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O Ala and Arg on the cellsurface expression of a2A-AR. These data also suggest that Lys65 in the ICL1 modulates not only receptor trafficking but also receptor signaling.to the results obtained in HEK293 cells, the a2A-AR mutants L64A, K65A and LK-AA displayed a strong intracellular distribution pattern in HeLa cells (Fig. 2). These data suggest that both Leu64 and Lys65 are able to regulate a2A-AR cell-surface expression in NT 157 site different cell types.Effect of Mutation of Lys65 to Arg, Glu and Gln on the Cell-surface Expression and Subcellular Distribution of a2A-AROur preceding data have revealed that Lys65 plays an important role in modulating a2A-AR cell-surface 12926553 expression. To define the possible underlying molecular mechanisms, we first determined the role of its positively charged property. Lys65 was mutated to the same charged Arg residue, opposite charged Glu residue and non-charged Gln residue and the effects of these mutations on a2A-AR expression at the cell surface were defined by intact cell ligand binding and subcellular distribution analysis. Similar to its Ala mutation, mutation of Lys65 to Glu and Gln inhibited a2A-AR expression at the cell surface by 67 and 36 , respectively, as measured by intact cell ligand binding (Fig. 3A). More interestingly, mutation of Lys65 to Arg significantly augmented the cell-surface expression of a2A-AR by 42 (Fig. 3A). Similar results were obtained by flow cytometry toLys65 Likely Modulates a2A-AR Transport at the ERTo define the intracellular compartment where the residue Lys65 influences a2A-AR transport, MedChemExpress CI 1011 GFP-tagged a2A-AR and its mutants K65A and K65R were co-localized with different intracellular markers. The mutant K65A was extensively colocalized with the ER marker DsRed2-ER (Fig. 5A), but not the Golgi marker GM130 (data not shown). In contrast, wild-type a2AAR and its mutant K65R did not clearly co-localize with DeRed2-Figure 2. Effects of mutating Leu64 and Lys65 residues on the subcellular distribution of a2A-AR. GFP-tagged wild-type (WT) a2A-AR and its mutants L64A, K65A and LK-AA were transiently expressed in HEK293 (upper panel) and HeLa cells (lower panel) and their subcellular distribution of the receptors was revealed by detecting GFP fluorescence by confocal microscopy. The data shown are representative images of at least three independent experiments. Green, GFP-tagged receptors; blue, DNA staining by DAPI (nuclei). Scale bar, 10 mm. doi:10.1371/journal.pone.0050416.ga2-AR Export and Cell-Surface ExpressionFigure 3. Effects of mutating Lys65 to Arg, Glu and Gln on the cell-surface expression and subcellular distribution of a2A-AR. (A) Quantification of the cell surface and total expression of a2A-AR and its Lys mutants. HEK293 cells were transfected with a2A-AR and its mutants. The cell-surface expression of the receptors was measured by intact cell binding assays using [3H]-RX821002 and total receptor expression by flow cytometry measuring the GFP signal as described in the legends of figure 1. (B) Quantification of the cell-surface expression of a2A-AR and its mutants by flow cytometry following staining with anti-HA antibodies in nonpermeabilized cells as described in the legends of figure 1. The data shown in (A) and (B) are percentages of the mean value obtained from cells transfected with wild-type (WT) a2A-AR and are presented as the mean 6 S.E. of four experiments. *, p,0.05 versus WT a2A-AR. (C) Effect of mutation of Lys65 on the subcellular distribution of a2A-AR. a.O Ala and Arg on the cellsurface expression of a2A-AR. These data also suggest that Lys65 in the ICL1 modulates not only receptor trafficking but also receptor signaling.to the results obtained in HEK293 cells, the a2A-AR mutants L64A, K65A and LK-AA displayed a strong intracellular distribution pattern in HeLa cells (Fig. 2). These data suggest that both Leu64 and Lys65 are able to regulate a2A-AR cell-surface expression in different cell types.Effect of Mutation of Lys65 to Arg, Glu and Gln on the Cell-surface Expression and Subcellular Distribution of a2A-AROur preceding data have revealed that Lys65 plays an important role in modulating a2A-AR cell-surface 12926553 expression. To define the possible underlying molecular mechanisms, we first determined the role of its positively charged property. Lys65 was mutated to the same charged Arg residue, opposite charged Glu residue and non-charged Gln residue and the effects of these mutations on a2A-AR expression at the cell surface were defined by intact cell ligand binding and subcellular distribution analysis. Similar to its Ala mutation, mutation of Lys65 to Glu and Gln inhibited a2A-AR expression at the cell surface by 67 and 36 , respectively, as measured by intact cell ligand binding (Fig. 3A). More interestingly, mutation of Lys65 to Arg significantly augmented the cell-surface expression of a2A-AR by 42 (Fig. 3A). Similar results were obtained by flow cytometry toLys65 Likely Modulates a2A-AR Transport at the ERTo define the intracellular compartment where the residue Lys65 influences a2A-AR transport, GFP-tagged a2A-AR and its mutants K65A and K65R were co-localized with different intracellular markers. The mutant K65A was extensively colocalized with the ER marker DsRed2-ER (Fig. 5A), but not the Golgi marker GM130 (data not shown). In contrast, wild-type a2AAR and its mutant K65R did not clearly co-localize with DeRed2-Figure 2. Effects of mutating Leu64 and Lys65 residues on the subcellular distribution of a2A-AR. GFP-tagged wild-type (WT) a2A-AR and its mutants L64A, K65A and LK-AA were transiently expressed in HEK293 (upper panel) and HeLa cells (lower panel) and their subcellular distribution of the receptors was revealed by detecting GFP fluorescence by confocal microscopy. The data shown are representative images of at least three independent experiments. Green, GFP-tagged receptors; blue, DNA staining by DAPI (nuclei). Scale bar, 10 mm. doi:10.1371/journal.pone.0050416.ga2-AR Export and Cell-Surface ExpressionFigure 3. Effects of mutating Lys65 to Arg, Glu and Gln on the cell-surface expression and subcellular distribution of a2A-AR. (A) Quantification of the cell surface and total expression of a2A-AR and its Lys mutants. HEK293 cells were transfected with a2A-AR and its mutants. The cell-surface expression of the receptors was measured by intact cell binding assays using [3H]-RX821002 and total receptor expression by flow cytometry measuring the GFP signal as described in the legends of figure 1. (B) Quantification of the cell-surface expression of a2A-AR and its mutants by flow cytometry following staining with anti-HA antibodies in nonpermeabilized cells as described in the legends of figure 1. The data shown in (A) and (B) are percentages of the mean value obtained from cells transfected with wild-type (WT) a2A-AR and are presented as the mean 6 S.E. of four experiments. *, p,0.05 versus WT a2A-AR. (C) Effect of mutation of Lys65 on the subcellular distribution of a2A-AR. a.

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