Hague Chris, Chen Zhongjian, Pupo Andre S, Schulte Nancy A, Toews Myron L, Minneman Kenneth P
Department of Pharmacology, Emory University Medical School, Rollins Research Building, 1510 Clifton Road, Atlanta, GA 30322, USA.
J Pharmacol Exp Ther. 2004 Apr;309(1):388-97. doi: 10.1124/jpet.103.060509. Epub 2004 Jan 12.
We previously reported that truncation of the N-terminal 79 amino acids of alpha(1D)-adrenoceptors (Delta(1-79)alpha(1D)-ARs) greatly increases binding site density. In this study, we determined whether this effect was associated with changes in alpha(1D)-AR subcellular localization. Confocal imaging of green fluorescent protein (GFP)-tagged receptors and sucrose density gradient fractionation suggested that full-length alpha(1D)-ARs were found primarily in intracellular compartments, whereas Delta(1-79)alpha(1D)-ARs were translocated to the plasma membrane. This resulted in a 3- to 4-fold increase in intrinsic activity for stimulation of inositol phosphate formation by norepinephrine. We determined whether this effect was transplantable by creating N-terminal chimeras of alpha(1)-ARs containing the body of one subtype and the N terminus of another (alpha(1A)NT-D, alpha(1B)NT-D, alpha(1D)NT-A, and alpha(1D)NT-B). When expressed in human embryonic kidney 293 cells, radioligand binding revealed that binding densities of alpha(1A)-or alpha(1B)-ARs containing the alpha(1D)-N terminus decreased by 86 to 93%, whereas substitution of alpha(1A)- or alpha(1B)-N termini increased alpha(1D)-AR binding site density by 2- to 3-fold. Confocal microscopy showed that GFP-tagged alpha(1D)NT-B-ARs were found only on the cell surface, whereas GFP-tagged alpha(1B)NT-D-ARs were completely intracellular. Radioligand binding and confocal imaging of GFP-tagged alpha(1D)- and Delta(1-79)alpha(1D)-ARs expressed in rat aortic smooth muscle cells produced similar results, suggesting these effects are generalizable to cell types that endogenously express alpha(1D)-ARs. These findings demonstrate that the N-terminal region of alpha(1D)-ARs contain a transplantable signal that is critical for regulating formation of functional bindings, through regulating cellular localization.
我们之前报道过,α(1D)-肾上腺素能受体(Delta(1-79)α(1D)-ARs)N端79个氨基酸的截短会极大地增加结合位点密度。在本研究中,我们确定了这种效应是否与α(1D)-AR亚细胞定位的变化有关。绿色荧光蛋白(GFP)标记受体的共聚焦成像和蔗糖密度梯度分级分离表明,全长α(1D)-ARs主要存在于细胞内区室,而Delta(1-79)α(1D)-ARs转位至质膜。这导致去甲肾上腺素刺激肌醇磷酸形成的内在活性增加了3至4倍。我们通过构建包含一种亚型主体和另一种亚型N端的α(1)-ARs的N端嵌合体(α(1A)NT-D、α(1B)NT-D、α(1D)NT-A和α(1D)NT-B)来确定这种效应是否可移植。当在人胚肾293细胞中表达时,放射性配体结合显示,含有α(1D)-N端的α(1A)-或α(1B)-ARs的结合密度降低了86%至93%,而α(1A)-或α(1B)-N端的替换使α(1D)-AR结合位点密度增加了2至3倍。共聚焦显微镜显示,GFP标记的α(1D)NT-B-ARs仅在细胞表面发现而GFP标记的α(1B)NT-D-ARs完全位于细胞内。在大鼠主动脉平滑肌细胞中表达的GFP标记的α(1D)-和Delta(1-79)α(1D)-ARs的放射性配体结合和共聚焦成像产生了类似的结果,表明这些效应可推广到内源性表达α(1D)-ARs的细胞类型。这些发现表明,α(1D)-ARs的N端区域包含一个可移植信号,该信号通过调节细胞定位对调节功能性结合的形成至关重要。
