (1 mu M). Furthermore, the characteristics of I-5HT, including its voltage dependence, were similar to those of I-AcCho. The 5HT dose-I-5HT response gave an apparent dissociation constant EC(50) of 23.5 mu M and a Hill coefficient n(H) of 1.7, which were not modified by the presence of AcCho, Similarly, the apparent affinity of L247T alpha(7) for AcCho as well as its cooperativity were not influenced by 5HT, indicating a lack of mutual interactions between 5HT and AcCho. These results show that 5HT is a potent noncompetitive antagonist of neuronal alpha(7) nAcChoR, but it becomes a noncompetitive agonist following mutation of the highly conserved leucine residue 247 located in the channel domain M2
Tunicamycin increases desensitization of acetylcholine receptors in cultured mouse muscle cells.
No full textWhole-cell currents activated by acetylcholine (AcCho) were recorded in C2 mouse myotubes before and after prolonged treatment with tunicamycin, an inhibitor of glycosylation. In control cells the AcCho-induced currents decayed slowly even in the continuous presence of AcCho. After 24 hr of treatment with tunicamycin AcCho still elicited currents, but their size was significantly reduced and their decay was greatly accelerated. The binding of 125I-labeled alpha-bungarotoxin, a specific and irreversible antagonist of muscle AcCho receptors, was greatly reduced after tunicamycin treatment, and an equivalent reduction was observed after a long-lasting application of the AcCho agonist carbachol. We suggest that, after inhibition of glycosylation by tunicamycin, AcCho receptors are expressed correctly on the plasma membrane but these receptors desensitize more rapidly and are less efficient in binding alpha-bungarotoxin
Neuronal nicotinic threonine-for-leucine 247 alpha7 mutant receptors show different gating kinetics
No full textMutation of the highly conserved leucine residue (Leu-247) converts 5-hydroxytryptamine (5HT) from an antagonist into an agonist of neuronal homomeric alpha7 nicotinic acetylcholine receptor expressed in Xenopus oocytes. We show here that acetylcholine (AcCho) activates two classes of single channels with conductances of 44 pS and 58 pS, similar to those activated by 5HT. However, the mean open time of AcCho-gated ion channels (11 ms) is briefer than that of 5HT-gated ion channels (18 ms). Furthermore, whereas the open time of AcCho channels lengthens with hyperpolarization, that of 5HT channels is decreased. In voltage-clamped oocytes, the apparent affinity of the alpha7 mutant receptor for 5HT is not modified by the presence of dihydro-beta-erythroidine, which acts on the AcCho binding site in a competitive manner. This indicates a noncompetitive action of 5HT on nicotinic acetylcholine receptors. Considered together, our findings show that AcCho gates alpha7 mutant channels with similar conductance but with different kinetic profile than the channels gated by 5HT, suggesting that the two agonists act on different docking sites. These results will help to understand the crosstalk between cholinergic and serotonergic systems in the central nervous system
Effects of Zn2+ on wild and mutant neuronal alpha7 nicotinic receptors
No full textZn2+ is a key structural/functional component of many proteins and is present at high concentrations in the brain and retina, where it modulates ligand-gated receptors. Therefore, a study was made of the effects of zinc on homomeric neuronal nicotinic receptors expressed in Xenopus oocytes after injection of cDNAs encoding the chicken wild or mutant alpha7 subunits. In oocytes expressing wild-type receptors, Zn2+ alone did not elicit appreciable membrane currents. Acetylcholine (AcCho) elicited large currents (IAcCho) that were reduced by Zn2+ in a reversible and dose-dependent manner, with an IC50 of 27 microM and a Hill coefficient of 0.4. The inhibition of IAcCho by Zn2+ was competitive and voltage-independent, a behavior incompatible with a channel blockade mechanism. In sharp contrast, in oocytes expressing a receptor mutant, with a threonine-for-leucine 247 substitution (L247Talpha7), subnanomolar concentrations of Zn2+ elicited membrane currents (IZn) that were reversibly inhibited by the nicotinic receptor blockers methyllycaconitine and alpha-bungarotoxin. Cell-attached single-channel recordings showed that Zn2+ opened channels that had a mean open time of 5 ms and a conductance of 48 pS. At millimolar concentrations Zn2+ reduced IAcCho and the block became stronger with cell hyperpolarization. Thus, Zn2+ is a reversible blocker of wild-type alpha7 receptors, but becomes an agonist, as well as an antagonist, following mutation of the highly conserved leucine residue 247 located in the M2 channel domain. We conclude that Zn2+ is a modulator as well as an activator of homomeric nicotinic alpha7 receptors
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