Ruxolitinib inhibits poly(I:C) and type 2 cytokines‐induced CCL5 production in bronchial epithelial cells: A potential therapeutic agent for severe eosinophilic asthma

Ruxolitinib inhibits poly(I:C) and type 2 cytokines‐induced CCL5 production in bronchial epithelial cells: A potential therapeutic agent for severe eosinophilic asthma

Abstract Rationale Severe eosinophilic asthma is characterized by airway eosinophilia and corticosteroid‐resistance, commonly overlapping with type 2 inflammation. It has been reported that chemokine (C‐C motif) ligand 5 (CCL5) is involved in the exacerbation of asthma by RNA virus infections. Indee...

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Main Authors: Mitsuru Sada, Masato Watanabe, Toshiya Inui, Keitaro Nakamoto, Aya Hirata, Masuo Nakamura, Kojiro Honda, Takeshi Saraya, Daisuke Kurai, Hirokazu Kimura, Haruyuki Ishii, Hajime Takizawa
Format: Article
Language:English
Published: Wiley 2021-06-01
Series:Immunity, Inflammation and Disease
Subjects:
CCL5
eosinophilic asthma
ruxolitinib
bronchial epithelium
IL‐13
Online Access:https://doi.org/10.1002/iid3.397
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spelling doaj-bd05412564024564950acd0828a6a6b42021-05-17T11:29:08ZengWileyImmunity, Inflammation and Disease2050-45272021-06-019236337310.1002/iid3.397Ruxolitinib inhibits poly(I:C) and type 2 cytokines‐induced CCL5 production in bronchial epithelial cells: A potential therapeutic agent for severe eosinophilic asthmaMitsuru Sada0Masato Watanabe1Toshiya Inui2Keitaro Nakamoto3Aya Hirata4Masuo Nakamura5Kojiro Honda6Takeshi Saraya7Daisuke Kurai8Hirokazu Kimura9Haruyuki Ishii10Hajime Takizawa11Department of Respiratory Medicine Kyorin University School of Medicine Tokyo JapanDepartment of Respiratory Medicine Kyorin University School of Medicine Tokyo JapanDepartment of Respiratory Medicine Kyorin University School of Medicine Tokyo JapanDepartment of Respiratory Medicine Kyorin University School of Medicine Tokyo JapanDepartment of Respiratory Medicine Kyorin University School of Medicine Tokyo JapanDepartment of Respiratory Medicine Kyorin University School of Medicine Tokyo JapanDepartment of Respiratory Medicine Kyorin University School of Medicine Tokyo JapanDepartment of Respiratory Medicine Kyorin University School of Medicine Tokyo JapanDivision of Infectious Diseases, Department of General Medicine, School of Medicine Kyorin University Tokyo JapanDepartment of Health Science Graduate School of Health Science, Gunma Paz University Gunma JapanDepartment of Respiratory Medicine Kyorin University School of Medicine Tokyo JapanDepartment of Respiratory Medicine Kyorin University School of Medicine Tokyo JapanAbstract Rationale Severe eosinophilic asthma is characterized by airway eosinophilia and corticosteroid‐resistance, commonly overlapping with type 2 inflammation. It has been reported that chemokine (C‐C motif) ligand 5 (CCL5) is involved in the exacerbation of asthma by RNA virus infections. Indeed, treatment with a virus‐associated ligand and a T helper type 2 cell (Th2) cytokine can synergistically stimulate CCL5 production in bronchial epithelial cells. We aimed to evaluate the mechanisms underlying CCL5 production in this in vitro model and to assess the potential of Janus kinase 1 (JAK1) as a novel therapeutic target via the use of ruxolitinib. Methods We stimulated primary normal human bronchial epithelial (NHBE) cells and BEAS‐2B cells with poly(I:C) along with interleukin‐13 (IL‐13) or IL‐4, and assessed CCL5 production. We also evaluated the signals involved in virus‐ and Th2‐cytokine‐induced CCL5 production and explored a therapeutic agent that attenuates the CCL5 production. Results Poly(I:C) stimulated NHBE and BEAS‐2B cells to produce CCL5. Poly(I:C) and IL‐13 increased CCL5 production. Poly(I:C)‐induced CCL5 production occurred via the TLR3–IRF3 and IFNAR/JAK1–phosphoinositide 3‐kinase (PI3K) pathways, but not the IFNAR/JAK1–STATs pathway. In addition, IL‐13 did not augment poly(I:C)‐induced CCL5 production via the canonical IL‐13R/IL‐4R/JAK1–STAT6 pathway but likely via subsequent TLR3‐IRF3‐IFNAR/JAK1‐PI3K pathways. JAK1 was identified to be a potential therapeutic target for severe eosinophilic asthma. The JAK1/2 inhibitor, ruxolitinib, was demonstrated to more effectively decrease CCL5 production in BEAS‐2B cells than fluticasone propionate. Conclusion We have demonstrated that JAK1 is a possible therapeutic target for severe corticosteroid‐resistant asthma with airway eosinophilia and persistent Th2‐type inflammation, and that ruxolitinib has potential as an alternative pharmacotherapy.https://doi.org/10.1002/iid3.397CCL5eosinophilic asthmaruxolitinibbronchial epitheliumIL‐13
collection DOAJ
language English
format Article
sources DOAJ
author Mitsuru Sada
Masato Watanabe
Toshiya Inui
Keitaro Nakamoto
Aya Hirata
Masuo Nakamura
Kojiro Honda
Takeshi Saraya
Daisuke Kurai
Hirokazu Kimura
Haruyuki Ishii
Hajime Takizawa
spellingShingle Mitsuru Sada
Masato Watanabe
Toshiya Inui
Keitaro Nakamoto
Aya Hirata
Masuo Nakamura
Kojiro Honda
Takeshi Saraya
Daisuke Kurai
Hirokazu Kimura
Haruyuki Ishii
Hajime Takizawa
Ruxolitinib inhibits poly(I:C) and type 2 cytokines‐induced CCL5 production in bronchial epithelial cells: A potential therapeutic agent for severe eosinophilic asthma
Immunity, Inflammation and Disease
CCL5
eosinophilic asthma
ruxolitinib
bronchial epithelium
IL‐13
author_facet Mitsuru Sada
Masato Watanabe
Toshiya Inui
Keitaro Nakamoto
Aya Hirata
Masuo Nakamura
Kojiro Honda
Takeshi Saraya
Daisuke Kurai
Hirokazu Kimura
Haruyuki Ishii
Hajime Takizawa
author_sort Mitsuru Sada
title Ruxolitinib inhibits poly(I:C) and type 2 cytokines‐induced CCL5 production in bronchial epithelial cells: A potential therapeutic agent for severe eosinophilic asthma
title_short Ruxolitinib inhibits poly(I:C) and type 2 cytokines‐induced CCL5 production in bronchial epithelial cells: A potential therapeutic agent for severe eosinophilic asthma
title_full Ruxolitinib inhibits poly(I:C) and type 2 cytokines‐induced CCL5 production in bronchial epithelial cells: A potential therapeutic agent for severe eosinophilic asthma
title_fullStr Ruxolitinib inhibits poly(I:C) and type 2 cytokines‐induced CCL5 production in bronchial epithelial cells: A potential therapeutic agent for severe eosinophilic asthma
title_full_unstemmed Ruxolitinib inhibits poly(I:C) and type 2 cytokines‐induced CCL5 production in bronchial epithelial cells: A potential therapeutic agent for severe eosinophilic asthma
title_sort ruxolitinib inhibits poly(i:c) and type 2 cytokines‐induced ccl5 production in bronchial epithelial cells: a potential therapeutic agent for severe eosinophilic asthma
publisher Wiley
series Immunity, Inflammation and Disease
issn 2050-4527
publishDate 2021-06-01
description Abstract Rationale Severe eosinophilic asthma is characterized by airway eosinophilia and corticosteroid‐resistance, commonly overlapping with type 2 inflammation. It has been reported that chemokine (C‐C motif) ligand 5 (CCL5) is involved in the exacerbation of asthma by RNA virus infections. Indeed, treatment with a virus‐associated ligand and a T helper type 2 cell (Th2) cytokine can synergistically stimulate CCL5 production in bronchial epithelial cells. We aimed to evaluate the mechanisms underlying CCL5 production in this in vitro model and to assess the potential of Janus kinase 1 (JAK1) as a novel therapeutic target via the use of ruxolitinib. Methods We stimulated primary normal human bronchial epithelial (NHBE) cells and BEAS‐2B cells with poly(I:C) along with interleukin‐13 (IL‐13) or IL‐4, and assessed CCL5 production. We also evaluated the signals involved in virus‐ and Th2‐cytokine‐induced CCL5 production and explored a therapeutic agent that attenuates the CCL5 production. Results Poly(I:C) stimulated NHBE and BEAS‐2B cells to produce CCL5. Poly(I:C) and IL‐13 increased CCL5 production. Poly(I:C)‐induced CCL5 production occurred via the TLR3–IRF3 and IFNAR/JAK1–phosphoinositide 3‐kinase (PI3K) pathways, but not the IFNAR/JAK1–STATs pathway. In addition, IL‐13 did not augment poly(I:C)‐induced CCL5 production via the canonical IL‐13R/IL‐4R/JAK1–STAT6 pathway but likely via subsequent TLR3‐IRF3‐IFNAR/JAK1‐PI3K pathways. JAK1 was identified to be a potential therapeutic target for severe eosinophilic asthma. The JAK1/2 inhibitor, ruxolitinib, was demonstrated to more effectively decrease CCL5 production in BEAS‐2B cells than fluticasone propionate. Conclusion We have demonstrated that JAK1 is a possible therapeutic target for severe corticosteroid‐resistant asthma with airway eosinophilia and persistent Th2‐type inflammation, and that ruxolitinib has potential as an alternative pharmacotherapy.
topic CCL5
eosinophilic asthma
ruxolitinib
bronchial epithelium
IL‐13
url https://doi.org/10.1002/iid3.397
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