Abstract
RIC-3 has been identified as a chaperone molecule involved in promoting the functional expression of nicotinic acetylcholine and 5-HT(3) receptors in mammalian cells. In this study, we examined the effects of RIC-3a (isoform a) and a truncated isoform (isoform d) on RIC-3 localization, mobility, and aggregation and its effect on 5-HT3 receptor composition in mammalian cells. Human RIC-3a possesses an amino-terminal signal sequence that targets it to the endoplasmic reticulum where it is distributed within the reticular network, often forming large diffuse "slicks" and bright "halo" structures. RIC-3a is highly mobile within and between these compartments. Despite the propensity for RIC-3a to aggregate, its expression enhances the level of surface 5-HT3A (homomeric) receptors. In contrast, RIC-3a exerts an inhibitory action on the surface expression of heteromeric 5-HT3A/B receptors. RIC-3d exhibits an altered subcellular distribution, being localized to the endoplasmic reticulum, large diffuse slicks, tubulo-vesicular structures, and the Golgi. Bidirectional trafficking between the endoplasmic reticulum and Golgi suggests that RIC-3d constitutively cycles between these two compartments. In support of the large coiled-coil domain of RIC-3a being responsible for protein aggregation, RIC-3d, lacking this cytoplasmic domain, does not aggregate or induce the formation of bright aggregates. Regardless of these differences, isoform d is still capable of enhancing homomeric, and inhibiting heteromeric, 5-HT3 receptor expression. Thus, both isoforms of RIC-3 play a role in determining 5-HT3 receptor composition.
Highlights
In this study we have investigated the role of RIC-3 isoforms [7] on 5-HT3A and 5-HT3A/B receptor expression in mammalian cells
It is possible that C. elegans and the mammalian form of RIC-3 are distinct at their amino terminus and may differ with respect to the existence of a cleavable signal sequence or a transmembrane domain
To determine experimentally whether the predicted signal sequence region is capable of directing protein import into the endoplasmic reticulum (ER) and undergoing cleavage, we generated a chimera incorporating the first 33 amino acids of RIC-3 followed by the sequence of DsRed monomer in which the initial methionine had been removed (RIC3-SS-DsRed)
Summary
D-aspartic acid, kainate, and AMPA (glutamate receptors). A vast array of receptor-interacting proteins have been identified as participating in receptor trafficking and localization [1] and have led to dramatic advances in our knowledge of synaptic architecture and plasticity. In this study we have investigated the role of RIC-3 isoforms (a and d) [7] on 5-HT3A and 5-HT3A/B receptor expression in mammalian cells. Similar structures are evident upon the expression of untagged RIC-3a (not shown), eliminating the possibility that protein aggregation is being induced by YFP or DsRed dimerization.
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