The Experts below are selected from a list of 78 Experts worldwide ranked by ideXlab platform
Anton M Jetten - One of the best experts on this subject based on the ideXlab platform.
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the ubiquitin interacting Motif containing protein rap80 interacts with brca1 and functions in dna damage repair response
Cancer Research, 2007Co-Authors: Jun Yan, Yongsik Kim, Xiaoping Yang, Grace Liao, Fen Xia, Anton M JettenAbstract:In this study, we examine the potential role of receptor-associated protein 80 (RAP80), a nuclear protein containing two Ubiquitin-Interacting Motifs (UIM), in DNA damage response and double-strand break (DSB) repair. We show that following ionizing radiation and treatment with DNA-damaging agents, RAP80 translocates to discrete nuclear foci that colocalize with those of gamma-H2AX. The UIMs and the region of amino acids 204 to 304 are critical for the relocalization of RAP80 to ionizing radiation-induced foci (IRIF). These observations suggest that RAP80 becomes part of a DNA repair complex at the sites of IRIF. We also show that RAP80 forms a complex with the tumor repressor BRCA1 and that this interaction is mediated through the BRCA1 COOH-terminal repeats of BRCA1. The UIMs are not required for the interaction of RAP80 with BRCA1. Knockdown of RAP80 in HEK293 cells significantly reduced DSB-induced homology-directed recombination (HDR). Moreover, inhibition of RAP80 expression by small interfering RNA increased radiosensitivity, whereas increased radioresistance was observed in human breast cancer MCF-7 cells with overexpression of RAP80. Taken together, our data suggest that RAP80 plays an important role in DNA damage response signaling and HDR-mediated DSB repair. We further show that RAP80 can function as a substrate of the ataxia-telangiectasia mutated protein kinase in vitro, which phosphorylates RAP80 at Ser(205) and Ser(402). We show that this phosphorylation is not required for the migration of RAP80 to IRIF.
Jun Yan - One of the best experts on this subject based on the ideXlab platform.
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the ubiquitin interacting Motif containing protein rap80 interacts with brca1 and functions in dna damage repair response
Cancer Research, 2007Co-Authors: Jun Yan, Yongsik Kim, Xiaoping Yang, Grace Liao, Fen Xia, Anton M JettenAbstract:In this study, we examine the potential role of receptor-associated protein 80 (RAP80), a nuclear protein containing two Ubiquitin-Interacting Motifs (UIM), in DNA damage response and double-strand break (DSB) repair. We show that following ionizing radiation and treatment with DNA-damaging agents, RAP80 translocates to discrete nuclear foci that colocalize with those of gamma-H2AX. The UIMs and the region of amino acids 204 to 304 are critical for the relocalization of RAP80 to ionizing radiation-induced foci (IRIF). These observations suggest that RAP80 becomes part of a DNA repair complex at the sites of IRIF. We also show that RAP80 forms a complex with the tumor repressor BRCA1 and that this interaction is mediated through the BRCA1 COOH-terminal repeats of BRCA1. The UIMs are not required for the interaction of RAP80 with BRCA1. Knockdown of RAP80 in HEK293 cells significantly reduced DSB-induced homology-directed recombination (HDR). Moreover, inhibition of RAP80 expression by small interfering RNA increased radiosensitivity, whereas increased radioresistance was observed in human breast cancer MCF-7 cells with overexpression of RAP80. Taken together, our data suggest that RAP80 plays an important role in DNA damage response signaling and HDR-mediated DSB repair. We further show that RAP80 can function as a substrate of the ataxia-telangiectasia mutated protein kinase in vitro, which phosphorylates RAP80 at Ser(205) and Ser(402). We show that this phosphorylation is not required for the migration of RAP80 to IRIF.
Steven P Gygi - One of the best experts on this subject based on the ideXlab platform.
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otud4 is a phospho activated k63 deubiquitinase that regulates myd88 dependent signaling
Molecular Cell, 2018Co-Authors: Yu Zhao, Miranda C Mudge, Jennifer M Soll, Rachel B Rodrigues, Andrea K Byrum, Elizabeth A Schwarzkopf, Tara R Bradstreet, Steven P Gygi, Brian T Edelson, Nima MosammaparastAbstract:Ubiquitination is a major mechanism that regulates numerous cellular processes, including autophagy, DNA damage signaling, and inflammation. While hundreds of ubiquitin ligases exist to conjugate ubiquitin onto substrates, approximately 100 deubiquitinases are encoded by the human genome. Thus, deubiquitinases are likely regulated by unidentified mechanisms to target distinct substrates and cellular functions. Here, we demonstrate that the deubiquitinase OTUD4, which nominally encodes a K48-specific deubiquitinase, is phosphorylated near its catalytic domain, activating a latent K63-specific deubiquitinase. Besides phosphorylation, this latter activity requires an adjacent Ubiquitin-Interacting Motif, which increases the affinity of OTUD4 for K63-linked chains. We reveal the Toll-like receptor (TLR)-associated factor MyD88 as a target of this K63 deubiquitinase activity. Consequently, TLR-mediated activation of NF-κB is negatively regulated by OTUD4, and macrophages from Otud4-/- mice exhibit increased inflammatory signaling upon TLR stimulation. Our results reveal insights into how a deubiquitinase may modulate diverse processes through post-translational modification.
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the ubiquitin interacting Motif protein s5a is ubiquitinated by all types of ubiquitin ligases by a mechanism different from typical substrate recognition
Journal of Biological Chemistry, 2009Co-Authors: Tomoaki Uchiki, Steven P Gygi, Hyoung Tae Kim, Bo Zhai, Jennifer A Johnston, John P Obryan, Alfred L GoldbergAbstract:S5a/Rpn10 is a ubiquitin (Ub)-binding protein that is a subunit of the 26S proteasome but also exists free in the cytosol. It binds poly-Ub chains through its two Ub-interacting Motifs (UIMs). We discovered that, unlike typical substrates of Ub ligases (E3s), S5a can be ubiquitinated by all E3s tested including multimeric and monomeric Ring finger E3s (MuRF1, Siah2, Parkin, APC, and SCFβTRCP1), the U-box E3, CHIP, and HECT domain E3s (E6AP and Nedd4) when assayed with UbcH5 or related Ub-conjugating enzymes. However, the E2s, UbcH1 and UbcH13/Uev1a, which function by distinct mechanisms, do not support S5a ubiquitination. Thus, S5a can be used for assay of probably all E3s with UbcH5. Ubiquitination of S5a results from its binding to Ub chains on the E3 (after self-ubiquitination) or on the substrate, as a mutant lacking the UIM domain was not ubiquitinated. Furthermore, if the S5a UIM domains were fused to GST, the protein was rapidly ubiquitinated by MuRF1 and CHIP. In addition, polyubiquitination (but not monoubiquitination) of MuRF1 allowed S5a to bind to MuRF1 and accelerated S5a ubiquitination. This tendency of S5a to associate with the growing Ub chain can explain how S5a, unlike typical substrates, which are recognized by certain E3s through specific Motifs, is ubiquitinated by all E3s tested and is rapidly degraded in vivo.
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abraxas and rap80 form a brca1 protein complex required for the dna damage response
Science, 2007Co-Authors: Bin Wang, Steven P Gygi, Shuhei Matsuoka, Bryan A Ballif, Dong Zhang, Agata Smogorzewska, Stephen J ElledgeAbstract:The BRCT repeats of the breast and ovarian cancer predisposition protein BRCA1 are essential for tumor suppression. Phosphopeptide affinity proteomic analysis identified a protein, Abraxas, that directly binds the BRCA1 BRCT repeats through a phospho-Ser-X-X-Phe Motif. Abraxas binds BRCA1 to the mutual exclusion of BACH1 (BRCA1-associated C-terminal helicase) and CtIP (CtBP-interacting protein), forming a third type of BRCA1 complex. Abraxas recruits the Ubiquitin-Interacting Motif (UIM)–containing protein RAP80 to BRCA1. Both Abraxas and RAP80 were required for DNA damage resistance, G2-M checkpoint control, and DNA repair. RAP80 was required for optimal accumulation of BRCA1 on damaged DNA (foci) in response to ionizing radiation, and the UIM domains alone were capable of foci formation. The RAP80-Abraxas complex may help recruit BRCA1 to DNA damage sites in part through recognition of ubiquitinated proteins.
Xiaoping Yang - One of the best experts on this subject based on the ideXlab platform.
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the ubiquitin interacting Motif containing protein rap80 interacts with brca1 and functions in dna damage repair response
Cancer Research, 2007Co-Authors: Jun Yan, Yongsik Kim, Xiaoping Yang, Grace Liao, Fen Xia, Anton M JettenAbstract:In this study, we examine the potential role of receptor-associated protein 80 (RAP80), a nuclear protein containing two Ubiquitin-Interacting Motifs (UIM), in DNA damage response and double-strand break (DSB) repair. We show that following ionizing radiation and treatment with DNA-damaging agents, RAP80 translocates to discrete nuclear foci that colocalize with those of gamma-H2AX. The UIMs and the region of amino acids 204 to 304 are critical for the relocalization of RAP80 to ionizing radiation-induced foci (IRIF). These observations suggest that RAP80 becomes part of a DNA repair complex at the sites of IRIF. We also show that RAP80 forms a complex with the tumor repressor BRCA1 and that this interaction is mediated through the BRCA1 COOH-terminal repeats of BRCA1. The UIMs are not required for the interaction of RAP80 with BRCA1. Knockdown of RAP80 in HEK293 cells significantly reduced DSB-induced homology-directed recombination (HDR). Moreover, inhibition of RAP80 expression by small interfering RNA increased radiosensitivity, whereas increased radioresistance was observed in human breast cancer MCF-7 cells with overexpression of RAP80. Taken together, our data suggest that RAP80 plays an important role in DNA damage response signaling and HDR-mediated DSB repair. We further show that RAP80 can function as a substrate of the ataxia-telangiectasia mutated protein kinase in vitro, which phosphorylates RAP80 at Ser(205) and Ser(402). We show that this phosphorylation is not required for the migration of RAP80 to IRIF.
Grace Liao - One of the best experts on this subject based on the ideXlab platform.
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the ubiquitin interacting Motif containing protein rap80 interacts with brca1 and functions in dna damage repair response
Cancer Research, 2007Co-Authors: Jun Yan, Yongsik Kim, Xiaoping Yang, Grace Liao, Fen Xia, Anton M JettenAbstract:In this study, we examine the potential role of receptor-associated protein 80 (RAP80), a nuclear protein containing two Ubiquitin-Interacting Motifs (UIM), in DNA damage response and double-strand break (DSB) repair. We show that following ionizing radiation and treatment with DNA-damaging agents, RAP80 translocates to discrete nuclear foci that colocalize with those of gamma-H2AX. The UIMs and the region of amino acids 204 to 304 are critical for the relocalization of RAP80 to ionizing radiation-induced foci (IRIF). These observations suggest that RAP80 becomes part of a DNA repair complex at the sites of IRIF. We also show that RAP80 forms a complex with the tumor repressor BRCA1 and that this interaction is mediated through the BRCA1 COOH-terminal repeats of BRCA1. The UIMs are not required for the interaction of RAP80 with BRCA1. Knockdown of RAP80 in HEK293 cells significantly reduced DSB-induced homology-directed recombination (HDR). Moreover, inhibition of RAP80 expression by small interfering RNA increased radiosensitivity, whereas increased radioresistance was observed in human breast cancer MCF-7 cells with overexpression of RAP80. Taken together, our data suggest that RAP80 plays an important role in DNA damage response signaling and HDR-mediated DSB repair. We further show that RAP80 can function as a substrate of the ataxia-telangiectasia mutated protein kinase in vitro, which phosphorylates RAP80 at Ser(205) and Ser(402). We show that this phosphorylation is not required for the migration of RAP80 to IRIF.
