Margalit Eshel scite author profile

Mutations in ric-3 (resistant to inhibitors of cholinesterase) suppress the neuronal degenerations caused by a gain of function mutation in the Caenorhabditis elegans DEG-3 acetylcholine receptor. RIC-3 is a novel protein with two transmembrane domains and extensive coiled-coil domains. It is expressed in both muscles and neurons, and the protein is concentrated within the cell bodies. We demonstrate that RIC-3 is required for the function of at least four nicotinic acetylcholine receptors. However, GABA and glutamate receptors expressed in the same cells are unaffected. In ric-3 mutants, the DEG-3 receptor accumulates in the cell body instead of in the cell processes. Moreover, co-expression of ric-3 in Xenopus laevis oocytes enhances the activity of the C.elegans DEG-3/DES-2 and of the rat a-7 acetylcholine receptors. Together, these data suggest that RIC-3 is speci®cally required for the maturation of acetylcholine receptors.

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Conservation within the RIC-3 Gene Family

Halevi¹,

Yassin²,

Eshel³

et al. 2003

Journal of Biological Chemistry

166

114

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and the §Instituto de Neurociencias, Alicante, Spain In Caenorhabditis elegans, the ric-3 gene is required for the maturation of multiple nicotinic acetylcholine receptors (nAChRs), whereas other neurotransmittergated channels expressed within the same cells are unaffected by the presence of RIC-3. Here we show that RIC-3 is a member of a conserved gene family with representatives in both vertebrates and invertebrates. All members of this family have two transmembrane domains followed by a coiled-coil domain. Expression of the human ric-3 homolog, hric3, like the C. elegans ric-3, enhances C. elegans DEG-3/DES-2, rat ␣7, and human ␣7 nAChR-dependent whole-cell current amplitudes in Xenopus leavis oocytes, thus demonstrating functional conservation. However, hric3 also reduces human ␣4␤2 and ␣3␤4 nAChR-dependent whole-cell current amplitudes. Thus, hric3 shows differential effects on human nAChRs unlike the observed uniform effect of ric-3 on C. elegans nAChRs. Moreover, hric3 totally abolished currents evoked by 5-HT 3 serotonin receptors, whereas it barely modified ␣1 glycine receptor currents. With this caveat, RIC-3 belongs to a conserved family of genes likely to regulate nAChR-mediated transmission throughout evolution. Analysis of transcripts encoded by the hric3 locus shows that it encodes for multiple transcripts, likely to produce multiple hric3 isoforms, and that hric3 is expressed in neurons and muscles, thus enabling its interactions with nAChRs in vivo.Nicotinic acetylcholine receptors are widely expressed ligand-gated ion channels that mediate fast synaptic excitation and have additional roles including modulation of synaptic release (1). The nAChRs 1 are homomers or heteromers composed of five subunits. Each subunit traverses the membrane four times and is posttranslationally modified by both disulfide bond formation and glycosylation. Maturation of nAChRs, leading to production of fully assembled and functional receptors on the plasma membrane, is a complex, time-consuming, and poorly characterized process (2-4). Recently, we identified a Caenorhabditis elegans gene, ric-3, likely to be an important player in the maturation of nAChRs. In C. elegans, RIC-3 is required for cholinergic transmission mediated by nAChRs in neurons and in muscles but not for synaptic transmission mediated by other ligand-gated ion channels, even when these are expressed within the same cells as the nAChRs. RIC-3 activity is required within the cells that express the nAChRs and is likely to affect the processes of receptor folding or assembly within the endoplasmic reticulum (5).RIC-3 is a protein with two transmembrane domains followed by coiled-coil domains. When first identified, this protein showed no similarity to any characterized protein. Only one homolog was identified, the Drosophila CG9349 gene that is similar in both sequence and overall predicted structure. However, the demonstrated ability of RIC-3 to enhance whole-cell current amplitudes resulting from expression of both the C. elegans DEG-3/DES-2 and th...

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Characterization of the DEG-3/DES-2 Receptor: A Nicotinic Acetylcholine Receptor That Mutates to Cause Neuronal Degeneration

Yassin

Gillo

Kahan

et al. 2001

Molecular and Cellular Neuroscience

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RIC-3 Affects Properties and Quantity of Nicotinic Acetylcholine Receptors via a Mechanism That Does Not Require the Coiled-coil Domains

Ben-Ami¹,

Yassin²,

Farah³

et al. 2005

Journal of Biological Chemistry

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Members of the RIC-3 gene family are effectors of nicotinic acetylcholine receptor (nAChR) expression in vertebrates and invertebrates. In Caenorhabditis elegans RIC-3 is needed for functional expression of multiple nAChRs, including the DEG-3/DES-2 nAChR. Effects of RIC-3 on DEG-3/DES-2 functional expression are found in vivo and following heterologous expression in Xenopus leavis oocytes. We now show that in X. leavis oocytes RIC-3 also affects the kinetics and agonist affinity properties of the DEG-3/DES-2 receptor. Because these effects are mimicked by increasing the ratio of DEG-3 subunits within DEG-3/DES-2 receptors, this suggests that RIC-3 may preferentially promote maturation of DEG-3-rich receptors. Indeed, effects of RIC-3 on functional expression of DEG-3/DES-2 positively correlate with the DEG-3 to DES-2 ratio. All RIC-3 family members have two transmembrane domains followed by one or two coiled-coil domains. Here we show that the effects of RIC-3 on functional expression and on receptor properties are mediated by the transmembrane domains and do not require the coiled-coil domains. In agreement with this, mammals express a RIC-3 transcript lacking the coiled-coil domain that is capable of promoting DEG-3/DES-2 functional expression. Last, we show that RIC-3 affects DEG-3 quantity, suggesting stabilization of receptors or receptor intermediates by RIC-3. Together our results suggest that subunit-specific interactions of RIC-3 with nAChR subunits, mediated by the transmembrane domains, are sufficient for the effects of RIC-3 on nAChR quantity and quality.

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Mutations in the Extracellular Domain and in the Membrane-Spanning Domains Interfere with Nicotinic Acetylcholine Receptor Maturation

Yassin¹,

Samson

Halevi

et al. 2002

Biochemistry

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The deg-3(u662) mutation is a degeneration-causing mutation in a Caenorhabditis elegans nicotinic acetylcholine receptor. In a large screen for mutations that suppress the deleterious effects of this mutation we identified 32 mutations in the deg-3 gene. Among these, 11 are missense mutations, affecting seven residues within the extracellular domain or the membrane-spanning domains. All of these mutations greatly reduce the degeneration-causing activity of deg-3(u662). All but one of these mutations cause defective localization of the DEG-3 protein, as seen in immunohistochemical analysis. Thus our screen identifies multiple residues within the nicotinic acetylcholine receptor needed for normal folding, assembly, or trafficking of this receptor. Interestingly, these mutations lead to distinct localization defects suggesting differences in their effect on DEG-3's maturation process. Specifically, mutations in the extracellular domain lead to a phenotype more severe than mutations in the membrane-spanning domains. Differences in the effects of the mutations are also predicted by homology-based modeling, showing that some mutations in the extracellular domain are likely to disrupt the native fold of the protein, while others are likely to disrupt trafficking.

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Margalit Eshel

The C.elegansric-3 gene is required for maturation of nicotinic acetylcholine receptors

Conservation within the RIC-3 Gene Family

Characterization of the DEG-3/DES-2 Receptor: A Nicotinic Acetylcholine Receptor That Mutates to Cause Neuronal Degeneration

RIC-3 Affects Properties and Quantity of Nicotinic Acetylcholine Receptors via a Mechanism That Does Not Require the Coiled-coil Domains

Mutations in the Extracellular Domain and in the Membrane-Spanning Domains Interfere with Nicotinic Acetylcholine Receptor Maturation

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