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Endogenous N-terminal Domain Cleavage Modulates α1D-Adrenergic Receptor Pharmacodynamics.

Authors :
Kountz, Timothy S.
Kyung-Soon Lee
Aggarwal-Howarth, Stacey
Curran, Elizabeth
Park, Ji-Min
Harris, Dorathy-Ann
Stewart, Aaron
Hendrickson, Joseph
Camp, Nathan D.
Wolf-Yadlin, Alejandro
Wang, Edith H.
Scott, John D.
Hague, Chris
Source :
Journal of Biological Chemistry. 8/26/2016, Vol. 291 Issue 35, p18210-18221. 18p.
Publication Year :
2016

Abstract

The α1D-adrenergic receptor (ADRA1D) is a key regulator of cardiovascular, prostate, and central nervous system functions. This clinically relevant G protein-coupled receptor has proven difficult to study, as it must form an obligate modular homodimer containing the PDZ proteins scribble and syntrophin or become retained in the endoplasmic reticulum as nonfunctional protein. We previously determined that targeted removal of the N-terminal (NT) 79 amino acids facilitates ADRA1D plasma membrane expression and agonist-stimulated functional responses. However, whether such an event occurs in physiological contexts was unknown. Herein, we report the ADRA1D is subjected to innate NT processing in cultured human cells. SNAP near-infrared imaging and tandem-affinity purification revealed the ADRA1D is expressed as both fulllength and NT truncated forms in multiple human cell lines. Serial truncation mapping identified the cleavage site as Leu90/ Val91 in the 95-amino acid ADRA1D NT domain, suggesting human cells express a Δ1-91 ADRA1D species. Tandem-affinity purification MS/MS and co-immunoprecipitation analysis indicate NT processing of ADRA1D is not required to form scribble-syntrophin macromolecular complexes. Yet, label-free dynamic mass redistribution signaling assays demonstrate that Δ1-91 ADRA1D agonist responses were greater than WT ADRA1D. Mutagenesis of the cleavage site nullified the processing event, resulting in ADRA1D agonist responses less than the WT receptor. Thus, we propose that processing of the ADRA1D NT domain is a physiological mechanism employed by cells to generate a functional ADRA1D isoform with optimal pharmacodynamic properties. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00219258
Volume :
291
Issue :
35
Database :
Academic Search Index
Journal :
Journal of Biological Chemistry
Publication Type :
Academic Journal
Accession number :
117762785
Full Text :
https://doi.org/10.1074/jbc.M116.729517