JUP & ERBB2 Protein Protein Interaction Antibody Pair
- Known as:
- JUP & ERBB2 Protein Protein Interaction Antibody Pair
- Catalog number:
- DI0160
- Product Quantity:
- 1 Set
- Category:
- -
- Supplier:
- Abno
- Gene target:
- JUP & ERBB2 Protein Interaction Antibody Pair
Related genes to: JUP & ERBB2 Protein Protein Interaction Antibody Pair
- Gene:
- ERBB2 NIH gene
- Name:
- erb-b2 receptor tyrosine kinase 2
- Previous symbol:
- NGL
- Synonyms:
- NEU, HER-2, CD340, HER2
- Chromosome:
- 17q12
- Locus Type:
- gene with protein product
- Date approved:
- 2001-06-22
- Date modifiied:
- 2019-04-23
- Gene:
- ERBIN NIH gene
- Name:
- erbb2 interacting protein
- Previous symbol:
- ERBB2IP
- Synonyms:
- LAP2
- Chromosome:
- 5q12.3
- Locus Type:
- gene with protein product
- Date approved:
- 2001-06-18
- Date modifiied:
- 2016-10-05
Related products to: JUP & ERBB2 Protein Protein Interaction Antibody Pair
Related articles to: JUP & ERBB2 Protein Protein Interaction Antibody Pair
- Approximately 20% of breast cancers overexpress ErbB2/HER2/Neu, a receptor tyrosine kinase. Our previous studies demonstrated that HER2 interacts with the calcium pump, PMCA2, and the scaffolding molecules, NHERF1 and Ezrin to stabilize HER2/HSP90 interactions and contribute to the retention of active HER2 at the plasma membrane. In the normal mammary epithelium where apical/basal polarity is tightly regulated by junctional proteins, HER2 is expressed at low levels in the basolateral membrane and interacts with the LAP family member, Erbin, whereas PMCA2, NHERF1, and Ezrin localize to the apical membrane. Here, we show that loss of apical membrane polarity in hyperplastic lesions of MMTV-Neu mammary glands or in human DCIS leads to intermixing of these molecules and allows Erbin to interact with NHERF1, Ezrin and HER2 initially within the basolateral membrane and then more diffusely throughout the plasma membrane. In SKBR3 cells, Erbin interacts with NHERF1, Ezrin and HER2 in actin-rich membrane protrusions that we have previously described to be sites of active HER2 signaling. Knockdown of Erbin in these cells reduced HER2 signaling by disrupting the formation of a HER2/NHERF1/Ezrin/HSP90 protein complex in the membrane protrusions. Furthermore, inhibition of Ezrin or knock-down of NHERF1 expression disrupted the ability of Erbin to interact with HER2. Taken together, our data suggest that Erbin supports HER2 stability, HER2 membrane retention and HER2 transforming ability by interacting with Ezrin and NHERF1 to maintain a multi-protein signaling complex necessary for HER2-mediated transformation. - Source: PubMed
Publication date: 2025/05/19
Jeong JaekwangYoo KwangminLee JongwonShin Jae HunChoi JungminWysolmerski John - Sepsis, as a clinically critical disease, usually induces coagulation disorders. It has been reported that ERBB2 Interacting Protein (Erbin) is involved in the development of various inflammatory diseases, and macrophages are involved in the regulation of coagulation disorders in sepsis. However, the role of Erbin in coagulation disorders in sepsis and the relationship between Erbin and macrophage regulation of coagulation function are still unclear. - Source: PubMed
Publication date: 2025/02/05
Yang ChengLei ChuntianJing GuoqingXia YunZhou HuiminWu DieZuo JingGong HailongWang XingDong YingyueAidebaike DelidaWu XiaojingSong Xuemin - NADPH oxidase organizer 1 (NoxO1) is a scaffold cytoplasmic subunit of the reactive oxygen species (ROS) forming Nox1 complex and involved in angiogenesis, differentiation, and atherosclerosis. We found that overexpression of NoxO1 without simultaneous overexpression of any other component of the active Nox1 complex inhibited EGF-induced wound closure and signaling, while NoxO1 KO yielded the opposite effect. Accordingly, we hypothesize NoxO1 to exert Nox1 independent functions. Using the BioID technique, we identified ErbB2 interacting protein (Erbin) as novel interaction partner of NoxO1. Colocalization of NoxO1 with EGFR, as well as with Erbin validated this finding. EGF treatment interrupted colocalization of NoxO1 and EGFR. EGF mediated kinase activation was delayed in NoxO1 overexpressing cells, while knockout of NoxO1 had the opposite effect. In conclusion, Erbin was identified as a novel NoxO1 interacting protein. Through the subsequent interaction of NoxO1 and EGFR, NoxO1 interferes with EGF signaling. The results of this study suggest a potential role of NoxO1 as an adaptor protein with functions beyond the well-established enabling of Nox1 mediated ROS formation. - Source: PubMed
Publication date: 2024/10/16
Hebchen Dana MaureenSchader TimSpaeth ManuelaMüller NiklasGraumann JohannesSchröder Katrin - Erbin is an adapter protein that interacts with the v-erb-b2 avian erythroblastic leukemia viral oncogene homolog 2 (ERBB2) in epithelial cells. Erbin plays an important role in various signaling pathways, including cell proliferation, apoptosis, and autophagy. Additionally, Erbin is implicated in the pathogenesis and progression of sepsis and various cancers, including breast cancer, acute myeloid leukemia (AML), hepatocellular carcinoma (HCC), and colorectal cancer (CRC). A recent study shows that loss of Erbin increases the release of acyl-carnitine (Acar) through abolishing interaction with prothrombotic protein endothelial cell-specific adhesion molecule (ESAM), promotes mitochondrial oxidative phosphorylation in B cells, and ultimately suppresses lung metastasis of CRC. Accordingly, Erbin provides us with a new potential treatment for tumor metastasis. - Source: PubMed
Publication date: 2024/09/26
Qiu TingtingTan LiquanYan JialongLuo Qunli - Primary atopic disorders (PAD) are monogenic disorders caused by pathogenic gene variants encoding proteins that are key for the maintenance of a healthy skin barrier and a well-functioning immune system. Physicians face the challenge to find single, extremely rare PAD patients/families among the millions of individuals with common allergic diseases. We describe case scenarios with signature PAD. We review the literature and deduct specific clinical red flags for PAD detection. They include a positive family history and/or signs of pathological susceptibility to infections, immunodysregulation, or syndromic disease. Results of conventional laboratory and most immunological lab studies are not sufficient to make a definitive diagnosis of PAD. In the past, multistep narrowing of differential diagnoses by various immunological and other laboratory tests led to testing of single genes or gene panel analyses, which was a time-consuming and often unsuccessful approach. The implementation of whole-genomic analyses in the routine diagnostics has led to a paradigm shift. Upfront genome-wide analysis by whole genome sequencing (WGS) will shorten the time to diagnosis, save patients from unnecessary investigations, and reduce morbidity and mortality. We propose a rational, clinical landmark-based approach for deciding which cases pass the filter for carrying out early WGS. WGS result interpretation requires a great deal of caution regarding the causal relationship of variants in PAD phenotypes and absence of proof by adequate functional tests. In case of negative WGS results, a re-iteration attitude with re-analyses of the data (using the latest data base annotation)) may eventually lead to PAD diagnosis. PAD, like many other rare genetic diseases, will only be successfully managed, if physicians from different clinical specialties and geneticists interact regularly in multidisciplinary conferences. - Source: PubMed
Publication date: 2024/10/02
Niehues Timvon Hardenberg SandraVelleuer Eunike