Michael T. Piascik scite author profile

alpha2-Adrenergic receptors (alpha2ARs) present in the brainstem decrease blood pressure and are targets for clinically effective antihypertensive drugs. The existence of three alpha2AR subtypes, the lack of subtype-specific ligands, and the cross-reactivity of alpha2AR agonists with imidazoline receptors has precluded an understanding of the role of individual alpha2AR subtypes in the hypotensive response. Gene targeting was used to introduce a point mutation into the alpha2aAR subtype in the mouse genome. The hypotensive response to alpha2AR agonists was lost in the mutant mice, demonstrating that the alpha2aAR subtype plays a principal role in this response.

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Differences in the Cellular Localization and Agonist-Mediated Internalization Properties of the α₁-Adrenoceptor Subtypes

Chalothorn

et al. 2002

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The cellular localization, agonist-mediated internalization, and desensitization properties of the alpha(1)-adrenoceptor (alpha(1)-AR) subtypes conjugated with green fluorescent protein (alpha(1)-AR/GFP) were assessed using real-time imaging of living, transiently transfected human embryonic kidney (HEK) 293 cells. The alpha(1B)-AR/GFP fluorescence was detected predominantly on the cell surface. Stimulation of the alpha(1B)-AR with phenylephrine led to an increase in extracellular signal-regulated kinase 1/2 (ERK1/2) phosphorylation and promoted rapid alpha(1B)-AR/GFP internalization. Long-term exposure (15 h) to phenylephrine resulted in desensitization of the alpha(1B)-AR-mediated activation of ERK1/2 phosphorylation. Alpha(1A)-AR/GFP fluorescence was detected not only on the cell surface but also intracellularly. The rate of internalization of the cell surface population alpha(1A)-AR/GFPs was slower than that seen for the alpha(1B)-AR. Agonist exposure also resulted in desensitization of the alpha(1A)-AR-mediated increase in ERK1/2 phosphorylation. The alpha(1D)-AR/GFP fluorescence was detected mainly intracellularly, and this localization was unaffected by exposure to phenylephrine. Phenylephrine treatment of alpha(1D)-AR/GFP expressing cells increased ERK1/2 phosphorylation. However, this increase was not significant. Cotransfection with beta-arrestin 1 did not increase the rate or extent of agonist-stimulated alpha(1A)- or alpha(1B)-AR/GFP internalization. However, a dominant-negative form of the beta-arrestin 1, beta-arrestin 1 (319-418), blocked agonist-mediated internalization of both the alpha(1A)- and alpha(1B)-ARs. These data show that transfected alpha(1)-AR/GFP fusion proteins are functional, that there are differences in the cellular distribution and agonist-mediated internalization between the alpha(1)-ARs, and that agonist-mediated alpha(1)-AR internalization is dependent on arrestins and can be desensitized by long-term exposure to an agonist. These differences could contribute to the diversity in physiologic responses regulated by the alpha(1)-ARs.

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Regulation of the Cellular Localization and Signaling Properties of the α_1B- and α_1D-Adrenoceptors by Agonists and Inverse Agonists

et al. 2000

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The regulation of the cellular distribution and intracellular signaling properties of the alpha(1B)- and alpha(1D)- adrenoceptor (alpha(1)-AR) subtypes was examined in stably transfected Rat 1 fibroblasts. In unstimulated cells, alpha(1B)-AR expression was noted primarily on the cell surface. Treatment with phenylephrine induced internalization of the alpha(1B)-AR and promoted association with arrestin 2. The internalized alpha(1B)-AR colocalized with the transferrin receptor, an endosomal marker. In unstimulated fibroblasts, the alpha(1D)-AR was detected in a perinuclear orientation and was colocalized with arrestin 2 in a compartment also containing the transferrin receptor. After treatment with prazosin, which exhibits inverse agonist properties, the alpha(1D)-AR was redistributed from intracellular sites to the cellular periphery and was no longer associated with the transferrin receptor or arrestin 2. alpha(1D)-AR-expressing cells exhibited a high degree of basal activity for both inositol phosphate formation and extracellular signal regulated kinase (ERK), which was reduced by treatment with prazosin. In these cells, phenylephrine induced a dose-dependent increase in inositol phosphate formation but had no effect on ERK activity. In alpha(1B) -AR-expressing cells, phenylephrine stimulated both inositol phosphate formation and ERK activity. These data show that: 1) there are differences in the cellular localization of the alpha(1)-AR subtypes; 2) the alpha(1B)-AR exhibits expected G protein-coupled receptor activity regarding cellular localization, agonist-mediated internalization, and coupling to second messengers; and 3) the alpha(1D)-AR is constitutively active and, as a result, is localized to intracellular compartments involved in receptor recycling.

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