Tyrosine kinase 2 is not limiting human antiviral type III interferon responses

Tyrosine kinase 2 (TYK2) associates with interferon (IFN) alpha receptor, IL‐10 receptor (IL‐10R) beta and other cytokine receptor subunits for signal transduction, in response to various cytokines, including type‐I and type‐III IFNs, IL‐6, IL‐10, IL‐12 and IL‐23. Data on TYK2 dependence on cytokine...

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Veröffentlicht in:	European journal of immunology 2016-11, Vol.46 (11), p.2639-2649
Hauptverfasser:	Fuchs, Sebastian, Kaiser‐Labusch, Petra, Bank, Julia, Ammann, Sandra, Kolb‐Kokocinski, Anja, Edelbusch, Christine, Omran, Heymut, Ehl, Stephan
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Cell Line Child Disease Susceptibility - immunology Disease Susceptibility - virology Eczema - etiology Eczema - immunology HAP1 cells · IFN‐lambda · Immunodeficiencies · NK cells · TYK2 · VSV‐GFP Humans Immunoglobulin E - blood Interferon-gamma - immunology Interferon-gamma - metabolism Interferons - immunology Interleukin-10 - genetics Interleukin-10 - immunology Interleukin-6 - genetics Interleukin-6 - immunology Job Syndrome - immunology Killer Cells, Natural - immunology Mice Mutation Mycobacterium Receptors, Cytokine - immunology Receptors, Interleukin-10 - genetics Receptors, Interleukin-10 - immunology Signal Transduction - immunology Skin - pathology TYK2 Kinase - deficiency TYK2 Kinase - genetics TYK2 Kinase - immunology TYK2 Kinase - metabolism
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container_title	European journal of immunology
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creator	Fuchs, Sebastian Kaiser‐Labusch, Petra Bank, Julia Ammann, Sandra Kolb‐Kokocinski, Anja Edelbusch, Christine Omran, Heymut Ehl, Stephan
description	Tyrosine kinase 2 (TYK2) associates with interferon (IFN) alpha receptor, IL‐10 receptor (IL‐10R) beta and other cytokine receptor subunits for signal transduction, in response to various cytokines, including type‐I and type‐III IFNs, IL‐6, IL‐10, IL‐12 and IL‐23. Data on TYK2 dependence on cytokine responses and in vivo consequences of TYK2 deficiency are inconsistent. We investigated a TYK2 deficient patient, presenting with eczema, skin abscesses, respiratory infections and IgE levels >1000 U/mL, without viral or mycobacterial infections and a corresponding cellular model to analyze the role of TYK2 in type‐III IFN mediated responses and NK‐cell function. We established a novel simple diagnostic monocyte assay to show that the mutation completely abolishes the IFN‐α mediated antiviral response. It also partly reduces IL‐10 but not IL‐6 mediated signaling associated with reduced IL‐10Rβ expression. However, we found almost normal type‐III IFN signaling associated with minimal impairment of virus control in a TYK2 deficient human cell line. Contrary to observations in TYK2 deficient mice, NK‐cell phenotype and function, including IL‐12/IL‐18 mediated responses, were normal in the patient. Thus, preserved type‐III IFN responses and normal NK‐cell function may contribute to antiviral protection in TYK2 deficiency leading to a surprisingly mild human phenotype. IFN‐λ mediated signal transduction is functionally retained in TYK2 deficient human cell lines. This, together with functional NK cell responses in vitro, might account for the absence of severe viral infections in patients with TYK2 deficiency despite the lack of IFN‐α mediated signal transduction.
doi_str_mv	10.1002/eji.201646519
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Data on TYK2 dependence on cytokine responses and in vivo consequences of TYK2 deficiency are inconsistent. We investigated a TYK2 deficient patient, presenting with eczema, skin abscesses, respiratory infections and IgE levels >1000 U/mL, without viral or mycobacterial infections and a corresponding cellular model to analyze the role of TYK2 in type‐III IFN mediated responses and NK‐cell function. We established a novel simple diagnostic monocyte assay to show that the mutation completely abolishes the IFN‐α mediated antiviral response. It also partly reduces IL‐10 but not IL‐6 mediated signaling associated with reduced IL‐10Rβ expression. However, we found almost normal type‐III IFN signaling associated with minimal impairment of virus control in a TYK2 deficient human cell line. Contrary to observations in TYK2 deficient mice, NK‐cell phenotype and function, including IL‐12/IL‐18 mediated responses, were normal in the patient. Thus, preserved type‐III IFN responses and normal NK‐cell function may contribute to antiviral protection in TYK2 deficiency leading to a surprisingly mild human phenotype. IFN‐λ mediated signal transduction is functionally retained in TYK2 deficient human cell lines. 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Data on TYK2 dependence on cytokine responses and in vivo consequences of TYK2 deficiency are inconsistent. We investigated a TYK2 deficient patient, presenting with eczema, skin abscesses, respiratory infections and IgE levels >1000 U/mL, without viral or mycobacterial infections and a corresponding cellular model to analyze the role of TYK2 in type‐III IFN mediated responses and NK‐cell function. We established a novel simple diagnostic monocyte assay to show that the mutation completely abolishes the IFN‐α mediated antiviral response. It also partly reduces IL‐10 but not IL‐6 mediated signaling associated with reduced IL‐10Rβ expression. However, we found almost normal type‐III IFN signaling associated with minimal impairment of virus control in a TYK2 deficient human cell line. Contrary to observations in TYK2 deficient mice, NK‐cell phenotype and function, including IL‐12/IL‐18 mediated responses, were normal in the patient. Thus, preserved type‐III IFN responses and normal NK‐cell function may contribute to antiviral protection in TYK2 deficiency leading to a surprisingly mild human phenotype. IFN‐λ mediated signal transduction is functionally retained in TYK2 deficient human cell lines. 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Data on TYK2 dependence on cytokine responses and in vivo consequences of TYK2 deficiency are inconsistent. We investigated a TYK2 deficient patient, presenting with eczema, skin abscesses, respiratory infections and IgE levels >1000 U/mL, without viral or mycobacterial infections and a corresponding cellular model to analyze the role of TYK2 in type‐III IFN mediated responses and NK‐cell function. We established a novel simple diagnostic monocyte assay to show that the mutation completely abolishes the IFN‐α mediated antiviral response. It also partly reduces IL‐10 but not IL‐6 mediated signaling associated with reduced IL‐10Rβ expression. However, we found almost normal type‐III IFN signaling associated with minimal impairment of virus control in a TYK2 deficient human cell line. Contrary to observations in TYK2 deficient mice, NK‐cell phenotype and function, including IL‐12/IL‐18 mediated responses, were normal in the patient. Thus, preserved type‐III IFN responses and normal NK‐cell function may contribute to antiviral protection in TYK2 deficiency leading to a surprisingly mild human phenotype. IFN‐λ mediated signal transduction is functionally retained in TYK2 deficient human cell lines. This, together with functional NK cell responses in vitro, might account for the absence of severe viral infections in patients with TYK2 deficiency despite the lack of IFN‐α mediated signal transduction.</abstract><cop>Germany</cop><pub>Wiley Subscription Services, Inc</pub><pmid>27615517</pmid><doi>10.1002/eji.201646519</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Cell Line Child Disease Susceptibility - immunology Disease Susceptibility - virology Eczema - etiology Eczema - immunology HAP1 cells · IFN‐lambda · Immunodeficiencies · NK cells · TYK2 · VSV‐GFP Humans Immunoglobulin E - blood Interferon-gamma - immunology Interferon-gamma - metabolism Interferons - immunology Interleukin-10 - genetics Interleukin-10 - immunology Interleukin-6 - genetics Interleukin-6 - immunology Job Syndrome - immunology Killer Cells, Natural - immunology Mice Mutation Mycobacterium Receptors, Cytokine - immunology Receptors, Interleukin-10 - genetics Receptors, Interleukin-10 - immunology Signal Transduction - immunology Skin - pathology TYK2 Kinase - deficiency TYK2 Kinase - genetics TYK2 Kinase - immunology TYK2 Kinase - metabolism
title	Tyrosine kinase 2 is not limiting human antiviral type III interferon responses
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