UMLS:C0033774 - FACTA Search

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Query: UMLS:C0033774 (pruritus)
14,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nedd4-binding partner-1 (N4BP1) has been identified as a protein interactor and a substrate of the homologous to E6AP C terminus (HECT) domain-containing E3 ubiquitin-protein ligase (E3), Nedd4. Here, we describe a previously unrecognized functional interaction between N4BP1 and Itch, a Nedd4 structurally related E3, which contains four WW domains, conferring substrate-binding activity. We show that N4BP1 association with the second WW domain (WW2) of Itch interferes with E3 binding to its substrates. In particular, we found that N4BP1 and p73 alpha, a target of Itch-mediated ubiquitin/proteasome proteolysis, share the same binding site. By competing with p73 alpha for binding to the WW2 domain, N4BP1 reduces the ability of Itch to recruit and ubiquitylate p73 alpha and inhibits Itch autoubiquitylation activity both in in vitro and in vivo ubiquitylation assays. Similarly, both c-Jun and p63 polyubiquitylation by Itch are inhibited by N4BP1. As a consequence, genetic and RNAi knockdown of N4BP1 diminish the steady-state protein levels and significantly impair the transcriptional activity of Itch substrates. Notably, stress-induced induction of c-Jun was impaired in N4BP1(-/-) cells. These results demonstrate that N4BP1 functions as a negative regulator of Itch. In addition, because inhibition of Itch by N4BP1 results in the stabilization of crucial cell death regulators such as p73 alpha and c-Jun, it is conceivable that N4BP1 may have a role in regulating tumor progression and the response of cancer cells to chemotherapy.
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PMID:The Nedd4-binding partner 1 (N4BP1) protein is an inhibitor of the E3 ligase Itch. 1759 38

Itch is a member of the HECT family of ubiquitin E3 ligases, and regulates the stability of several proteins involved in response to genotoxic stress. We have previously shown that p73 and p63, two members of the p53 family of tumour suppressors, are targets for Itch-mediated ubiquitylation and degradation. Here, we show that depletion of Itch by RNA interference augments apoptosis upon treatment with chemotherapeutic drugs. We also show that cells with no functional p53 are more sensitive to Itch depletion, highlighting the importance that changes in levels of Itch may play in majority of cancers, where p53 is absent or mutated. Furthermore, reintroduction of Itch in fibroblasts obtained from Itch deficient mice results in reduced cell death upon DNA damage. Overall our findings suggest that inhibition of Itch potentiates the effect of chemotherapeutic drugs revealing the pharmacological potentials of targeting Itch for cancer therapy.
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PMID:Itch inhibition regulates chemosensitivity in vitro. 1764 Jun 19

The ubiquitin-editing enzyme A20 is a critical negative regulator of inflammation and cytokine-mediated activation of the transcription factor NF-kappaB; however, little is known about the mechanisms of A20-mediated inactivation of signaling intermediates such as RIP1. Here we demonstrate that the regulatory molecule TAX1BP1 recruited the E3 ligase Itch to A20 via two 'PPXY' motifs. Itch was essential for the termination of tumor necrosis factor receptor signaling by controlling A20-mediated recruitment and inactivation of RIP1. Furthermore, the Tax oncoprotein of human T cell leukemia virus type I targeted this complex for inactivation by disrupting the interaction among TAX1BP1, A20 and Itch. Thus, our studies show a previously unappreciated complexity of A20 substrate recognition and inactivation whereby TAX1BP1 and Itch function as essential subunits of an A20 ubiquitin-editing complex.
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PMID:The E3 ligase Itch negatively regulates inflammatory signaling pathways by controlling the function of the ubiquitin-editing enzyme A20. 1828 70

E3 ubiquitin ligases determine which intracellular proteins are targets of the ubiquitin conjugation pathway and thus play a key role in determining the half-life, subcellular localization and/or activation status of their target proteins. Itchy mice lack the E3 ligase, Itch, and show dysregulation of T lymphocytes and the induction of a lethal autoimmune inflammatory condition. Itch is widely expressed in hematopoietic and nonhematopoietic cells, and we demonstrate that disease is transferred exclusively by hematopoietic cells. Moreover, distinct manifestations of the autoimmune inflammatory phenotype are contributed by discrete populations of lymphocytes. The presence of Itch-deficient alphabeta T cells drives expansion of peritoneal B1b cells and elevated IgM levels, which correlate with itching and pathology. In contrast, Itch(-/-) interleukin-4-producing gammadelta T cells, even in the absence of alphabeta T cells, are associated with elevated levels of IgE and an inflammatory condition. These data indicate that disruption of an E3 ubiquitin ligase in alphabeta T cells can subvert a B-cell subpopulation, which normally functions to control particular microbial pathogens in a T-independent manner, to contribute to autoimmunity. In addition, disruption of Itch in innate gammadelta T cells can influence autoimmune pathology and might therefore require distinct therapeutic intervention.
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PMID:Itch-/- alphabeta and gammadelta T cells independently contribute to autoimmunity in Itchy mice. 1825 23

Transforming growth factor-beta (TGF-beta) signaling in naive T cells induces expression of the transcription factor Foxp3, a 'master' regulator of regulatory T cells (T(reg) cells). However, the molecular mechanisms leading to Foxp3 induction remain unclear. Here we show that Itch-/- T cells were resistant to TGF-beta treatment and had less Foxp3 expression. The E3 ubiquitin ligase Itch associated with and promoted conjugation of ubiquitin to the transcription factor TIEG1. Itch cooperated with TIEG1 to induce Foxp3 expression, which was reversed by TIEG1 deficiency. Functionally, 'TGF-beta-converted' T(reg) cells generated from TIEG1-deficient mice were unable to suppress airway inflammation in vivo. These results suggest TIEG and Itch contribute to a ubiquitin-dependent nonproteolytic pathway that regulates inducible Foxp3 expression and the control of allergic responses.
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PMID:The E3 ubiquitin ligase Itch regulates expression of transcription factor Foxp3 and airway inflammation by enhancing the function of transcription factor TIEG1. 1827 48

UV radiation is a major environmental carcinogen. The oncoprotein c-Jun that is required for development of skin cancer is stabilized by UV radiation. The mechanism leading to its stabilization after exposure to UV is not known. The lack of knowledge was particularly sharpened, after the discovery that JNK, the most potent positive regulator of c-Jun, activates Itch, an E3-ligase of c-Jun and JunB. In this study we demonstrate that the expression of all three E3 ubiquitin ligases of c-Jun is down-regulated by UV. The levels of Itch/AIP4 and Fbw7alpha transcripts are reduced following UV exposure in every cell line examined. Repression of hCOP1 and its associated protein hDET1, which is required for c-Jun degradation, is cell type dependent. Expression of Fbw7alpha is down-regulated by UVC or UVB, independently of the p53, MAPK and the PKC pathways but the repression is inhibited in the absence of active Fbw7 proteins suggesting that a target protein of Fbw7 is involved in Fbw7 expression/repression. The repression does not require protein synthesis and UV does not change Fbw7 mRNA stability. The characteristics of Fbw7alpha repression perfectly match with those of c-Jun induction. Unlike UV, ionizing radiation does not repress Fbw7alpha and does not induce c-Jun. In addition, the repression kinetics correlates tightly with the kinetics of c-Jun induction by UV. Moreover, abrogation of Fbw7 UV-responsiveness abolishes c-Jun induction by UV, and knockdown of Fbw7 results in elevated basal expression of c-Jun but reduced UV-dependent induction thus, proving the essential role of this repression in c-Jun induction by UV.
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PMID:Transcriptional repression of c-Jun's E3 ubiquitin ligases contributes to c-Jun induction by UV. 1829 47

The ubiquitination system comprises a highly specific and regulated post-translational mechanism by which the immune response can be modulated, setting the balance between immunity and tolerance. Proteolysis dependent and independent mechanisms have been implicated. Particularly, the role of ubiquitin ligases as modulators of central and peripheral tolerance has brought attention to this system as one of the key elements of a complex regulatory network designed to maintain an active surveillance system. Cbl-b, GRAIL and Itch are the main E3 ligases, considered as negative regulators of the immune response as part of the genetic program induced by the calcium/calcineurin pathway. Other key signaling pathways for the immune response, such as the NF-kappaB and TGF-beta signaling are prone to be modulated by these ubiquitin ligases. Diverse mechanisms have been implicated in the development of anergy associated to E3 ligases, among these, the setting for TCR responsiveness and repression of cytokine transcription are best well characterized. Also, a role as inductors of regulatory T cells has been evidenced for Cbl-b and GRAIL. The defective expression of some of these E3 ligases has been related to the development of autoimmune disease, in experimental murine and human models, remarking its possible pathogenic role.
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PMID:Ubiquitination system and autoimmunity: the bridge towards the modulation of the immune response. 1829 31

Abrogating tolerance against unidentified antigens is a critical step in the pathogenesis of ulcerative colitis (UC). T cell anergy, one of the main mechanisms of tolerance, has been shown to be induced by E3 ubiquitin ligases, such as gene related to anergy in lymphocytes (GRAIL), Itch, and c-Cbl in mice. However, it is not well known whether these E3 ligases play roles in human diseases. The pathophysiological role of the E3 ligases in patients with UC was investigated. At first, the expression of GRAIL, Itch, and c-Cbl in human anergic T cells was analyzed by quantitative RT-PCR and Western immunoblotting. Next, the mRNA expression of the E3 ligases was analyzed in peripheral CD4+ T cells of 20 patients with UC and 10 healthy volunteers (HV). mRNA expression was analyzed in patients with active UC before and after treatment with prednisolone and leukocytapheresis. Anergic human CD4+ T cells expressed significantly higher levels of GRAIL, Itch, and c-Cbl than nonanergic cells. GRAIL expression was significantly higher in patients with UC in remission than in patients with active disease and in HV (P < 0.01). The level of GRAIL expression was also significantly increased in patients with active disease whose clinical activity index scores improved after treatment (P < 0.05). There were no significant differences in Itch and c-Cbl expression among patients with active UC, patients with UC in remission, and HV. These data suggest that GRAIL plays an important role in maintaining remission in patients with UC.
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PMID:Upregulation of GRAIL is associated with remission of ulcerative colitis. 1846 99

The members of the tumor suppressor p53 family are under tight regulation by distinct ubiquitin-protein isopeptide (E3) ligases. The level of p73 is regulated by the E3 ligase Itch. Itch levels are sharply reduced in response to DNA damage with concomitant p73 accumulation and activation. The mechanism of controlling Itch level is not known. We show that the Itch promoter is a target of the transcription activator Runx. Yes-associated protein (Yap1) is a shared transcription co-activator of Runx and p73. Under normal conditions, the Runx-Yap1 complex binds the Itch promoter and supports its transcription and p73 degradation. In response to DNA damage, Yap1 is phosphorylated by c-Abl at the position Tyr-357. The modified Yap1 does not co-activate Runx in supporting Itch transcription. The subsequent reduction in the Itch level gives rise to p73 accumulation. These results demonstrate how Yap1 supports degradation of p73 via Runx and how it plays an opposite role in response to DNA damage.
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PMID:A regulatory circuit controlling Itch-mediated p73 degradation by Runx. 1870 49

Itch, a member of the E6AP carboxy terminus (HECT) domain-containing family of ubiquitin E3 ligases, acts in concert with the ubiquitin activating enzyme (E1) and the ubiquitin conjugating enzyme (E2) to catalyze ubiquitylation of protein targets. This sub-family of E3s shares a 350 residue C-terminal HECT domain having a strictly conserved catalytic Cys, and recruiting its cognate ubiquitin-loaded E2. HECT domains possess intrinsic enzymatic activity, by accepting ubiquitin from an E2, forming a ubiquitin thiolester intermediate, and directly catalyzing ubiquitylation of the target protein. Several hypotheses have been proposed for the biochemical mechanism underlying the structural relationship of the HECT-E2 association and subsequent ubiquitin transfer. Nonetheless, a detailed characterization of the process is still missing. In this work, we have used molecular dynamic simulations, free energy calculations, protein modelling techniques and normal modes analysis to get a deeper characterization of the static and dynamical properties of this interaction mechanism. We hypothesize a correlated slow-frequency motion that involves two different hinge regions of the HECT domain. The identification of the amino acid residues responsible for the HECT-E2 interaction, and for the dynamical properties of the ubiquitin transfer process, may be of relevant interest for pharmacological and therapeutical purposes.
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PMID:Modelling and molecular dynamics of the interaction between the E3 ubiquitin ligase Itch and the E2 UbcH7. 1880

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