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Query: UNIPROT:P01185 (
vasopressin
)
23,126
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Angiotensin II type 1a (AT1a),
vasopressin
V2, and neurokinin 1 (NK1) receptors are seven-transmembrane receptors (7TMRs) that bind and co-internalize with the multifunctional adaptor protein, beta-arrestin. These receptors also lead to robust and persistent activation of extracellular-signal regulated kinase 1/2 (ERK1/2) localized on endosomes. Recently, the co-trafficking of receptor-beta-arrestin complexes to endosomes was demonstrated to require stable beta-arrestin ubiquitination (Shenoy, S. K., and Lefkowitz, R. J. (2003) J. Biol. Chem. 278, 14498-14506). We now report that lysines at positions 11 and 12 in beta-arrestin2 are specific and required sites for its AngII-mediated sustained ubiquitination. Thus, upon AngII stimulation the mutant beta-arrestin2(K11,12R) is only transiently ubiquitinated, does not form stable endocytic complexes with the AT1aR, and is impaired in scaffolding-activated ERK1/2. Fusion of a ubiquitin moiety in-frame to beta-arrestin2(K11,12R) restores AngII-mediated trafficking and signaling. Wild type beta-arrestin2 and beta-arrestin2(K11R,K12R)-Ub, but not beta-arrestin2(K11R,K12R), prevent nuclear translocation of pERK. These findings imply that sustained beta-arrestin ubiquitination not only directs co-trafficking of receptor-beta-arrestin complexes but also orchestrates the targeting of "7TMR signalosomes" to microcompartments within the cell. Surprisingly, binding of beta-arrestin2(K11R,K12R) to V2R and NK1R is indistinguishable from that of wild type beta-arrestin2. Moreover, ubiquitination patterns and ERK scaffolding of beta-arrestin2(K11,12R) are unimpaired with respect to V2R stimulation. In contrast, a quintuple lysine mutant (beta-arrestin2(K18R,K107R,K108R,K207R,K296R)) is impaired in endosomal trafficking in response to V2R but not AT1aR stimulation. Our findings delineate a novel regulatory mechanism for
7TMR
signaling, dictated by the ubiquitination of beta-arrestin on specific lysines that become accessible for modification due to the specific receptor-bound conformational states of beta-arrestin2.
...
PMID:Receptor-specific ubiquitination of beta-arrestin directs assembly and targeting of seven-transmembrane receptor signalosomes. 1569 45
beta-Arrestins are multifunctional adaptor proteins that regulate seven transmembrane-spanning receptor (
7TMR
) desensitization and internalization and also initiate alternative signaling pathways. Studies have shown that beta-arrestins undergo a conformational change upon interaction with agonist-occupied, phosphorylated 7TMRs. Although conformational changes have been reported for visual arrestin and beta-arrestin2, these studies are not representative of conformational changes in beta-arrestin1. Accordingly, in this study, we determine conformational changes in beta-arrestin1 using limited tryptic proteolysis and matrix-assisted laser desorption ionization time-of-flight mass spectrometry analysis in the presence of a phosphopeptide derived from the C terminus of the V(2)
vasopressin
receptor (V(2)Rpp) or the corresponding unphosphorylated peptide (V(2)Rnp). V(2)Rpp binds specifically to beta-arrestin1 causing significant conformational changes, whereas V(2)Rnp does not alter the conformation of beta-arrestin1. Upon V(2)Rpp binding, we show that the previously shielded Arg(393) becomes accessible, which indicates release of the C terminus. Moreover, we show that Arg(285) becomes more accessible, and this residue is located in a region of beta-arrestin1 responsible for stabilization of its polar core. These two findings demonstrate "activation" of beta-arrestin1, and we also show a functional consequence of the release of the C terminus of beta-arrestin1 by enhanced clathrin binding. In addition, we show marked protection of the N-domain of beta-arrestin1 in the presence of V(2)Rpp, which is consistent with previous studies suggesting the N-domain is responsible for recognizing phosphates in 7TMRs. A striking difference in conformational changes is observed in beta-arrestin1 when compared with beta-arrestin2, namely the flexibility of the interdomain hinge region. This study represents the first direct evidence that the "receptor-bound" conformations of beta-arrestins1 and 2 are different.
...
PMID:The active conformation of beta-arrestin1: direct evidence for the phosphate sensor in the N-domain and conformational differences in the active states of beta-arrestins1 and -2. 1751
Beta-arrestins are multifunctional adaptors that mediate the desensitization, internalization, and some signaling functions of seven-transmembrane receptors (7TMRs). Agonist-stimulated ubiquitination of beta-arrestin2 mediated by the E3 ubiquitin ligase Mdm2 is critical for rapid beta(2)-adrenergic receptor (beta(2)AR) internalization. We now report the discovery that the deubiquitinating enzyme ubiquitin-specific protease 33 (USP33) binds beta-arrestin2 and leads to the deubiquitination of beta-arrestins. USP33 and Mdm2 function reciprocally and favor respectively the stability or lability of the receptor beta-arrestin complex, thus regulating the longevity and subcellular localization of receptor signalosomes. Receptors such as the beta(2)AR, previously shown to form loose complexes with beta-arrestin ("class A") promote a beta-arrestin conformation conducive for binding to the deubiquitinase, whereas the
vasopressin
V2R, which forms tight beta-arrestin complexes ("class B"), promotes a distinct beta-arrestin conformation that favors dissociation of the enzyme. Thus, USP33-beta-arrestin interaction is a key regulatory step in
7TMR
trafficking and signal transmission from the activated receptors to downstream effectors.
...
PMID:Beta-arrestin-dependent signaling and trafficking of 7-transmembrane receptors is reciprocally regulated by the deubiquitinase USP33 and the E3 ligase Mdm2. 1936 59
