Sequential Synthesis of Type II Colloidal CdTe/CdSe Core–Shell Nanocrystals

The epidermal growth factor receptor (EGFR) is the prototypical member of a family of membrane-associated intrinsic tyrosine kinase receptors, the ErbB family. EGFR is activated by multiple ligands, including EGF, transforming growth factor (TGF)-α, HB-EGF, betacellulin, amphiregulin, epiregulin, and epigen. EGFR is expressed in multiple organs and plays important roles in proliferation, survival, and differentiation in both development and normal physiology, as well as in pathophysiological conditions. In addition, EGFR transactivation underlies some important biologic consequences in response to many G protein-coupled receptor (GPCR) agonists. Aberrant EGFR activation is a significant factor in development and progression of multiple cancers, which has led to development of mechanism-based therapies with specific receptor antibodies and tyrosine kinase inhibitors. This review highlights the current knowledge about mechanisms and roles of EGFR in physiology and disease.

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Epidermal growth factor, from gene organization to bedside

Zeng

Harris

2014

Seminars in Cell & Developmental Biology

149

120

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In 1962, epidermal growth factor (EGF) was discovered by Dr. Stanley Cohen while studying nerve growth factor (NGF). It was soon recognized that EGF is the prototypical member of a family of peptide growth factors that activate the EGF receptors, and that the EGF/EGF receptor signaling pathway plays important roles in proliferation, differentiation and migration of a variety of cell types, especially in epithelial cells. After the basic characterization of EGF function in the first decade or so after its discovery, the studies related to EGF and its signaling pathway have extended to a broad range of investigations concerning its biological and pathophysiological roles in development and in human diseases. In this review, we briefly describe the gene organization and tissue distribution of EGF, with emphasis on its biological and pathological roles in human diseases.

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Survivin As a Therapeutic Target for Radiation Sensitization in Lung Cancer

Lü

Cao

et al. 2004

132

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Expression of survivin is elevated in most malignancies, especially in radiation-resistant cell lines. In this study, we investigated how radiation affects survivin expression in primary endothelial cells as well as in malignant cell lines. We found that 3 Gy significantly reduced survivin protein level in human umbilical vein endothelial cells (HUVECs) but not in tumor cell lines. Flow cytometry studies suggest that the down-regulation of survivin is independent of cell cycle. In addition, survivin mRNA level was also down-regulatable by irradiation. However, it was abrogated by actinomycin D-mediated inhibition of gene transcription. Luciferase reporter gene assays suggest that irradiation suppressed the survivin promoter. p53 overexpression reduced survivin expression, but overexpression of a p53 mutant failed to abolish the radiation-induced downregulation in HUVECs. Alteration of p53 status in Val138 lung cancer cell line also failed to restore the radiation-inducible down-regulation. Overexpression of survivin in 293 cells prevented apoptosis induced by irradiation and increased cell viability after irradiation. The inhibition of survivin using antisense oligonucleotides caused a significant decrease in cell viability of irradiated H460 lung cancer cells. These data suggest that radiation transcriptionally down-regulates survivin in HUVECs. This regulatory mechanism is defective in malignancies and is not mediated by p53. Survivin overexpression may lead to resistance to radiotherapy by inhibiting apoptosis and enhancing cell viability. The inhibition of survivin results in sensitization of H460 lung cancer cells to radiation. These studies suggest that survivin may be a target for cancer therapy.

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ErbB4 Isoforms Selectively Regulate Growth Factor–induced Madin-Darby Canine Kidney Cell Tubulogenesis

Zeng

Zhang

Singh

et al. 2007

MBoC

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ErbB4, a member of the epidermal growth factor (EGF) receptor family that can be activated by heregulin ␤1 and heparin binding (HB)-EGF, is expressed as alternatively spliced isoforms characterized by variant extracellular juxtamembrane (JM) and intracellular cytoplasmic (CYT) domains. ErbB4 plays a critical role in cardiac and neural development. We demonstrated that ErbB4 is expressed in the ureteric buds and developing tubules of embryonic rat kidney and in collecting ducts in adult. The predominant isoforms expressed in kidney are JM-a and CYT-2. In ErbB4-transfected MDCK II cells, basal cell proliferation and hepatocyte growth factor (HGF)-induced tubule formation were decreased by all four isoforms. Only JM-a/CYT-2 cells formed tubules upon HB-EGF stimulation. ErbB4 was activated by both HRG-␤1 and HB-EGF stimulation; however, compared with HRG-␤1, HB-EGF induced phosphorylation of the 80-kDa cytoplasmic cleavage fragment of the JM-a/CYT-2 isoform. HB-EGF also induced early activation of ERK1/2 in JM-a/CYT-2 cells and promoted nuclear translocation of the JM-a/CYT-2 cytoplasmic tail. In summary, our data indicate that JM-a/CYT-2, the ErbB4 isoform that is proteinase cleavable but does not contain a PI3K-binding domain in its cytoplasmic tail, mediates important functions in renal epithelial cells in response to HB-EGF. INTRODUCTIONErbB4, a type I transmembrane receptor tyrosine kinase, belongs to the EGF receptor family, which consists of four receptors, ErbB1 (EGFR or HER1), ErbB2 (Neu, HER2), ErbB3 (HER3), and ErbB4 (HER4; Olayioye et al., 2000). ErbB receptors are involved in the regulation of cellular proliferation, differentiation, survival, and migration in response to activation by their ligands (Yarden and Sliwkowski, 2001). The binding of receptor-specific ligands to the extracellular domains of the receptors results in the formation of homoand hetero-dimeric receptor complexes and subsequent activation of intracellular signaling pathways (Olayioye et al., 2000). More than a dozen ligands have been found to interact with the ErbB family receptors (Riese and Stern, 1998). Among these, ErbB4 ligands belong to two groups: the neuregulins (NRG1-4), also termed heregulins (HRG), and some members of the EGF family (betacellulin, epiregulin, and heparin-binding EGF-like [HB-EGF] growth factor) that were originally discovered as activators of ErbB1. NRG1 and NRG2 have a number of splice variants and also bind to ErbB3, whereas NRG3 and NRG4 interact with low affinity only with ErbB4 (Olayioye et al., 2000). In most assays, NRG1, which contains a ␤-type (HRG-␤1) EGF-like domain, has been found to be 10 -100 times more potent than NRG2 with its ␣-type EGF-like domain (Beerli and Hynes, 1996;Riese et al., 1996;Elenius et al., 1997b;Falls, 2003). Based on these observations, HRG-␤1 has been routinely utilized to stimulate ErbB4 activation.ErbB4 is expressed as alternatively spliced isoforms that are characterized by variant extracellular juxtamembrane (JM) domains and intracellular cytoplasmic (CYT) domains. ...

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Nedd4 mediates ErbB4 JM‐a/CYT–1 ICD ubiquitination and degradation in MDCK II cells

Zeng

Harris

2009

FASEB j.

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ErbB4, a type I transmembrane receptor tyrosine kinase, is a member of the epidermal growth factor receptor family. Its cleavage releases an intracellular C-terminal domain (ICD), which can be either degraded following ubiqitination or translocated to the nucleus and regulate gene expression. There are 2 ErbB4 ICD isoforms: CYT-1 and CYT-2. We and others have previously reported that following cleavage, CYT-2 selectively translocates to the nucleus. In the current study we found that following cleavage, the intracellular levels of CYT-1 ICD decreased rapidly, while levels of CYT-2 ICD remained relatively stable. CYT-1 ICD degradation could be prevented by administration of either the proteasome inhibitor lactacystin or the lysosome inhibitor chloroquine, indicating both proteasomal and lysosomal degradation. Further studies implicated Nedd4, an E3 ubiquitin ligase, as a mediator of CYT-1 ubiquitination and degradation. The interaction of Nedd4 with CYT-1 was shown by coimmnunoprecipitation, an in vitro direct binding assay, and an in vitro ubiquitination assay. Three PPxY or PY motifs present in the CYT-1 C terminus are necessary for binding by Nedd4 WW domains, because impaired interactions are seen in mutation of any of the PY motifs. Nedd4-CYT-1 binding was associated with increased CYT-1 ubiquitination following proteasome inhibitor treatment. Impaired Nedd4 binding to CYT-1 by PY motif mutations led to increased CYT-1 ICD stability, whereas only one of the PY motif mutations (Y1056A), which disrupts the binding sites for both a WW domain and an SH2 domain of PI3 kinase, demonstrated enhanced nuclear translocation following HB-EGF treatment. These studies indicate that Nedd4 mediates ErbB4 CYT-1 ICD ubiquitination and degradation, and the prevention of both WW binding and PI3 kinase activity are required for ErbB4 nuclear translocation.

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ErbB4 deletion predisposes to development of metabolic syndrome in mice

Zeng

Wang

Kloepfer

et al. 2018

American Journal of Physiology-Endocrinology and Metabolism

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ErbB4, a member of the EGF receptor family, plays a variety of roles in physiological and pathological states. Genetic studies have indicated a link between ErbB4 and type 2 diabetes and obesity, but its role in metabolic syndrome (MetS) has not been reported. In the current study we found that mice with ErbB4 deletion developed MetS after 24 wk on a medium-fat diet (MFD), as indicated by development of obesity, dyslipidemia, hepatic steatosis, hyperglycemia, hyperinsulinemia, and insulin resistance, compared with wild-type mice. ErbB4 deletion mice also exhibited increased amounts of subcutaneous and visceral fat, with increased serum leptin levels, compared with wild-type mice, whereas levels of adiponectin were not significantly different. Histologically, severe inflammation, indicated by F4/80 immunostaining and M1 macrophage polarization, was detected in inguinal and epididymal white adipose tissue in ErbB4 deletion mice. ErbB4 expression decreased during 3T3-L1 preadipocyte differentiation. Administration of neuroregulin 4, a specific ligand for ErbB4, to 3T3-L1 adipocytes had no effect on adipogenesis and lipolysis but significantly inhibited lipogenesis, promoted browning, induced GLUT4 redistribution to the cell membrane, and increased glucose uptake. Neuroregulin 4 also significantly increased glucose uptake in adipocytes isolated from wild-type mice, while these effects were significantly decreased in adipocytes isolated from ErbB4 deletion mice. In conclusion, our results indicate that ErbB4 may play an important role in glucose homeostasis and lipogenesis. ErbB4 deficiency-related obesity and adipose tissue inflammation may contribute to the development of MetS.

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Fenghua Zeng

Enhanced radiation damage of tumor vasculature by mTOR inhibitors

The role of the EGF family of ligands and receptors in renal development, physiology and pathophysiology

Expression and Function of the Epidermal Growth Factor Receptor in Physiology and Disease

Epidermal growth factor, from gene organization to bedside

Survivin As a Therapeutic Target for Radiation Sensitization in Lung Cancer

ErbB4 Isoforms Selectively Regulate Growth Factor–induced Madin-Darby Canine Kidney Cell Tubulogenesis

Nedd4 mediates ErbB4 JM‐a/CYT–1 ICD ubiquitination and degradation in MDCK II cells

ErbB4 deletion predisposes to development of metabolic syndrome in mice

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