Effect of interferon‐β1b on CXCR4‐dependent chemotaxis in T cells from multiple sclerosis patients

Summary Multiple sclerosis (MS) is an inflammatory, demyelinating and neurodegenerative disease triggered by infiltration of activated T cells into the central nervous system. Interferon (IFN)‐β is an established, safe and effective treatment for patients with relapsing–remitting MS (RRMS). The cyto...

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Published inClinical and experimental immunology Vol. 182; no. 2; pp. 162 - 172
Main Authors Wostradowski, T., Gudi, V., Pul, R., Gingele, S., Lindquist, J. A., Stangel, M., Lindquist, S.
Format Journal Article
LanguageEnglish
Published England John Wiley & Sons, Ltd 01.11.2015
Subjects
Adult
Blotting, Western
Cell Movement - drug effects
Cells, Cultured
Chemotaxis - drug effects
CXCL12
CXCR4 expression
Female
Gene Expression - drug effects
Gene Expression - immunology
Humans
Interferon beta-1b - pharmacology
interferon‐β1b
Male
Middle Aged
migration
Multiple Sclerosis, Relapsing-Remitting - genetics
Multiple Sclerosis, Relapsing-Remitting - immunology
primary human T cells
Receptors, CXCR4 - genetics
Receptors, CXCR4 - metabolism
Reverse Transcriptase Polymerase Chain Reaction
Signal Transduction - drug effects
T-Lymphocytes - drug effects
T-Lymphocytes - immunology
T-Lymphocytes - metabolism
Time Factors
Translational
Young Adult
migration
interferon-β1b
CXCL12
CXCR4 expression
primary human T cells
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Abstract Summary Multiple sclerosis (MS) is an inflammatory, demyelinating and neurodegenerative disease triggered by infiltration of activated T cells into the central nervous system. Interferon (IFN)‐β is an established, safe and effective treatment for patients with relapsing–remitting MS (RRMS). The cytokine can inhibit leucocyte infiltration into the central nervous system; however, little is known about the precise molecular mechanisms. Previously, in vitro application of IFN‐β1b was shown to reduce CXCL12/CXCR4‐mediated monocyte migration. Here, we analysed the effects of IFN‐β1b on CXCR4‐dependent T cell function. In vitro exposure to IFN‐β1b (1000 U/ml) for 20 h reduced CXCR4‐dependent chemotaxis of primary human T cells from healthy individuals and patients with RRMS. Investigating the IFN‐β1b/CXCR4 signalling pathways, we found no difference in phosphorylation of ZAP70, ERK1/2 and AKT despite an early induction of the negative regulator of G‐protein signalling, RGS1 by IFN‐β1b. However, CXCR4 surface expression was reduced. Quantitative real time‐PCR revealed a similar reduction in CXCR4‐mRNA, and the requirement of several hours' exposure to IFN‐β1b supports a transcriptional regulation. Interestingly, T cells from MS patients showed a lower CXCR4 expression than T cells from healthy controls, which was not reduced further in patients under IFN‐β1b therapy. Furthermore, we observed no change in CXCL12‐dependent chemotaxis in RRMS patients. Our results demonstrate clearly that IFN‐β1b can impair the functional response to CXCR4 by down‐regulating its expression, but also points to the complex in vivo effects of IFN‐β1b therapy.
AbstractList Multiple sclerosis (MS) is an inflammatory, demyelinating and neurodegenerative disease triggered by infiltration of activated T cells into the central nervous system. Interferon (IFN)-β is an established, safe and effective treatment for patients with relapsing–remitting MS (RRMS). The cytokine can inhibit leucocyte infiltration into the central nervous system; however, little is known about the precise molecular mechanisms. Previously, in vitro application of IFN-β1b was shown to reduce CXCL12/CXCR4-mediated monocyte migration. Here, we analysed the effects of IFN-β1b on CXCR4-dependent T cell function. In vitro exposure to IFN-β1b (1000 U/ml) for 20 h reduced CXCR4-dependent chemotaxis of primary human T cells from healthy individuals and patients with RRMS. Investigating the IFN-β1b/CXCR4 signalling pathways, we found no difference in phosphorylation of ZAP70, ERK1/2 and AKT despite an early induction of the negative regulator of G-protein signalling, RGS1 by IFN-β1b. However, CXCR4 surface expression was reduced. Quantitative real time-PCR revealed a similar reduction in CXCR4-mRNA, and the requirement of several hours' exposure to IFN-β1b supports a transcriptional regulation. Interestingly, T cells from MS patients showed a lower CXCR4 expression than T cells from healthy controls, which was not reduced further in patients under IFN-β1b therapy. Furthermore, we observed no change in CXCL12-dependent chemotaxis in RRMS patients. Our results demonstrate clearly that IFN-β1b can impair the functional response to CXCR4 by down-regulating its expression, but also points to the complex in vivo effects of IFN-β1b therapy.
Multiple sclerosis (MS) is an inflammatory, demyelinating and neurodegenerative disease triggered by infiltration of activated T cells into the central nervous system. Interferon (IFN)-β is an established, safe and effective treatment for patients with relapsing-remitting MS (RRMS). The cytokine can inhibit leucocyte infiltration into the central nervous system; however, little is known about the precise molecular mechanisms. Previously, in vitro application of IFN-β1b was shown to reduce CXCL12/CXCR4-mediated monocyte migration. Here, we analysed the effects of IFN-β1b on CXCR4-dependent T cell function. In vitro exposure to IFN-β1b (1000 U/ml) for 20 h reduced CXCR4-dependent chemotaxis of primary human T cells from healthy individuals and patients with RRMS. Investigating the IFN-β1b/CXCR4 signalling pathways, we found no difference in phosphorylation of ZAP70, ERK1/2 and AKT despite an early induction of the negative regulator of G-protein signalling, RGS1 by IFN-β1b. However, CXCR4 surface expression was reduced. Quantitative real time-PCR revealed a similar reduction in CXCR4-mRNA, and the requirement of several hours' exposure to IFN-β1b supports a transcriptional regulation. Interestingly, T cells from MS patients showed a lower CXCR4 expression than T cells from healthy controls, which was not reduced further in patients under IFN-β1b therapy. Furthermore, we observed no change in CXCL12-dependent chemotaxis in RRMS patients. Our results demonstrate clearly that IFN-β1b can impair the functional response to CXCR4 by down-regulating its expression, but also points to the complex in vivo effects of IFN-β1b therapy.
Summary Multiple sclerosis (MS) is an inflammatory, demyelinating and neurodegenerative disease triggered by infiltration of activated T cells into the central nervous system. Interferon (IFN)‐β is an established, safe and effective treatment for patients with relapsing–remitting MS (RRMS). The cytokine can inhibit leucocyte infiltration into the central nervous system; however, little is known about the precise molecular mechanisms. Previously, in vitro application of IFN‐β1b was shown to reduce CXCL12/CXCR4‐mediated monocyte migration. Here, we analysed the effects of IFN‐β1b on CXCR4‐dependent T cell function. In vitro exposure to IFN‐β1b (1000 U/ml) for 20 h reduced CXCR4‐dependent chemotaxis of primary human T cells from healthy individuals and patients with RRMS. Investigating the IFN‐β1b/CXCR4 signalling pathways, we found no difference in phosphorylation of ZAP70, ERK1/2 and AKT despite an early induction of the negative regulator of G‐protein signalling, RGS1 by IFN‐β1b. However, CXCR4 surface expression was reduced. Quantitative real time‐PCR revealed a similar reduction in CXCR4‐mRNA, and the requirement of several hours' exposure to IFN‐β1b supports a transcriptional regulation. Interestingly, T cells from MS patients showed a lower CXCR4 expression than T cells from healthy controls, which was not reduced further in patients under IFN‐β1b therapy. Furthermore, we observed no change in CXCL12‐dependent chemotaxis in RRMS patients. Our results demonstrate clearly that IFN‐β1b can impair the functional response to CXCR4 by down‐regulating its expression, but also points to the complex in vivo effects of IFN‐β1b therapy.
Author Gingele, S.
Lindquist, J. A.
Gudi, V.
Pul, R.
Wostradowski, T.
Stangel, M.
Lindquist, S.
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Issue 2
Keywords migration
interferon-β1b
CXCL12
CXCR4 expression
primary human T cells
Language English
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  doi: 10.1177/1352458511399797
  contributor:
    fullname: Lindquist
– volume: 2
  start-page: 415
  year: 2000
  ident: 2021122010193771200_cei12689-bib-0019
  article-title: Cytokine, activation marker, and chemokine receptor expression by individual CD4(+) memory T cells in rheumatoid arthritis synovium
  publication-title: Arthritis Res
  doi: 10.1186/ar120
  contributor:
    fullname: Nanki
– volume: 152
  start-page: 126
  year: 2004
  ident: 2021122010193771200_cei12689-bib-0038
  article-title: Gene expression profiling of relevant biomarkers for treatment evaluation in multiple sclerosis
  publication-title: J Neuroimmunol
  doi: 10.1016/j.jneuroim.2004.03.004
  contributor:
    fullname: Hong
SSID ssj0006662
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Snippet Summary Multiple sclerosis (MS) is an inflammatory, demyelinating and neurodegenerative disease triggered by infiltration of activated T cells into the central...
Multiple sclerosis (MS) is an inflammatory, demyelinating and neurodegenerative disease triggered by infiltration of activated T cells into the central nervous...
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StartPage 162
SubjectTerms Adult
Blotting, Western
Cell Movement - drug effects
Cells, Cultured
Chemotaxis - drug effects
CXCL12
CXCR4 expression
Female
Gene Expression - drug effects
Gene Expression - immunology
Humans
Interferon beta-1b - pharmacology
interferon‐β1b
Male
Middle Aged
migration
Multiple Sclerosis, Relapsing-Remitting - genetics
Multiple Sclerosis, Relapsing-Remitting - immunology
primary human T cells
Receptors, CXCR4 - genetics
Receptors, CXCR4 - metabolism
Reverse Transcriptase Polymerase Chain Reaction
Signal Transduction - drug effects
T-Lymphocytes - drug effects
T-Lymphocytes - immunology
T-Lymphocytes - metabolism
Time Factors
Translational
Young Adult
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  providerName: Wiley-Blackwell
Title Effect of interferon‐β1b on CXCR4‐dependent chemotaxis in T cells from multiple sclerosis patients
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fcei.12689
https://www.ncbi.nlm.nih.gov/pubmed/26212126
https://search.proquest.com/docview/1722188439
https://pubmed.ncbi.nlm.nih.gov/PMC4608506
Volume 182
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