2019
DOI: 10.1016/bs.pmbts.2018.09.004
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Arrestin mutations: Some cause diseases, others promise cure

Abstract: Arrestins play a key role in homologous desensitization of G protein-coupled receptors (GPCRs) and regulate several other vital signaling pathways in cells. Considering the critical roles of these proteins in cellular signaling, surprisingly few disease-causing mutations in human arrestins were described. Most of these are loss-of-function mutations of visual arrestin-1 that cause excessive rhodopsin signaling and hence night blindness. Only one dominant arrestin-1 mutation was discovered so far. It reduces th… Show more

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Cited by 10 publications
(6 citation statements)
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“…Following activation by agonist ligands, phosphorylated GPCRs are able to bind β-arrestins with high affinity via destabilization of two key interactions that keep β-arrestins in their basal state: the polar core and the three-element interaction between β-strand I, β-strand XX of the Cterminus, and α-helix I (Gurevich and Gurevich, 2019a;Karnam et al, 2021) (Fig. 1).…”
Section: F β-Arrestins With Altered Gpcr Binding Affinity And/or Sele...mentioning
confidence: 99%
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“…Following activation by agonist ligands, phosphorylated GPCRs are able to bind β-arrestins with high affinity via destabilization of two key interactions that keep β-arrestins in their basal state: the polar core and the three-element interaction between β-strand I, β-strand XX of the Cterminus, and α-helix I (Gurevich and Gurevich, 2019a;Karnam et al, 2021) (Fig. 1).…”
Section: F β-Arrestins With Altered Gpcr Binding Affinity And/or Sele...mentioning
confidence: 99%
“…1). These intramolecular interactions in βarr1 and βarr2 can be destabilized by mutations, yielding mutant β-arrestins that bind active phosphorylated and even unphosphorylated GPCRs more readily than WT β-arrestins (Gurevich and Gurevich, 2019a;Karnam et al, 2021). Gain-of-function mutations that can occur in numerous GPCRs are known to cause various human disorders (Arang and Gutkind, 2020;Schöneberg et al, 2004;Stoy and Gurevich, 2015).…”
Section: F β-Arrestins With Altered Gpcr Binding Affinity And/or Sele...mentioning
confidence: 99%
“…Constitutive KO: altered µ-opioid receptor signaling causing enhanced morphine analgesia [297]; DKO with β-arrestin2: embryonic lethality due to developmental defects [298] Polymorphisms of unclear significance linked to neurological diseases [289]; somatic mutations in breast cancer [370] β-Arres-tin2 = Arrestin3 (ARRB2) pSer/ pThr in GPCR-NT Constitutive KO: altered cardiac β-adrenergic receptor signaling causing increased cardiac contractility [296] CALM (PICALM) SNARE motif-ANTH APP [129], Aβ-bound LRP1 [128], Nicastrin [131], TfR [113,124], VAMP2/3/4/7/8 [110,112,122] AP-2, Clathrin, PI(4,5)P 2…”
Section: Discussionmentioning
confidence: 99%
“…There are two so-called visual Arrestins (Arrestin1 and 4) and two Arrestins operating outside the visual transduction cascade commonly known as β-Arrestin1 and β-Arrestin2 (alternative nomenclature: Arrestin2 and 3) which appear to bind to hundreds of different GPCRs [289]. One mechanism underlying GPCR desensitization is their Arrestin-triggered endocytosis [290].…”
Section: Arrestins-adaptors For G Protein-coupled Receptorsmentioning
confidence: 99%
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