Pluripotent stem cell‐based screening identifies CUDC‐907 as an effective compound for restoring the in vitro phenotype of Nakajo‐Nishimura syndrome

Pluripotent stem cell‐based screening identifies CUDC‐907 as an effective compound for restoring the in vitro phenotype of Nakajo‐Nishimura syndrome

Abstract Nakajo‐Nishimura syndrome (NNS) is an autoinflammatory disorder caused by a homozygous mutations in the PSMB8 gene. The administration of systemic corticosteroids is partially effective, but continuous treatment causes severe side effects. We previously established a pluripotent stem cell (...

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Main Authors: Naoya Kase, Madoka Terashima, Akira Ohta, Akira Niwa, Fumiko Honda‐Ozaki, Yuri Kawasaki, Tatsutoshi Nakahata, Nobuo Kanazawa, Megumu K. Saito
Format: Article
Language:English
Published: Wiley 2021-03-01
Series:Stem Cells Translational Medicine
Subjects:
chemokines
hereditary autoinflammatory diseases
high‐throughput screening assays
histone deacetylase inhibitors
LMP7 protein
pluripotent stem cells
Online Access:https://doi.org/10.1002/sctm.20-0198
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spelling doaj-ab2d0a8881024d599625298f426627752021-02-23T06:15:45ZengWileyStem Cells Translational Medicine2157-65642157-65802021-03-0110345546410.1002/sctm.20-0198Pluripotent stem cell‐based screening identifies CUDC‐907 as an effective compound for restoring the in vitro phenotype of Nakajo‐Nishimura syndromeNaoya Kase0Madoka Terashima1Akira Ohta2Akira Niwa3Fumiko Honda‐Ozaki4Yuri Kawasaki5Tatsutoshi Nakahata6Nobuo Kanazawa7Megumu K. Saito8Department of Clinical Application Center for iPS Cell Research and Application (CiRA), Kyoto University Kyoto JapanDepartment of Clinical Application Center for iPS Cell Research and Application (CiRA), Kyoto University Kyoto JapanDepartment of Fundamental Cell Technology Center for iPS Cell Research and Application (CiRA), Kyoto University Kyoto JapanDepartment of Clinical Application Center for iPS Cell Research and Application (CiRA), Kyoto University Kyoto JapanDepartment of Clinical Application Center for iPS Cell Research and Application (CiRA), Kyoto University Kyoto JapanDepartment of Clinical Application Center for iPS Cell Research and Application (CiRA), Kyoto University Kyoto JapanDepartment of Fundamental Cell Technology Center for iPS Cell Research and Application (CiRA), Kyoto University Kyoto JapanDepartment of Dermatology Wakayama Medical University Wakayama JapanDepartment of Clinical Application Center for iPS Cell Research and Application (CiRA), Kyoto University Kyoto JapanAbstract Nakajo‐Nishimura syndrome (NNS) is an autoinflammatory disorder caused by a homozygous mutations in the PSMB8 gene. The administration of systemic corticosteroids is partially effective, but continuous treatment causes severe side effects. We previously established a pluripotent stem cell (PSC)‐derived NNS disease model that reproduces several inflammatory phenotypes, including the overproduction of monocyte chemoattractant protein‐1 (MCP‐1) and interferon gamma‐induced protein‐10 (IP‐10). Here we performed high‐throughput compound screening (HTS) using this PSC‐derived NNS model to find potential therapeutic candidates and identified CUDC‐907 as an effective inhibitor of the release of MCP‐1 and IP‐10. Short‐term treatment of CUDC‐907 did not induce cell death within therapeutic concentrations and was also effective on primary patient cells. Further analysis indicated that the inhibitory effect was post‐transcriptional. These findings suggest that HTS with PSC‐derived disease models is useful for finding drug candidates for autoinflammatory diseases.https://doi.org/10.1002/sctm.20-0198chemokineshereditary autoinflammatory diseaseshigh‐throughput screening assayshistone deacetylase inhibitorsLMP7 proteinpluripotent stem cells
collection DOAJ
language English
format Article
sources DOAJ
author Naoya Kase
Madoka Terashima
Akira Ohta
Akira Niwa
Fumiko Honda‐Ozaki
Yuri Kawasaki
Tatsutoshi Nakahata
Nobuo Kanazawa
Megumu K. Saito
spellingShingle Naoya Kase
Madoka Terashima
Akira Ohta
Akira Niwa
Fumiko Honda‐Ozaki
Yuri Kawasaki
Tatsutoshi Nakahata
Nobuo Kanazawa
Megumu K. Saito
Pluripotent stem cell‐based screening identifies CUDC‐907 as an effective compound for restoring the in vitro phenotype of Nakajo‐Nishimura syndrome
Stem Cells Translational Medicine
chemokines
hereditary autoinflammatory diseases
high‐throughput screening assays
histone deacetylase inhibitors
LMP7 protein
pluripotent stem cells
author_facet Naoya Kase
Madoka Terashima
Akira Ohta
Akira Niwa
Fumiko Honda‐Ozaki
Yuri Kawasaki
Tatsutoshi Nakahata
Nobuo Kanazawa
Megumu K. Saito
author_sort Naoya Kase
title Pluripotent stem cell‐based screening identifies CUDC‐907 as an effective compound for restoring the in vitro phenotype of Nakajo‐Nishimura syndrome
title_short Pluripotent stem cell‐based screening identifies CUDC‐907 as an effective compound for restoring the in vitro phenotype of Nakajo‐Nishimura syndrome
title_full Pluripotent stem cell‐based screening identifies CUDC‐907 as an effective compound for restoring the in vitro phenotype of Nakajo‐Nishimura syndrome
title_fullStr Pluripotent stem cell‐based screening identifies CUDC‐907 as an effective compound for restoring the in vitro phenotype of Nakajo‐Nishimura syndrome
title_full_unstemmed Pluripotent stem cell‐based screening identifies CUDC‐907 as an effective compound for restoring the in vitro phenotype of Nakajo‐Nishimura syndrome
title_sort pluripotent stem cell‐based screening identifies cudc‐907 as an effective compound for restoring the in vitro phenotype of nakajo‐nishimura syndrome
publisher Wiley
series Stem Cells Translational Medicine
issn 2157-6564
2157-6580
publishDate 2021-03-01
description Abstract Nakajo‐Nishimura syndrome (NNS) is an autoinflammatory disorder caused by a homozygous mutations in the PSMB8 gene. The administration of systemic corticosteroids is partially effective, but continuous treatment causes severe side effects. We previously established a pluripotent stem cell (PSC)‐derived NNS disease model that reproduces several inflammatory phenotypes, including the overproduction of monocyte chemoattractant protein‐1 (MCP‐1) and interferon gamma‐induced protein‐10 (IP‐10). Here we performed high‐throughput compound screening (HTS) using this PSC‐derived NNS model to find potential therapeutic candidates and identified CUDC‐907 as an effective inhibitor of the release of MCP‐1 and IP‐10. Short‐term treatment of CUDC‐907 did not induce cell death within therapeutic concentrations and was also effective on primary patient cells. Further analysis indicated that the inhibitory effect was post‐transcriptional. These findings suggest that HTS with PSC‐derived disease models is useful for finding drug candidates for autoinflammatory diseases.
topic chemokines
hereditary autoinflammatory diseases
high‐throughput screening assays
histone deacetylase inhibitors
LMP7 protein
pluripotent stem cells
url https://doi.org/10.1002/sctm.20-0198
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AT yurikawasaki pluripotentstemcellbasedscreeningidentifiescudc907asaneffectivecompoundforrestoringtheinvitrophenotypeofnakajonishimurasyndrome
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AT megumuksaito pluripotentstemcellbasedscreeningidentifiescudc907asaneffectivecompoundforrestoringtheinvitrophenotypeofnakajonishimurasyndrome
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