Inflammatory signals directly instruct PU.1 in HSCs via TNF

Inflammatory signals directly instruct PU.1 in HSCs via TNF

The molecular mechanisms governing the transition from hematopoietic stem cells (HSCs) to lineage-committed progenitors remain poorly understood. Transcription factors (TFs) are powerful cell intrinsic regulators of differentiation and lineage commitment, while cytokine signaling has been shown to i...

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Main Authors: Etzrodt, M, Ahmed, N, Hoppe, P, Loeffler, D, Skylaki, S, Hilsenbeck, O, Kokkaliaris, K, Kaltenbach, H, Stelling, J, Nerlov, C, Schroeder, T
Format: Journal article
Language:English
Published: American Society of Hematology 2018
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author Etzrodt, M
Ahmed, N
Hoppe, P
Loeffler, D
Skylaki, S
Hilsenbeck, O
Kokkaliaris, K
Kaltenbach, H
Stelling, J
Nerlov, C
Schroeder, T
author_facet Etzrodt, M
Ahmed, N
Hoppe, P
Loeffler, D
Skylaki, S
Hilsenbeck, O
Kokkaliaris, K
Kaltenbach, H
Stelling, J
Nerlov, C
Schroeder, T
author_sort Etzrodt, M
collection OXFORD
description The molecular mechanisms governing the transition from hematopoietic stem cells (HSCs) to lineage-committed progenitors remain poorly understood. Transcription factors (TFs) are powerful cell intrinsic regulators of differentiation and lineage commitment, while cytokine signaling has been shown to instruct the fate of progenitor cells. However, the direct regulation of differentiation-inducing hematopoietic TFs by cell extrinsic signals remains surprisingly difficult to establish. PU.1 is a master regulator of hematopoiesis and promotes myeloid differentiation. Here we report that TNF can directly and rapidly up-regulate PU.1 protein in HSCs in vitro and in vivo. We demonstrate that in vivo, niche-derived TNF is the principal PU.1 inducing signal in HSCs and is both sufficient and required to relay signals from inflammatory challenges to HSCs.
first_indexed 2024-03-07T02:27:44Z
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institution University of Oxford
language English
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publisher American Society of Hematology
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spelling oxford-uuid:a6334ddb-bb88-4e84-a9b3-40aa0ff498b72022-03-27T02:45:33ZInflammatory signals directly instruct PU.1 in HSCs via TNFJournal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:a6334ddb-bb88-4e84-a9b3-40aa0ff498b7EnglishSymplectic Elements at OxfordAmerican Society of Hematology2018Etzrodt, MAhmed, NHoppe, PLoeffler, DSkylaki, SHilsenbeck, OKokkaliaris, KKaltenbach, HStelling, JNerlov, CSchroeder, TThe molecular mechanisms governing the transition from hematopoietic stem cells (HSCs) to lineage-committed progenitors remain poorly understood. Transcription factors (TFs) are powerful cell intrinsic regulators of differentiation and lineage commitment, while cytokine signaling has been shown to instruct the fate of progenitor cells. However, the direct regulation of differentiation-inducing hematopoietic TFs by cell extrinsic signals remains surprisingly difficult to establish. PU.1 is a master regulator of hematopoiesis and promotes myeloid differentiation. Here we report that TNF can directly and rapidly up-regulate PU.1 protein in HSCs in vitro and in vivo. We demonstrate that in vivo, niche-derived TNF is the principal PU.1 inducing signal in HSCs and is both sufficient and required to relay signals from inflammatory challenges to HSCs.
spellingShingle Etzrodt, M
Ahmed, N
Hoppe, P
Loeffler, D
Skylaki, S
Hilsenbeck, O
Kokkaliaris, K
Kaltenbach, H
Stelling, J
Nerlov, C
Schroeder, T
Inflammatory signals directly instruct PU.1 in HSCs via TNF
title Inflammatory signals directly instruct PU.1 in HSCs via TNF
title_full Inflammatory signals directly instruct PU.1 in HSCs via TNF
title_fullStr Inflammatory signals directly instruct PU.1 in HSCs via TNF
title_full_unstemmed Inflammatory signals directly instruct PU.1 in HSCs via TNF
title_short Inflammatory signals directly instruct PU.1 in HSCs via TNF
title_sort inflammatory signals directly instruct pu 1 in hscs via tnf
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AT ahmedn inflammatorysignalsdirectlyinstructpu1inhscsviatnf
AT hoppep inflammatorysignalsdirectlyinstructpu1inhscsviatnf
AT loefflerd inflammatorysignalsdirectlyinstructpu1inhscsviatnf
AT skylakis inflammatorysignalsdirectlyinstructpu1inhscsviatnf
AT hilsenbecko inflammatorysignalsdirectlyinstructpu1inhscsviatnf
AT kokkaliarisk inflammatorysignalsdirectlyinstructpu1inhscsviatnf
AT kaltenbachh inflammatorysignalsdirectlyinstructpu1inhscsviatnf
AT stellingj inflammatorysignalsdirectlyinstructpu1inhscsviatnf
AT nerlovc inflammatorysignalsdirectlyinstructpu1inhscsviatnf
AT schroedert inflammatorysignalsdirectlyinstructpu1inhscsviatnf

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