Role of microRNA-155 in dendritic cells and macrophages: MiR-155 directly targets PU.1 and IL13Rα1
Role of microRNA-155 in dendritic cells and macrophages: MiR-155 directly targets PU.1 and IL13Rα1
In search of genes differentially expressed between M1 (pro-Th1 or pro-inflammatory) and M2 (pro-Th2 or pro-tolerogenic) macrophages, BIC (microRNA 155 hosting gene) was found up regulated under inflammatory conditions. MicroRNAs are non coding RNAs of ~22nt in length that inhibit gene expression upon pairing to the 3’UTR (UnTranslated Region) of target mRNAs. In silico analysis predicted two pro-Th2 targets for miR-155: PU.1 and IL13Rα1. PU.1 is a transcription factor essential in myelopoiesis and dendritic cells (DCs) that favours a Th2 profiling; moreover, PU.1 had been shown to regulate the transcription of DC-SIGN (Dendritic Cell-Specific ICAM-3 Grabbing Non-integrin 1) which is a pathogen receptor expressed in DCs controlled by Th2 stimuli. IL13Rα1 is the chain receptor for the Th2 cytokine IL-13, which promotes M2 differentiation. Pro Th1 stimuli cause maturation of DCs, cells that orchestrate the immune response between Th1 and Th2 profiles; moreover, Th1 stimuli cause classical (M1) macrophages activation versus an alternative (M2) one. My hypothesis was that miR-155 contributes to the pro-Th1 profile by down regulating pro-Th2 factors. MiR-155 was found up regulated during DC maturation and both PU.1 and IL13Rα1 were demonstrated as direct targets of miR-155. Employing a developed monocytic cell line which harbors a miR-155 transgene under the control of a Tet-On system (THP1-155 cells), both PU.1 and IL13Rα1 were shown to be down regulated following miR-155 induction in these cells. Moreover, THP1-155 cells showed that DC-SIGN transcription is regulated by miR-155 levels through PU.1 targeting, and that IL-13 signalling cascade through STAT6 transcription factor was down regulated when miR-155 was over expressed. Using Anti miR-155 transfections in DCs, miR-155 was shown to modulate not only DC-SIGN expression, but also DC pathogen binding ability. Using the same technique in macrophages, miR-155 was shown to modulate IL13Rα1 and STAT6 activation, and to regulate the expression of IL-13/STAT6 dependent genes. Therefore, miR-155 contributes to the pro-Th1 profile by down regulating pro-Th2 factors, acting as a pro-Th1/anti-Th2 modulator in myeloid cells under inflammatory conditions.
Martinez‐Nunez, Rocio Teresa
ba0221ef-91cf-4307-99d4-f51a88c37660
Martinez‐Nunez, Rocio Teresa
ba0221ef-91cf-4307-99d4-f51a88c37660
Sanchez-Elsner, Tilman
b8799f8d-e2b4-4b37-b77c-f2f0e8e2070d
Martinez‐Nunez, Rocio Teresa
(2010)
Role of microRNA-155 in dendritic cells and macrophages: MiR-155 directly targets PU.1 and IL13Rα1.
University of Southampton, School of Medicine, Doctoral Thesis, 260pp.
Record type:
Thesis
(Doctoral)
Abstract
In search of genes differentially expressed between M1 (pro-Th1 or pro-inflammatory) and M2 (pro-Th2 or pro-tolerogenic) macrophages, BIC (microRNA 155 hosting gene) was found up regulated under inflammatory conditions. MicroRNAs are non coding RNAs of ~22nt in length that inhibit gene expression upon pairing to the 3’UTR (UnTranslated Region) of target mRNAs. In silico analysis predicted two pro-Th2 targets for miR-155: PU.1 and IL13Rα1. PU.1 is a transcription factor essential in myelopoiesis and dendritic cells (DCs) that favours a Th2 profiling; moreover, PU.1 had been shown to regulate the transcription of DC-SIGN (Dendritic Cell-Specific ICAM-3 Grabbing Non-integrin 1) which is a pathogen receptor expressed in DCs controlled by Th2 stimuli. IL13Rα1 is the chain receptor for the Th2 cytokine IL-13, which promotes M2 differentiation. Pro Th1 stimuli cause maturation of DCs, cells that orchestrate the immune response between Th1 and Th2 profiles; moreover, Th1 stimuli cause classical (M1) macrophages activation versus an alternative (M2) one. My hypothesis was that miR-155 contributes to the pro-Th1 profile by down regulating pro-Th2 factors. MiR-155 was found up regulated during DC maturation and both PU.1 and IL13Rα1 were demonstrated as direct targets of miR-155. Employing a developed monocytic cell line which harbors a miR-155 transgene under the control of a Tet-On system (THP1-155 cells), both PU.1 and IL13Rα1 were shown to be down regulated following miR-155 induction in these cells. Moreover, THP1-155 cells showed that DC-SIGN transcription is regulated by miR-155 levels through PU.1 targeting, and that IL-13 signalling cascade through STAT6 transcription factor was down regulated when miR-155 was over expressed. Using Anti miR-155 transfections in DCs, miR-155 was shown to modulate not only DC-SIGN expression, but also DC pathogen binding ability. Using the same technique in macrophages, miR-155 was shown to modulate IL13Rα1 and STAT6 activation, and to regulate the expression of IL-13/STAT6 dependent genes. Therefore, miR-155 contributes to the pro-Th1 profile by down regulating pro-Th2 factors, acting as a pro-Th1/anti-Th2 modulator in myeloid cells under inflammatory conditions.
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Rocio_Teresa_Martinez-Nunez_PhD_2010.pdf
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Submitted date: October 2010
Organisations:
University of Southampton, Clinical & Experimental Sciences
Identifiers
Local EPrints ID: 196569
URI: http://eprints.soton.ac.uk/id/eprint/196569
PURE UUID: 6b5b49f7-9fbd-41d5-8ecc-76a11246024e
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Date deposited: 09 Sep 2011 08:20
Last modified: 15 Mar 2024 03:29
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Author:
Rocio Teresa Martinez‐Nunez
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