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Query: UNIPROT:O76050 (
neu
)
3,969
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Motor neurons modulate
acetylcholine receptor
(
AChR
) gene expression in skeletal muscle by two signalling pathways: the transmitter-evoked depolarization of muscle membrane inhibits
AChR
gene transcription throughout the myofibre presumably via activation of a serine/threonine kinase, while the transcription rates of
AChR
genes in the synaptic region are increased by nerve-derived trophic factors including
AChR
-inducing activity (ARIA). To gain further insight into these interactions we characterized the receptor for heregulin (HRG)/ARIA in muscle. We showed that HRG increases
AChR
alpha-subunit mRNA levels via tyrosine phosphorylation of ErbB3 and ErbB2/
neu
in myotubes. The protein tyrosine phosphatase inhibitor, pervanadate, potentiated the responses to HRG that were in turn blocked by the tyrosine kinase inhibitor erstatin, indicating the relevance of tyrosine phosphorylation to these events. The effects of HRG were inhibited by enhanced cellular serine/threonine phosphorylation which has been implicated in the repression of
AChR
genes by electrical activity. Immunocytochemical analysis of adult rat muscle revealed that while ErbB2/
neu
is present throughout the entire surface of the myofibre membrane, ErbB3 expression is exclusively restricted to the endplate suggesting its involvement in synapse-specific transcription of
AChR
genes by HRG/ARIA.
...
PMID:ErbB3 and ErbB2/neu mediate the effect of heregulin on acetylcholine receptor gene expression in muscle: differential expression at the endplate. 755 67
new differentiation factor (NDF), also known as heregulin, is structurally related to the epidermal growth factor family of growth factors; it stimulates tyrosine phosphorylation of the
neu
/HER-2 oncogene and causes differentiation of certain human breast cancer cell lines. Alternative splicing of a single gene gives rise to multiple isoforms of NDF/heregulin, as well as the neuronal homologues, designated ARIA (
acetylcholine receptor
inducing activity) and GGF (glial growth factor); at least 15 structural variants are known. All but two of the NDF/heregulin cDNAs are predicted to encode transmembrane, glycosylated precursors of soluble NDF. In this report we characterized the biosynthetic processing of different NDF isoforms in stably transfected Chinese hamster ovary cells expressing individual NDF isoforms, and in the native cell line Rat 1-EJ, which expresses at least six different NDF isoforms. We found that the precursors for NDF undergo typical glycosylation and trafficking. A portion of the molecules are proteolytically cleaved intracellularly leading to the constitutive secretion of soluble, mature NDF into the culture media. However, a significant portion of the newly synthesized NDF precursor molecules escape intracellular cleavage and are transported to the cell surface of both transfected and native cells, where they reside as full-length, transmembrane proteins. Finally we show that these full-length, transmembrane NDF molecules can undergo phorbol ester regulated cleavage from the membrane, releasing the soluble growth factor into the medium.
...
PMID:Biosynthetic processing of neu differentiation factor. Glycosylation trafficking, and regulated cleavage from the cell surface. 764 87
Motor neurons stimulate their postsynaptic muscle targets to synthesize neurotransmitter receptors. Polypeptide signaling molecules may mediate this inductive interaction. Here we report the purification of ARIA, a protein that stimulates the synthesis of muscle acetylcholine receptors, and the isolation of ARIA cDNA. Recombinant ARIA increases
acetylcholine receptor
synthesis greater than 3-fold, and it induces tyrosine phosphorylation of a 185 kd muscle protein. The ARIA cDNA hybridizes with mRNAs that are expressed in the spinal cord from E4, a time prior to the onset of neuromuscular synapse formation, through adulthood. By E7, hybridizing mRNAs are concentrated in motor neurons. Chicken ARIA is homologous to the rat Neu differentiation factor and human here-gulin, ligands for the receptor tyrosine kinase encoded by the
neu
(c-erbB2, HER2) proto-oncogene. Our data suggest that members of the ARIA protein family promote the formation and maintenance of chemical synapses and, furthermore, that receptor tyrosine kinases play important roles in this process.
...
PMID:ARIA, a protein that stimulates acetylcholine receptor synthesis, is a member of the neu ligand family. 845 70
Recently we identified three novel Schwann cell mitogens named GGF (glial growth factor)-I (34 kDa), GGF-II (59 kDa), and GGF-III (45 kDa), and provided evidence that they are three distinct but structurally related members of a larger family of factors, which includes heregulin, neu differentiation factor, and
acetylcholine receptor
-inducing activity (ARIA). We report here the characterization of the mitogenic and trophic activities for all three forms of GGF on rat Schwann cells and several other cell types. GGF-I, GGF-II, and GGF-III are potent mitogens for rat Schwann cells in vitro at nanomolar concentrations, whereas at lower concentrations they promote Schwann cell survival, in the absence of cAMP elevating agents. Forskolin, an adenylate cyclase activator, potently synergizes with the GGFs by an indirect mechanism, possibly involving transcriptional activation of GGF receptor(s). In addition, the GGFs stimulate DNA synthesis in rat glioma C6 cells, and in SK-BR-3 cells, which overexpress the p185
neu
/erbB2. Fibroblasts obtained from different sources are weakly stimulated by GGFs, whereas PC12 cells are unable to respond under a variety of experimental conditions. These observations are consistent with the proposal that GGF-I, GGF-II, and GGF-III are a set of potent glial cell mitogens and putative ligands of members of the EGF receptor family, namely p185
neu
/erbB2, p160/erbB3, and p180/erbB4, which may play important roles in the development, regeneration, and tumor biology of the peripheral nervous system.
...
PMID:Glial growth factors I-III are specific mitogens for glial cells. 898 98
Binding of heregulin (HRG) to its receptor, ErbB3, results in a dimerization with ErbB2/
neu
and activation of their intrinsic tyrosine kinases, initiating a cascade of events resulting in the stimulation of
acetylcholine receptor
(
AChR
) genes in muscle. Here we have examined the signalling downstream of the HRG receptor. We show that phosphatidylinositol 3'-kinase (PI3K) and SHC bind to the HRG-activated ErbB3 in myotubes. Subsequently, p70S6 kinase (p70S6k), and MAP kinase ERK2 and thereby p90rsk are activated. However, inhibition of PI3K and p70S6k by wortmannin and rapamycin, respectively, failed to antagonize
AChR
alpha-subunit gene expression stimulated by HRG, despite the fact that the activities of the kinases were inhibited. In contrast, these inhibitors elevated
AChR
alpha-subunit mRNA levels, by themselves, independently of muscle electrical activity. On the other hand, the 17mer antisense oligonucleotide, EAS1, caused a specific depletion of ERK2 and eliminated the ability of HRG to stimulate
AChR
alpha-subunit gene expression. These results indicate that HRG stimulates expression of
AChR
genes via ERK2 activation, and provide a physiological example of neurotrophic factor-associated repression of
AChR
genes by stimulation of p70S6k activity which may contribute to the expression of adult type
AChR
genes at the neuromuscular junction.
...
PMID:Heregulin-stimulated acetylcholine receptor gene expression in muscle: requirement for MAP kinase and evidence for a parallel inhibitory pathway independent of electrical activity. 904 1
The neuregulins were originally discovered in searches for the
acetylcholine receptor
-inducing activity (ARIA), glial growth factor (GGF), and a ligand for the oncogene
neu
(ErbB2/HER2). Neuregulin1 (NRG1)-mediated cell communication is critical in the central and peripheral nervous system, heart, breast, and other organ systems. This review will focus on the functions of NRG1s in the development and maintenance of the neuromuscular system and on the regulation of NRG1 signaling within this system. The roles of NRG1 signaling in the neuromuscular system are far more pervasive than contemplated when neuregulins were discovered 10 years ago. In fact, neuregulin-mediated cell communication plays an essential role in the biology of most components of the neuromuscular system--including motor and sensory neurons, muscle fibers, Schwann cells, and major specializations (neuromuscular synapses, muscle spindles, Golgi tendon organs, and peripheral nerves). It is argued here that while NRG1 proteins are indeed "ARIA" and "GGF", their involvement in regulating synapse-specific transcription and Schwann cell development is more complex than originally proposed. It is also argued that NRG1 isoforms differ in their signaling properties and that these differences tailor specific isoforms for specific signaling tasks; for example, some NRG1 isoforms may be specialized for paracrine signaling and others for juxtacrine signaling. In the first 10 years of neuregulin research there has been much progress in understanding the actions of neuregulins in shaping and maintaining the neuromuscular system. However, major questions, old and new, remain unanswered; and the second 10 years promises to be at least as exciting as the first.
...
PMID:Neuregulins and the neuromuscular system: 10 years of answers and questions. 1503 57
