Citation

  • Authors: Geneva,, II, Tan, H. Y., Calvert, P. D.
  • Year: 2016
  • Journal: Mol Biol Cell
  • Applications: in vitro / DNA / jetPRIME
  • Cell type: IMCD-3
    Description: Mouse SV-40 transformed epithelial kidney cells

Abstract

Resolution limitations of optical systems are major obstacles for determining if proteins are enriched within cell compartments. Here we employ an approach to determine the degree of membrane protein ciliary enrichment that quantitatively accounts for the differences in sampling of the ciliary and apical membranes inherent to confocal microscopes. Theory shows that cilia will appear more than threefold brighter than the surrounding apical membrane when the densities of fluorescently labeled proteins are the same, thus providing a benchmark for ciliary enrichment. Using this benchmark we examined the ciliary enrichment signals of two G protein coupled receptors (GPCRs), the somatostatin receptor 3 and rhodopsin. Remarkably we found that the c-terminal VxPx motif, required for efficient enrichment of rhodopsin within rod photoreceptor sensory cilia, inhibited enrichment of the somatostatin receptor in primary cilia. Similarly, VxPx inhibited primary cilium enrichment of a chimera of rhodopsin and somatostatin receptor 3, where the dual Ax(S/A)xQ ciliary targeting motifs within the third intracellular loop of the somatostatin receptor replaced the third intracellular loop of rhodopsin. Rhodopsin was depleted from primary cilia, but gained access, without being enriched, with the dual Ax(S/A)xQ motifs. Ciliary enrichment of these GPCRs thus operate via distinct mechanisms in different cells.

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