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Wikipedia

Neuregulin 1

February 11, 2024

"NRG1" redirects here. For the drug sometimes sold as NRG-1, see Naphyrone.

Neuregulin 1, or NRG1, is a gene of the epidermal growth factor family that in humans is encoded by the NRG1 gene.[3][4] NRG1 is one of four proteins in the neuregulin family that act on the EGFR family of receptors. Neuregulin 1 is produced in numerous isoforms by alternative splicing, which allows it to perform a wide variety of functions. It is essential for the normal development of the nervous system and the heart.[5][6]

NRG1
Available structures
PDBHuman UniProt search: PDBe RCSB
Identifiers
AliasesNRG1, ARIA, GGF, GGF2, HGL, HRG, HRG1, HRGA, MST131, MSTP131, NDF, NRG1-IT2, SMDF, neuregulin 1
External IDsOMIM: 142445 HomoloGene: 8509 GeneCards: NRG1
Orthologs
SpeciesHumanMouse
Entrez

3084

n/a

Ensembl

ENSG00000157168

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UniProt

Q02297
Q7RTW3

n/a

RefSeq (mRNA)

n/a

RefSeq (protein)

n/a

Location (UCSC)Chr 8: 31.64 – 32.86 Mbn/a
PubMed search[2]n/a
Wikidata
View/Edit Human

Structure edit

Neuregulin 1 (NRG1) was originally identified as a 44-kD glycoprotein that interacts with the NEU/ERBB2 receptor tyrosine kinase to increase its phosphorylation on tyrosine residues. It is known that an extraordinary variety of different isoforms are produced from the NRG1 gene by alternative splicing. These isoforms include heregulins (HRGs), glial growth factors (GGFs) and sensory and motor neuron-derived factor (SMDF). They are tissue-specific and differ significantly in their structure. The HRG isoforms all contain immunoglobulin (Ig) and epidermal growth factor-like (EGF-like) domains. GGF and GGF2 isoforms contain a kringle-like sequence plus Ig and EGF-like domains; and the SMDF isoform shares only the EGF-like domain with other isoforms. The receptors for all NRG1 isoforms are the ERBB family of tyrosine kinase transmembrane receptors. Through their displayed interaction with ERBB receptors, NRG1 isoforms induce the growth and differentiation of epithelial, neuronal, glial, and other types of cells.[7]

Function edit

Synaptic plasticity edit

Neuregulin 1 is thought to play a role in synaptic plasticity. It has been shown that a loss of Neuregulin 1 within cortical projection neurons results in increased inhibitory connections and reduced synaptic plasticity.[8] Similarly, overexpression of Neuregulin 1 results in disrupted excitatory-inhibitory connections, reduced synaptic plasticity, and abnormal dendritic spine growth. Mutations in human L1 cell adhesion molecules are reported to cause a number of neuronal disorders. In addition, recent research in Drosophila model has also shown Nrg's involvement in regulating dendritic pruning in ddaC neurons in a Rab5/ESCRT-mediated endocytic pathway.[9] Thus, careful regulation of the amount of Neuregulin 1 must be maintained in order to preserve an intricate balance between excitatory and inhibitory connections within the central nervous system (CNS). Any disruption in this inhibitory system may contribute to impaired synaptic plasticity, a symptom endemic in schizophrenic patients.

Isoforms edit

At least six major types (different N termini) of neuregulin 1 are known.[10] Six types exist in humans and rodents (type I, II and III NRG1 are expressed in excitatory and inhibitory neurons, as well as astrocytes), and some types (I and IV) can be regulated by neuronal activity.[11]

type aliases
I Heregulin, NEU differentiation factor (NDF), or acetylcholine receptor inducing activity (ARIA)
II Glial Growth Factor-2 (GGF2)
III Sensory and motor neuron-derived factor (SMDF)
IV
V
VI

Clinical significance edit

Neuregulin 1-ErbB4 interactions are thought to play a role in the pathological mechanism of schizophrenia.[12][13] A high-risk deCODE (Icelandic) haplotype was discovered in 2002 on the 5'-end of the gene.[14] The SNP8NRG243177 allele from this haplotype was associated in 2006 with a heightened expression of the Type IV NRG1 in the brains of people suffering from schizophrenia.[15][16] Further, the NRG1-ErbB4 signalling complex has been highlighted as a potential target for new antipsychotic treatment.[17][18]

Additionally, Neuregulin 1 has been shown to modulate anxiety-like behaviors. Endogenous Neuregulin 1 may bind to its receptor, ErbB4, expressed on GABAergic neurons within the basolateral amygdala. Administration of exogenous Neuregulin 1 to the basolateral amygdala of anxious mice produced an anxiolytic effect, which has been attributed to the enhancement of GABAergic neurotransmission.[19] Thus, treatments aimed at reducing anxiety, which may contribute to emotional instability in many schizophrenic patients, by targeting the effects of mutations in NRG1 and ERBB4, may yield positive results for those afflicted by both anxiety disorders as well as schizophrenia.

Neuregulin has been shown to be involved in the myelination of central nervous system (CNS) axons.[20] There exist at least two modes of myelination within the CNS—one that is independent of neuronal activity and another that is promoted by the activation of NMDA receptors by glutamate on oligodendrocytes. Neuregulin is involved in the "switching" of oligodendrocytes from the mode of myelination that is independent of neuronal activity to the mode that is dependent upon glutamate binding to NMDA receptors. It is thought that Neuregulin 1 found on axons of CNS neurons interacts with its receptor, ErbB4, to promote the myelination of that axon, and any disruption in this signaling contributes to decreased myelination.[21] Since Neuregulin 1 promotes myelination and is decreased in schizophrenic patients, along with the finding that schizophrenic patients experience white matter deficits, mutations within Neuregulin 1 may underlie cognitive deficits associated with lower white matter integrity, especially within frontotemporal connections.

The protein also has the putative ability to protect the brain from damage induced by stroke.[22] Those with a genetic variant of neuregulin 1 tended to be more creative.[23]

There is evidence that NRG1 is a tumor suppressor gene.[24]

There is also strong evidence that NRG1 plays a critical role in Schwann cell maturation, survival, and motility,[25] important in research related to neurofibromatosis type two (NF2).[citation needed]

Heart edit

Neuregulin-1 (NRG-1), a cardioactive growth factor released from endothelial cells, is necessary for cardiac development, structural maintenance, and functional integrity of the heart. NRG-1 and its receptor family ErbB can play a beneficial role in the treatment of chronic heart failure (CHF) by promoting survival of cardiac myocytes, improving sarcomeric structure, balancing Ca2+ homeostasis, and enhancing pumping function. Downstream effectors of NRG-1/ErbB, include cardiac-specific myosin light chain kinase (cMLCK), Protein Phosphatase type 1 (PP1), sarcoplasmic reticulum Ca2+-ATPase 2 (SERCA2), and focal adhesion kinase (FAK). The beneficial effects of neuregulin-1 make recombinant human neuregulin-1 (rhNRG-1) a potential drug for treatment of CHF.[26]

Maintenance of heart structure edit

NRG-1 treatment of adult rat ventricular myocytes stimulate the formation of a multiprotein complex between ErbB2, FAK, and p130(CAS), which modulates the restoration of cell–cell contacts between isolated myocytes, allowing for synchronous beating.[27] Furthermore, FAK is also involved in the maintenance of sarcomeric organization, cell survival, and myocyte–myocyte interactions.[28] The sarcomeric effects of NRG-1 protects myocytes against structural disarray induced by stressors, including cytotoxic agents.[29]

Cardiomyocyte survival under stress edit

Under conditions of stress, including viral infection, cytotoxic agents, and oxidative stress, activation of NRG-1/ErbB signaling can protect myocardial cells against apoptosis.[27] In contrast to embryonic and neonatal cardiomyocytes, adult myocardial cells are terminally differentiated and have lost the ability to proliferate. Therefore, growth of adult cardiac cells is commonly characterized by hypertrophy and an increased content of contractile proteins.[30] However, studies have shown NRG-1 promotes myocardial regeneration through hyperplasia, and prevents hypertrophy surrounding infarcted areas.[31]

Restoration of cardiomyocytes edit

The cMLCK protein is an important regulator of sarcomere assembly through activation of the myosin regulatory light chain, as well as playing a role in heart contractility.[32][33] In contrast to smooth and skeletal muscle MLCKs, cMLCK expression is restricted to cardiac myocytes.[33] Overexpression of cMLCK increases cell contractility.[32] Treatment of cardiac myocytes with rhNRG-1 significantly upregulated cMLCK expression or activity??? in CHF rat models, together with an improvement in both cardiomyocyte structure and pumping function.[26] Therefore, cMLCK is a downstream protein regulated by NRG-1/ErbB signaling and plays a role in rhNRG-1-mediated improvements in CHF.

Improvements in cardiac efficiency edit

Altered calcium homeostasis has been suggested to play a role in the development of heart failure. Modulated by phospholamban (PLB), SERCA2 regulates uptake of Ca2+ into the sarcoplasmic reticulum (SR) from the cytoplasm and contributes to the relaxation of cardiomyocytes.[34] This process is also important for determining the SR Ca2+ load after relaxation and, thus, impacts on contractility.[34][35] PP1 dephosphorylates PLB, inhibiting SERCA2 activity.[36] In the failing heart, PP1 expression is upregulated, resulting in increased PLB dephosphorylation and decreased SERCA2 activity.[37] Preliminary studies have revealed that rhNRG-normalizes SERCA function and enhances myocardial contractility through the inhibition of increasedPP1 expression, which leads to increased PLB phosphorylation and activation of SERCA2.

Interactions edit

Neuregulin 1 has been shown to interact with ERBB3[38][39][40] and LIMK1.[41] A schizophrenia associated- missense mutation in Neuregulin 1 has been shown to be associated with changes in cytokine expression using lymphoblastoid cells of heterozygous carriers vs homozygous wild type individuals [42]

Specifically, the missense mutation involves a single nucleotide change of a valine to a leucine within the transmembrane domain of Type 3 Neuregulin 1. It is thought that this single nucleotide change affects the ability of γ-secretase to cleave the intracellular domain (ICD) of the Type 3 isoform of Neureglin 1.[43] That is, the valine to leucine mutation within the transmembrane domain of Type 3 Neuregulin 1 decreases the amount of ICD that γ-secretase is able to cleave. The ICD of Type 3 Neuregulin 1 has been shown to suppress transcription of inflammatory cytokines, including IL-1β, IL-6, IL-10, IL-8, IL12-p70, and TNF-α. Using recombinant ErbB4 to stimulate the cleavage of the intracellular domain of Type 3 Neuregulin 1, a receptor for Type 3 Neuregulin 1, Marballi et al. showed that increased levels of the ICD lead to a decrease in IL-6 levels. Given the involvement of Neuregulin 1 in schizophrenia and the finding that the valine to leucine missense mutation in mice produces working memory deficits,[44] NRG1 seems a likely genetic candidate that confers susceptibility to the development of schizophrenia.

References edit

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Further reading edit

  • Birchmeier C, Nave KA (Sep 2008). "(Review) Neuregulin-1, a key axonal signal that drives Schwann cell growth and differentiation". Glia. 56 (14): 1491–1497. doi:10.1002/glia.20753. PMID 18803318. S2CID 28972872.
  • Lupu R, Lippman ME (1994). "William L. McGuire Memorial Symposium. The role of erbB2 signal transduction pathways in human breast cancer". Breast Cancer Res. Treat. 27 (1–2): 83–93. doi:10.1007/BF00683195. PMID 7903175. S2CID 28386566.
  • Corfas G, Roy K, Buxbaum JD (2004). "Neuregulin 1-erbB signaling and the molecular/cellular basis of schizophrenia". Nat. Neurosci. 7 (6): 575–80. doi:10.1038/nn1258. PMID 15162166. S2CID 10692780.
  • Harrison PJ, Law AJ (2006). "Neuregulin 1 and schizophrenia: genetics, gene expression, and neurobiology". Biol. Psychiatry. 60 (2): 132–40. doi:10.1016/j.biopsych.2005.11.002. PMID 16442083. S2CID 3937383.
  • Munafò MR, Thiselton DL, Clark TG, Flint J (2006). "Association of the NRG1 gene and schizophrenia: a meta-analysis". Mol. Psychiatry. 11 (6): 539–46. doi:10.1038/sj.mp.4001817. PMID 16520822.

External links edit

  • Neuregulin-1 at the U.S. National Library of Medicine Medical Subject Headings (MeSH)
  • 'New way' to repair heart damage
  • NRG1 rs3924999, hypothetical major gene locus of general intelligence
  • Links from Schizophrenia Research Forum:
    • Neuregulin, ErbB4—Levels Normal but Signaling Strengthened in Schizophrenia - 18 June 2006.
    • Neuregulin and ErbB4 Mutant Mice Reveal Myelin and Synaptic Deficits - 2 May 2007.
    • - 30 October 2006.
    • Neuregulin, ErbB4 Drive Developmental Cell Fates
    • Neuregulin Partner ErbB4 Spices Up Genetic Associations - 17 February 2005
    • Polymorphisms and Schizophrenia—The Ups and Downs of Neuregulin Expression - 21 April 2006.
    • Neuregulin Studies Suggest Synaptic Deficits in Schizophrenia - 4 June 2007

This article incorporates text from the United States National Library of Medicine, which is in the public domain.

February 11, 2024
neuregulin, nrg1, redirects, here, drug, sometimes, sold, naphyrone, nrg1, gene, epidermal, growth, factor, family, that, humans, encoded, nrg1, gene, nrg1, four, proteins, neuregulin, family, that, egfr, family, receptors, produced, numerous, isoforms, altern. NRG1 redirects here For the drug sometimes sold as NRG 1 see Naphyrone Neuregulin 1 or NRG1 is a gene of the epidermal growth factor family that in humans is encoded by the NRG1 gene 3 4 NRG1 is one of four proteins in the neuregulin family that act on the EGFR family of receptors Neuregulin 1 is produced in numerous isoforms by alternative splicing which allows it to perform a wide variety of functions It is essential for the normal development of the nervous system and the heart 5 6 NRG1Available structuresPDBHuman UniProt search PDBe RCSBList of PDB id codes1HAE 1HAF 1HRE 1HRF 3U7UIdentifiersAliasesNRG1 ARIA GGF GGF2 HGL HRG HRG1 HRGA MST131 MSTP131 NDF NRG1 IT2 SMDF neuregulin 1External IDsOMIM 142445 HomoloGene 8509 GeneCards NRG1Gene location Human Chr Chromosome 8 human 1 Band8p12Start31 639 222 bp 1 End32 855 666 bp 1 RNA expression patternBgeeHumanMouse ortholog Top expressed inganglionic eminenceoocytesecondary oocytemonocytestromal cell of endometriumspinal gangliaendothelial cellponstrigeminal ganglionsural nerven aMore reference expression dataBioGPSMore reference expression dataGene ontologyMolecular functiontransmembrane receptor protein tyrosine kinase activator activity protein tyrosine kinase activator activity signaling receptor binding cytokine activity transcription coregulator activity growth factor activity protein binding chemorepellent activity receptor tyrosine kinase binding ErbB 2 class receptor binding protein tyrosine kinase activity phosphatidylinositol 4 5 bisphosphate 3 kinase activity ErbB 3 class receptor binding integrin bindingCellular componentcytoplasm membrane synapse extracellular region nucleus apical plasma membrane integral component of membrane neuromuscular junction plasma membrane axon cell body integral component of plasma membrane dendrite axolemma external side of plasma membrane nucleoplasm extracellular space glutamatergic synapse GABA ergic synapseBiological processcardiac conduction system development embryo development positive regulation of Ras protein signal transduction muscle organ development oligodendrocyte differentiation positive regulation of dendritic spine development mammary gland development axon ensheathment cell communication chemorepulsion involved in interneuron migration from the subpallium to the cortex positive regulation of cardiac muscle cell proliferation positive regulation of protein localization to cell surface positive regulation of striated muscle cell differentiation cell population proliferation locomotory behavior negative regulation of protein catabolic process transmembrane receptor protein tyrosine kinase signaling pathway cardiac muscle cell differentiation endocardial cell differentiation heart development positive regulation of cell growth cardiac muscle cell myoblast differentiation positive regulation of peptidyl tyrosine phosphorylation synapse assembly positive regulation of cardiac muscle cell differentiation positive regulation of axon extension peripheral nervous system development startle response regulation of protein heterodimerization activity wound healing glial cell differentiation nervous system development ventricular trabecula myocardium morphogenesis glial cell fate commitment negative regulation of cardiac muscle cell apoptotic process negative regulation of transcription DNA templated regulation of protein homodimerization activity neurotransmitter receptor metabolic process positive regulation of protein kinase activity negative regulation of neuron migration neurogenesis neural crest cell development MAPK cascade positive regulation of calcineurin NFAT signaling cascade positive regulation of myelination brain development negative regulation of secretion cell morphogenesis regulation of cell differentiation ventricular cardiac muscle cell differentiation positive regulation of phosphatidylinositol 3 kinase signaling neuron fate commitment negative regulation of extrinsic apoptotic signaling pathway in absence of ligand cell migration positive regulation of cell adhesion positive regulation of transcription by RNA polymerase II phosphatidylinositol phosphate biosynthetic process positive regulation of gene expression positive regulation of cell population proliferation ERBB signaling pathway activation of protein kinase B activity regulation of cell motility peptidyl tyrosine phosphorylation positive regulation of protein tyrosine kinase activity ERBB2 signaling pathway activation of transmembrane receptor protein tyrosine kinase activity cardiac muscle tissue development ERBB3 signaling pathway regulation of signaling receptor activity positive regulation of protein kinase B signaling ERBB4 signaling pathway positive regulation of peptidyl tyrosine autophosphorylation myelination in peripheral nervous system intracellular signal transduction postsynapse to nucleus signaling pathwaySources Amigo QuickGOOrthologsSpeciesHumanMouseEntrez3084n aEnsemblENSG00000157168n aUniProtQ02297Q7RTW3n aRefSeq mRNA NM 001159995NM 001159996NM 001159999NM 001160001NM 001160002NM 001160004NM 001160005NM 001160007NM 001160008NM 004495NM 013956NM 013957NM 013958NM 013959NM 013960NM 013962NM 013964NM 001322197NM 001322201NM 001322202NM 001322205NM 001322206NM 001322207n aRefSeq protein NP 001153467NP 001153468NP 001153471NP 001153473NP 001153474NP 001153476NP 001153477NP 001153479NP 001153480NP 001309126NP 001309130NP 001309131NP 001309134NP 001309135NP 001309136NP 004486NP 039250NP 039251NP 039252NP 039253NP 039254NP 039256NP 039258NP 039251 2NP 001153471 1NP 001309130 1n aLocation UCSC Chr 8 31 64 32 86 Mbn aPubMed search 2 n aWikidataView Edit Human Contents 1 Structure 2 Function 2 1 Synaptic plasticity 3 Isoforms 4 Clinical significance 4 1 Heart 4 2 Maintenance of heart structure 4 3 Cardiomyocyte survival under stress 4 4 Restoration of cardiomyocytes 4 5 Improvements in cardiac efficiency 5 Interactions 6 References 7 Further reading 8 External linksStructure editNeuregulin 1 NRG1 was originally identified as a 44 kD glycoprotein that interacts with the NEU ERBB2 receptor tyrosine kinase to increase its phosphorylation on tyrosine residues It is known that an extraordinary variety of different isoforms are produced from the NRG1 gene by alternative splicing These isoforms include heregulins HRGs glial growth factors GGFs and sensory and motor neuron derived factor SMDF They are tissue specific and differ significantly in their structure The HRG isoforms all contain immunoglobulin Ig and epidermal growth factor like EGF like domains GGF and GGF2 isoforms contain a kringle like sequence plus Ig and EGF like domains and the SMDF isoform shares only the EGF like domain with other isoforms The receptors for all NRG1 isoforms are the ERBB family of tyrosine kinase transmembrane receptors Through their displayed interaction with ERBB receptors NRG1 isoforms induce the growth and differentiation of epithelial neuronal glial and other types of cells 7 Function editSynaptic plasticity edit Neuregulin 1 is thought to play a role in synaptic plasticity It has been shown that a loss of Neuregulin 1 within cortical projection neurons results in increased inhibitory connections and reduced synaptic plasticity 8 Similarly overexpression of Neuregulin 1 results in disrupted excitatory inhibitory connections reduced synaptic plasticity and abnormal dendritic spine growth Mutations in human L1 cell adhesion molecules are reported to cause a number of neuronal disorders In addition recent research in Drosophila model has also shown Nrg s involvement in regulating dendritic pruning in ddaC neurons in a Rab5 ESCRT mediated endocytic pathway 9 Thus careful regulation of the amount of Neuregulin 1 must be maintained in order to preserve an intricate balance between excitatory and inhibitory connections within the central nervous system CNS Any disruption in this inhibitory system may contribute to impaired synaptic plasticity a symptom endemic in schizophrenic patients Isoforms editAt least six major types different N termini of neuregulin 1 are known 10 Six types exist in humans and rodents type I II and III NRG1 are expressed in excitatory and inhibitory neurons as well as astrocytes and some types I and IV can be regulated by neuronal activity 11 type aliasesI Heregulin NEU differentiation factor NDF or acetylcholine receptor inducing activity ARIA II Glial Growth Factor 2 GGF2 III Sensory and motor neuron derived factor SMDF IVVVIClinical significance editNeuregulin 1 ErbB4 interactions are thought to play a role in the pathological mechanism of schizophrenia 12 13 A high risk deCODE Icelandic haplotype was discovered in 2002 on the 5 end of the gene 14 The SNP8NRG243177 allele from this haplotype was associated in 2006 with a heightened expression of the Type IV NRG1 in the brains of people suffering from schizophrenia 15 16 Further the NRG1 ErbB4 signalling complex has been highlighted as a potential target for new antipsychotic treatment 17 18 Additionally Neuregulin 1 has been shown to modulate anxiety like behaviors Endogenous Neuregulin 1 may bind to its receptor ErbB4 expressed on GABAergic neurons within the basolateral amygdala Administration of exogenous Neuregulin 1 to the basolateral amygdala of anxious mice produced an anxiolytic effect which has been attributed to the enhancement of GABAergic neurotransmission 19 Thus treatments aimed at reducing anxiety which may contribute to emotional instability in many schizophrenic patients by targeting the effects of mutations in NRG1 and ERBB4 may yield positive results for those afflicted by both anxiety disorders as well as schizophrenia Neuregulin has been shown to be involved in the myelination of central nervous system CNS axons 20 There exist at least two modes of myelination within the CNS one that is independent of neuronal activity and another that is promoted by the activation of NMDA receptors by glutamate on oligodendrocytes Neuregulin is involved in the switching of oligodendrocytes from the mode of myelination that is independent of neuronal activity to the mode that is dependent upon glutamate binding to NMDA receptors It is thought that Neuregulin 1 found on axons of CNS neurons interacts with its receptor ErbB4 to promote the myelination of that axon and any disruption in this signaling contributes to decreased myelination 21 Since Neuregulin 1 promotes myelination and is decreased in schizophrenic patients along with the finding that schizophrenic patients experience white matter deficits mutations within Neuregulin 1 may underlie cognitive deficits associated with lower white matter integrity especially within frontotemporal connections The protein also has the putative ability to protect the brain from damage induced by stroke 22 Those with a genetic variant of neuregulin 1 tended to be more creative 23 There is evidence that NRG1 is a tumor suppressor gene 24 There is also strong evidence that NRG1 plays a critical role in Schwann cell maturation survival and motility 25 important in research related to neurofibromatosis type two NF2 citation needed Heart edit Neuregulin 1 NRG 1 a cardioactive growth factor released from endothelial cells is necessary for cardiac development structural maintenance and functional integrity of the heart NRG 1 and its receptor family ErbB can play a beneficial role in the treatment of chronic heart failure CHF by promoting survival of cardiac myocytes improving sarcomeric structure balancing Ca2 homeostasis and enhancing pumping function Downstream effectors of NRG 1 ErbB include cardiac specific myosin light chain kinase cMLCK Protein Phosphatase type 1 PP1 sarcoplasmic reticulum Ca2 ATPase 2 SERCA2 and focal adhesion kinase FAK The beneficial effects of neuregulin 1 make recombinant human neuregulin 1 rhNRG 1 a potential drug for treatment of CHF 26 Maintenance of heart structure edit NRG 1 treatment of adult rat ventricular myocytes stimulate the formation of a multiprotein complex between ErbB2 FAK and p130 CAS which modulates the restoration of cell cell contacts between isolated myocytes allowing for synchronous beating 27 Furthermore FAK is also involved in the maintenance of sarcomeric organization cell survival and myocyte myocyte interactions 28 The sarcomeric effects of NRG 1 protects myocytes against structural disarray induced by stressors including cytotoxic agents 29 Cardiomyocyte survival under stress edit Under conditions of stress including viral infection cytotoxic agents and oxidative stress activation of NRG 1 ErbB signaling can protect myocardial cells against apoptosis 27 In contrast to embryonic and neonatal cardiomyocytes adult myocardial cells are terminally differentiated and have lost the ability to proliferate Therefore growth of adult cardiac cells is commonly characterized by hypertrophy and an increased content of contractile proteins 30 However studies have shown NRG 1 promotes myocardial regeneration through hyperplasia and prevents hypertrophy surrounding infarcted areas 31 Restoration of cardiomyocytes edit The cMLCK protein is an important regulator of sarcomere assembly through activation of the myosin regulatory light chain as well as playing a role in heart contractility 32 33 In contrast to smooth and skeletal muscle MLCKs cMLCK expression is restricted to cardiac myocytes 33 Overexpression of cMLCK increases cell contractility 32 Treatment of cardiac myocytes with rhNRG 1 significantly upregulated cMLCK expression or activity in CHF rat models together with an improvement in both cardiomyocyte structure and pumping function 26 Therefore cMLCK is a downstream protein regulated by NRG 1 ErbB signaling and plays a role in rhNRG 1 mediated improvements in CHF Improvements in cardiac efficiency edit Altered calcium homeostasis has been suggested to play a role in the development of heart failure Modulated by phospholamban PLB SERCA2 regulates uptake of Ca2 into the sarcoplasmic reticulum SR from the cytoplasm and contributes to the relaxation of cardiomyocytes 34 This process is also important for determining the SR Ca2 load after relaxation and thus impacts on contractility 34 35 PP1 dephosphorylates PLB inhibiting SERCA2 activity 36 In the failing heart PP1 expression is upregulated resulting in increased PLB dephosphorylation and decreased SERCA2 activity 37 Preliminary studies have revealed that rhNRG normalizes SERCA function and enhances myocardial contractility through the inhibition of increasedPP1 expression which leads to increased PLB phosphorylation and activation of SERCA2 Interactions editNeuregulin 1 has been shown to interact with ERBB3 38 39 40 and LIMK1 41 A schizophrenia associated missense mutation in Neuregulin 1 has been shown to be associated with changes in cytokine expression using lymphoblastoid cells of heterozygous carriers vs homozygous wild type individuals 42 Specifically the missense mutation involves a single nucleotide change of a valine to a leucine within the transmembrane domain of Type 3 Neuregulin 1 It is thought that this single nucleotide change affects the ability of g secretase to cleave the intracellular domain ICD of the Type 3 isoform of Neureglin 1 43 That is the valine to leucine mutation within the transmembrane domain of Type 3 Neuregulin 1 decreases the amount of ICD that g secretase is able to cleave The ICD of Type 3 Neuregulin 1 has been shown to suppress transcription of inflammatory cytokines including IL 1b IL 6 IL 10 IL 8 IL12 p70 and TNF a Using recombinant ErbB4 to stimulate the cleavage of the intracellular domain of Type 3 Neuregulin 1 a receptor for Type 3 Neuregulin 1 Marballi et al showed that increased levels of the ICD lead to a decrease in IL 6 levels Given the involvement of Neuregulin 1 in schizophrenia and the finding that the valine to leucine missense mutation in mice produces working memory deficits 44 NRG1 seems a likely genetic candidate that confers susceptibility to the development of schizophrenia References edit a b c GRCh38 Ensembl release 89 ENSG00000157168 Ensembl May 2017 Human PubMed Reference National Center for Biotechnology Information U S National Library of Medicine Holmes WE Sliwkowski MX Akita RW Henzel WJ Lee J Park JW Yansura D Abadi N Raab H Lewis GD May 1992 Identification of heregulin a specific activator of p185erbB2 Science 256 5060 1205 10 Bibcode 1992Sci 256 1205H doi 10 1126 science 256 5060 1205 PMID 1350381 S2CID 32783956 Orr Urtreger A Trakhtenbrot L Ben Levy R Wen D Rechavi G Lonai P Yarden Y March 1993 Neural expression and chromosomal mapping of Neu differentiation factor to 8p12 p21 Proc Natl Acad Sci U S A 90 5 1867 71 Bibcode 1993PNAS 90 1867O doi 10 1073 pnas 90 5 1867 PMC 45981 PMID 8095334 Britsch S 2007 Introduction Molecular Control of Development The Neuregulin I ErbB Signaling System in Development and Disease Advances in Anatomy Embryology and Cell Biology Vol 190 pp 1 65 doi 10 1007 978 3 540 37107 6 1 ISBN 978 3 540 37105 2 PMID 17432114 Talmage DA 2008 Mechanisms of neuregulin action Growth Factors and Psychiatric Disorders Novartis Foundation Symposia Vol 289 pp 74 84 discussion 84 93 doi 10 1002 9780470751251 ch6 ISBN 9780470751251 PMC 2621364 PMID 18497096 Entrez Gene NRG1 Neuregulin 1 Agarwal A Zhang M Trembak Duff I Unterbarnscheidt T Radyushkin K Dibaj P Martins de Souza D Boretius S Brzozka MM Steffens H Berning S Teng Z Gummert MN Tantra M Guest PC Willig KI Frahm J Hell SW Bahn S Rossner MJ Nave KA Ehrenreich H Zhang W Schwab MH 2014 Dysregulated expression of neuregulin 1 by cortical pyramidal neurons disrupts synaptic plasticity Cell Reports 8 4 1130 45 doi 10 1016 j celrep 2014 07 026 hdl 11858 00 001M 0000 0023 EC12 1 PMID 25131210 Zhang Heng Wang Yan Wong Jack Jing Lin Lim Kah Leong Liou Yih Cherng Wang Hongyan Yu Fengwei 2014 08 25 Endocytic pathways downregulate the L1 type cell adhesion molecule neuroglian to promote dendrite pruning in Drosophila Developmental Cell 30 4 463 478 doi 10 1016 j devcel 2014 06 014 ISSN 1878 1551 PMID 25158855 Steinthorsdottir V Stefansson H Ghosh S Birgisdottir B Bjornsdottir S Fasquel AC Olafsson O Stefansson K Gulcher JR November 2004 Multiple novel transcription initiation sites for NRG1 Gene 342 1 97 105 doi 10 1016 j gene 2004 07 029 PMID 15527969 Liu X Bates R Yin DM Shen C Wang F Su N Kirov SA Luo Y Wang JZ Xiong WC Mei L June 2011 Specific Regulation of NRG1 Isoform Expression by Neuronal Activity J Neurosci 31 23 8491 501 doi 10 1523 JNEUROSCI 5317 10 2011 PMC 3154699 PMID 21653853 Li D Collier DA He L June 2006 Meta analysis shows strong positive association of the neuregulin 1 NRG1 gene with schizophrenia Hum Mol Genet 15 12 1995 2002 doi 10 1093 hmg ddl122 PMID 16687441 Gene Overview of All Published Schizophrenia Association Studies for NRG1 Archived 2007 09 27 at the Wayback Machine SchizophreniaGene database Schizophrenia Research Forum Stefansson H Sigurdsson E Steinthorsdottir V Bjornsdottir S Sigmundsson T Ghosh S Brynjolfsson J Gunnarsdottir S Ivarsson O Chou TT Hjaltason O Birgisdottir B Jonsson H Gudnadottir VG Gudmundsdottir E Bjornsson A Ingvarsson B Ingason A Sigfusson S Hardardottir H Harvey RP Lai D Zhou M Brunner D Mutel V Gonzalo A Lemke G Sainz J Johannesson G Andresson T Gudbjartsson D Manolescu A Frigge ML Gurney ME Kong A Gulcher JR Petursson H Stefansson K October 2002 Neuregulin 1 and susceptibility to schizophrenia Am J Hum Genet 71 4 877 92 doi 10 1086 342734 PMC 378543 PMID 12145742 Law AJ Lipska BK Weickert CS Hyde TM Straub RE Hashimoto R Harrison PJ Kleinman JE Weinberger DR April 2006 Neuregulin 1 transcripts are differentially expressed in schizophrenia and regulated by 5 SNPs associated with the disease Proc Natl Acad Sci U S A 103 17 6747 52 Bibcode 2006PNAS 103 6747L doi 10 1073 pnas 0602002103 PMC 1458952 PMID 16618933 Hall J Whalley HC Job DE Baig BJ McIntosh AM Evans KL Thomson PA Porteous DJ Cunningham Owens DG Johnstone EC Lawrie SM December 2006 A neuregulin 1 variant associated with abnormal cortical function and psychotic symptoms Nat Neurosci 9 12 1477 8 doi 10 1038 nn1795 PMID 17072305 S2CID 10338687 Deng C Pan B Engel M Huang XF February 2013 Neuregulin 1 signalling and antipsychotic treatment Potential therapeutic targets in a schizophrenia candidate signalling pathway Psychopharmacology 226 2 201 15 doi 10 1007 s00213 013 3003 2 PMID 23389757 S2CID 164430 Engel M Snikeris P Jenner A Karl T Huang X Frank E 26 December 2014 Neuregulin 1 prevents phencyclidine induced behavioral impairments and disruptions to GABAergic signaling in mice International Journal of Neuropsychopharmacology 18 7 pyu114 doi 10 1093 ijnp pyu114 PMC 4540095 PMID 26478928 Bi LL Sun XD Zhang J Lu YS Chen YH Wang J Geng F Liu F Zhang M Liu JH Li XW Mei L Gao TM 2014 Amygdala NRG1 ErbB4 is Critical for the Modulation of Anxiety Like Behaviors Neuropsychopharmacology 40 4 974 86 doi 10 1038 npp 2014 274 PMC 4330511 PMID 25308353 Lundgaard I Luzhynskaya A Stockley JH Wang Z Evans KA Swire M Volbracht K Gautier HO Franklin RJ Attwell D Karadottir RT 2013 Neuregulin and BDNF induce a switch to NMDA receptor dependent myelination by oligodendrocytes PLOS Biology 11 12 e1001743 doi 10 1371 journal pbio 1001743 PMC 3876980 PMID 24391468 Taveggia C Thaker P Petrylak A Caporaso GL Toews A Falls DL Einheber S Salzer JL 2008 Type III neuregulin 1 promotes oligodendrocyte myelination Glia 56 3 284 93 doi 10 1002 glia 20612 PMID 18080294 S2CID 26539423 Xu Z Croslan DR Harris AE Ford GD Ford BD 2006 Extended therapeutic window and functional recovery after intraarterial administration of neuregulin 1 after focal ischemic stroke J Cereb Blood Flow Metab 26 4 527 35 doi 10 1038 sj jcbfm 9600212 PMID 16136057 Keri S September 2009 Genes for psychosis and creativity a promoter polymorphism of the neuregulin 1 gene is related to creativity in people with high intellectual achievement Psychol Sci 20 9 1070 3 CiteSeerX 10 1 1 676 9620 doi 10 1111 j 1467 9280 2009 02398 x PMID 19594860 S2CID 5266072 Luke McKinney October 2 2009 Does Genius Have a Genetic Advantage Experts Say Yes With Slight Psychotic Side Effects The Daily Galaxy Archived from the original on 2009 10 04 Chua YL Ito Y Pole JC Newman S Chin SF Stein RC Ellis IO Caldas C O Hare MJ Murrell A Edwards PA October 2009 The NRG1 gene is frequently silenced by methylation in breast cancers and is a strong candidate for the 8p tumour suppressor gene Oncogene 28 46 4041 52 doi 10 1038 onc 2009 259 PMC 2789334 PMID 19802002 Freidin M Asche S Bargiello TA Bennett MV Abrams CK March 2009 Connexin 32 increases the proliferative response of Schwann cells to neuregulin 1 Nrg1 Proc Natl Acad Sci U S A 106 9 3567 72 Bibcode 2009PNAS 106 3567F doi 10 1073 pnas 0813413106 PMC 2651262 PMID 19218461 a b Xu Y Li X Liu X Zhou M 2010 Neuregulin 1 ErbB Signaling and Chronic Heart Failure Cardiovascular Pharmacology Heart and Circulation Advances in Pharmacology Vol 59 pp 31 51 doi 10 1016 S1054 3589 10 59002 1 ISBN 9780123849038 PMID 20933198 a b Kuramochi Y Cote GM Guo X Lebrasseur NK Cui L Liao R Sawyer DB December 2004 Cardiac endothelial cells regulate reactive oxygen species induced cardiomyocyte apoptosis through neuregulin 1beta erbB4 signaling J Biol Chem 279 49 51141 7 doi 10 1074 jbc M408662200 PMID 15385548 Boateng SY Lateef SS Mosley W Hartman TJ Hanley L Russell B January 2005 RGD and YIGSR synthetic peptides facilitate cellular adhesion identical to that of laminin and fibronectin but alter the physiology of neonatal cardiac myocytes Am J Physiol Cell Physiol 288 1 C30 8 doi 10 1152 ajpcell 00199 2004 PMID 15371257 Sawyer DB Zuppinger C Miller TA Eppenberger HM Suter TM April 2002 Modulation of anthracycline induced myofibrillar disarray in rat ventricular myocytes by neuregulin 1beta and anti erbB2 potential mechanism for trastuzumab induced cardiotoxicity Circulation 105 13 1551 4 doi 10 1161 01 CIR 0000013839 41224 1C PMID 11927521 Chien KR Knowlton KU Zhu H Chien S December 1991 Regulation of cardiac gene expression during myocardial growth and hypertrophy molecular studies of an adaptive physiologic response FASEB J 5 15 3037 46 doi 10 1096 fasebj 5 15 1835945 PMID 1835945 S2CID 10821865 Bersell K Arab S Haring B Kuhn B July 2009 Neuregulin1 ErbB4 signaling induces cardiomyocyte proliferation and repair of heart injury Cell 138 2 257 70 doi 10 1016 j cell 2009 04 060 PMID 19632177 S2CID 14202454 a b Chan JY Takeda M Briggs LE Graham ML Lu JT Horikoshi N Weinberg EO Aoki H Sato N Chien KR Kasahara H March 2008 Identification of cardiac specific myosin light chain kinase Circ Res 102 5 571 80 doi 10 1161 CIRCRESAHA 107 161687 PMC 2504503 PMID 18202317 a b Seguchi O Takashima S Yamazaki S Asakura M Asano Y Shintani Y Wakeno M Minamino T Kondo H Furukawa H Nakamaru K Naito A Takahashi T Ohtsuka T Kawakami K Isomura T Kitamura S Tomoike H Mochizuki N Kitakaze M October 2007 A cardiac myosin light chain kinase regulates sarcomere assembly in the vertebrate heart J Clin Invest 117 10 2812 24 doi 10 1172 JCI30804 PMC 1978424 PMID 17885681 a b Bassani JW Yuan W Bers DM May 1995 Fractional SR Ca release is regulated by trigger Ca and SR Ca content in cardiac myocytes Am J Physiol 268 5 Pt 1 C1313 9 doi 10 1152 ajpcell 1995 268 5 C1313 PMID 7762626 Verboomen H Wuytack F De Smedt H Himpens B Casteels R September 1992 Functional difference between SERCA2a and SERCA2b Ca2 pumps and their modulation by phospholamban Biochem J 286 Pt 2 591 5 doi 10 1042 bj2860591 PMC 1132938 PMID 1326945 MacDougall LK Jones LR Cohen P March 1991 Identification of the major protein phosphatases in mammalian cardiac muscle which dephosphorylate phospholamban Eur J Biochem 196 3 725 34 doi 10 1111 j 1432 1033 1991 tb15871 x PMID 1849481 El Armouche A Rau T Zolk O Ditz D Pamminger T Zimmermann WH Jackel E Harding SE Boknik P Neumann J Eschenhagen T March 2003 Evidence for protein phosphatase inhibitor 1 playing an amplifier role in beta adrenergic signaling in cardiac myocytes FASEB J 17 3 437 9 doi 10 1096 fj 02 0057fje PMID 12514122 S2CID 17139423 Singer E Landgraf R Horan T Slamon D Eisenberg D November 2001 Identification of a heregulin binding site in HER3 extracellular domain J Biol Chem 276 47 44266 74 doi 10 1074 jbc M105428200 PMID 11555649 Horan T Wen J Arakawa T Liu N Brankow D Hu S Ratzkin B Philo JS October 1995 Binding of Neu differentiation factor with the extracellular domain of Her2 and Her3 J Biol Chem 270 41 24604 8 doi 10 1074 jbc 270 41 24604 PMID 7592681 Carraway KL Weber JL Unger MJ Ledesma J Yu N Gassmann M Lai C May 1997 Neuregulin 2 a new ligand of ErbB3 ErbB4 receptor tyrosine kinases Nature 387 6632 512 6 Bibcode 1997Natur 387R 512C doi 10 1038 387512a0 PMID 9168115 S2CID 4310136 Wang JY Frenzel KE Wen D Falls DL August 1998 Transmembrane neuregulins interact with LIM kinase 1 a cytoplasmic protein kinase implicated in development of visuospatial cognition J Biol Chem 273 32 20525 34 doi 10 1074 jbc 273 32 20525 PMID 9685409 Marballi K Quinones MP Jimenez F Escamilla MA Raventos H Soto Bernardini MC Ahuja SS Walss Bass C November 2010 In vivo and in vitro genetic evidence of involvement of neuregulin 1 in immune system dysregulation Journal of Molecular Medicine 88 11 1133 41 doi 10 1007 s00109 010 0653 y PMC 2976656 PMID 20625696 Marballi K Quinones MP Jimenez F Escamilla MA Raventos H Soto Bernardini MC Ahuja SS Walss Bass C 2010 In vivo and in vitro genetic evidence of involvement of neuregulin 1 in immune system dysregulation Journal of Molecular Medicine 88 11 1133 41 doi 10 1007 s00109 010 0653 y PMC 2976656 PMID 20625696 Dejaegere T Serneels L Schafer MK Van Biervliet J Horre K Depboylu C Alvarez Fischer D Herreman A Willem M Haass C Hoglinger GU D Hooge R De Strooper B 2008 Deficiency of Aph1B C gamma secretase disturbs Nrg1 cleavage and sensorimotor gating that can be reversed with antipsychotic treatment Proceedings of the National Academy of Sciences 105 28 9775 80 Bibcode 2008PNAS 105 9775D doi 10 1073 pnas 0800507105 PMC 2474502 PMID 18626010 Further reading editBirchmeier C Nave KA Sep 2008 Review Neuregulin 1 a key axonal signal that drives Schwann cell growth and differentiation Glia 56 14 1491 1497 doi 10 1002 glia 20753 PMID 18803318 S2CID 28972872 Lupu R Lippman ME 1994 William L McGuire Memorial Symposium The role of erbB2 signal transduction pathways in human breast cancer Breast Cancer Res Treat 27 1 2 83 93 doi 10 1007 BF00683195 PMID 7903175 S2CID 28386566 Corfas G Roy K Buxbaum JD 2004 Neuregulin 1 erbB signaling and the molecular cellular basis of schizophrenia Nat Neurosci 7 6 575 80 doi 10 1038 nn1258 PMID 15162166 S2CID 10692780 Harrison PJ Law AJ 2006 Neuregulin 1 and schizophrenia genetics gene expression and neurobiology Biol Psychiatry 60 2 132 40 doi 10 1016 j biopsych 2005 11 002 PMID 16442083 S2CID 3937383 Munafo MR Thiselton DL Clark TG Flint J 2006 Association of the NRG1 gene and schizophrenia a meta analysis Mol Psychiatry 11 6 539 46 doi 10 1038 sj mp 4001817 PMID 16520822 External links editNeuregulin 1 at the U S National Library of Medicine Medical Subject Headings MeSH New way to repair heart damage NRG1 rs3924999 hypothetical major gene locus of general intelligence Links from Schizophrenia Research Forum Neuregulin ErbB4 Levels Normal but Signaling Strengthened in Schizophrenia 18 June 2006 Neuregulin and ErbB4 Mutant Mice Reveal Myelin and Synaptic Deficits 2 May 2007 Functional Neuregulin Variant Linked to Psychosis Abnormal Brain Activation and IQ 30 October 2006 Neuregulin ErbB4 Drive Developmental Cell Fates Neuregulin Partner ErbB4 Spices Up Genetic Associations 17 February 2005 Polymorphisms and Schizophrenia The Ups and Downs of Neuregulin Expression 21 April 2006 Neuregulin Studies Suggest Synaptic Deficits in Schizophrenia 4 June 2007This article incorporates text from the United States National Library of Medicine which is in the public domain Retrieved from https en wikipedia org w index php title Neuregulin 1 amp oldid 1193538928, wikipedia, wiki, book, books, library,

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