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Abstract
In allergic asthma Beta 2 adrenergic receptors (β2ARs) are important mediators of bronchorelaxation and, paradoxically, asthma development. This contradiction is likely due to the activation of dual signaling pathways that are downstream of G proteins or β-arrestins. Our group has recently shown that β-arrestin-2 acts in its classical role to desensitize and constrain β2AR-induced relaxation of both human and murine airway smooth muscle. To assess the role of β-arrestins in regulating β2AR function in asthma, we and others have utilized β-arrestin-1 and -2 knockout mice. However, it is unknown if genetic deletion of β-arrestins in these mice influences β2AR expression in the airways. Furthermore, there is lack of data on compensatory expression of βAR subtypes when either of the β-arrestins is genetically deleted, thus necessitating a detailed βAR subtype expression study in these β-arrestin knockout mice. Here we standardized a radioligand binding methodology to characterize and quantitate βAR subtype distribution in the airway smooth muscle of wild-type C57BL/6J and β-arrestin-1 and β-arrestin-2 knockout mice. Using complementary competition and single-point saturation binding assays we found that β2ARs predominate over β1ARs in the whole lung and epithelium-denuded tracheobronchial smooth muscle of C57BL/6J mice. Quantification of βAR subtypes in β-arrestin-1 and β-arrestin-2 knockout mouse lung and epithelium-denuded tracheobronchial tissue showed that, similar to the C57BL/6J mice, both knockouts display a predominance of β2AR expression. These data provide further evidence that β2ARs are expressed in greater abundance than β1ARs in the tracheobronchial smooth muscle and that loss of either β-arrestin does not significantly affect the expression or relative proportions of βAR subtypes. As β-arrestins are known to modulate β2AR function, our analysis of βAR subtype expression in β-arrestin knockout mice airways sets a reference point for future studies exploiting these knockout mice in various disease models including asthma.
Highlights
Bronchoconstriction is one of the salient features of asthma which is reversible by agonist-mediated activation of the β2 adrenergic receptor (β2AR), a prototypical G protein-coupled receptor (GPCR)
We quantified β1AR and β2AR expression in whole lung of β-arrestin-1 KO and βarrestin-2 KO mice to determine if genetic deletion of β-arrestin alters receptor expression
In β-arrestin-1 KO mouse whole lung we found that the relative proportions of β1AR (43%) and β2AR (57%) and ICI-118551 affinities for each subtype were comparable to wild-type mice (Fig. 1C and Tables 1 and 2)
Summary
Bronchoconstriction is one of the salient features of asthma which is reversible by agonist-mediated activation of the β2 adrenergic receptor (β2AR), a prototypical G protein-coupled receptor (GPCR). Β2ARs mediate bronchoprotection in asthmatic airways [1]. By virtue of these properties β2AR agonists remain the primary line of therapy to treat asthmatic bronchospasm. Agonist activation of β2ARs leads to airway smooth muscle (ASM) relaxation through activation of Gαs, cAMP accumulation and activation of protein kinase A (PKA) [2]. The distribution of βAR subtypes in human airways supports the notion that β2ARs mediate bronchorelaxation. ΒARs of human ASM and airway epithelium are known to be entirely of the β2 subtype [5]. The distribution of β1AR and β2AR in human lung was reported to be 30:70 [3]; β1ARs were not detected in human bronchus [4]. βARs of human ASM and airway epithelium are known to be entirely of the β2 subtype [5]. βAR distribution (β1AR:β2AR) has been studied in the airways of other animals such as pig (28:72), guinea pig (15:85), horse (26–20:74–80), dog (23:77) and rat (15:85) [6,7,8,9,10,11,12,13]
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