A novel miR1983-TLR7-IFNβ circuit licenses NK cells to kill glioma cells, and is under the control of galectin-1

Although pharmacological stimulation of TLRs has anti-tumor effects, it has not been determined whether endogenous stimulation of TLRs can lead to tumor rejection. Herein, we demonstrate the existence of an innate anti-glioma NK-mediated circuit initiated by glioma-released miR-1983 within exosomes,...

Descripción completa

Detalles Bibliográficos
Autores principales: Shah, Diana, Comba, Andrea, Faisal, Syed M., Kadiyala, Padma, Baker, Gregory J., Alghamri, Mahmoud S., Doherty, Robert, Zamler, Daniel, Nuñez, Gabriel, Castro, Maria G., Lowenstein, Pedro R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Taylor & Francis 2021
Materias:
Original Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8244780/
https://www.ncbi.nlm.nih.gov/pubmed/34249474
http://dx.doi.org/10.1080/2162402X.2021.1939601
_version_ 1783715994411204608
author Shah, Diana
Comba, Andrea
Faisal, Syed M.
Kadiyala, Padma
Baker, Gregory J.
Alghamri, Mahmoud S.
Doherty, Robert
Zamler, Daniel
Nuñez, Gabriel
Castro, Maria G.
Lowenstein, Pedro R.
author_facet Shah, Diana
Comba, Andrea
Faisal, Syed M.
Kadiyala, Padma
Baker, Gregory J.
Alghamri, Mahmoud S.
Doherty, Robert
Zamler, Daniel
Nuñez, Gabriel
Castro, Maria G.
Lowenstein, Pedro R.
author_sort Shah, Diana
collection PubMed
description Although pharmacological stimulation of TLRs has anti-tumor effects, it has not been determined whether endogenous stimulation of TLRs can lead to tumor rejection. Herein, we demonstrate the existence of an innate anti-glioma NK-mediated circuit initiated by glioma-released miR-1983 within exosomes, and which is under the regulation of galectin-1 (Gal-1). We demonstrate that miR-1983 is an endogenous TLR7 ligand that activates TLR7 in pDCs and cDCs through a 5ʹ-UGUUU-3ʹ motif at its 3ʹ end. TLR7 activation and downstream signaling through MyD88-IRF5/IRF7 stimulates secretion of IFN-β. IFN-β then stimulates NK cells resulting in the eradication of gliomas. We propose that successful immunotherapy for glioma could exploit this endogenous innate immune circuit to activate TLR7 signaling and stimulate powerful anti-glioma NK activity, at least 10–14 days before the activation of anti-tumor adaptive immunity.
format Online
Article
Text
id pubmed-8244780
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher Taylor & Francis
record_format MEDLINE/PubMed
spelling pubmed-82447802021-07-09 A novel miR1983-TLR7-IFNβ circuit licenses NK cells to kill glioma cells, and is under the control of galectin-1 Shah, Diana Comba, Andrea Faisal, Syed M. Kadiyala, Padma Baker, Gregory J. Alghamri, Mahmoud S. Doherty, Robert Zamler, Daniel Nuñez, Gabriel Castro, Maria G. Lowenstein, Pedro R. Oncoimmunology Original Research Although pharmacological stimulation of TLRs has anti-tumor effects, it has not been determined whether endogenous stimulation of TLRs can lead to tumor rejection. Herein, we demonstrate the existence of an innate anti-glioma NK-mediated circuit initiated by glioma-released miR-1983 within exosomes, and which is under the regulation of galectin-1 (Gal-1). We demonstrate that miR-1983 is an endogenous TLR7 ligand that activates TLR7 in pDCs and cDCs through a 5ʹ-UGUUU-3ʹ motif at its 3ʹ end. TLR7 activation and downstream signaling through MyD88-IRF5/IRF7 stimulates secretion of IFN-β. IFN-β then stimulates NK cells resulting in the eradication of gliomas. We propose that successful immunotherapy for glioma could exploit this endogenous innate immune circuit to activate TLR7 signaling and stimulate powerful anti-glioma NK activity, at least 10–14 days before the activation of anti-tumor adaptive immunity. Taylor & Francis 2021-06-28 /pmc/articles/PMC8244780/ /pubmed/34249474 http://dx.doi.org/10.1080/2162402X.2021.1939601 Text en © 2021 The Author(s). Published with license by Taylor & Francis Group, LLC. https://creativecommons.org/licenses/by-nc/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial License (http://creativecommons.org/licenses/by-nc/4.0/ (https://creativecommons.org/licenses/by-nc/4.0/) ), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Research
Shah, Diana
Comba, Andrea
Faisal, Syed M.
Kadiyala, Padma
Baker, Gregory J.
Alghamri, Mahmoud S.
Doherty, Robert
Zamler, Daniel
Nuñez, Gabriel
Castro, Maria G.
Lowenstein, Pedro R.
A novel miR1983-TLR7-IFNβ circuit licenses NK cells to kill glioma cells, and is under the control of galectin-1
title A novel miR1983-TLR7-IFNβ circuit licenses NK cells to kill glioma cells, and is under the control of galectin-1
title_full A novel miR1983-TLR7-IFNβ circuit licenses NK cells to kill glioma cells, and is under the control of galectin-1
title_fullStr A novel miR1983-TLR7-IFNβ circuit licenses NK cells to kill glioma cells, and is under the control of galectin-1
title_full_unstemmed A novel miR1983-TLR7-IFNβ circuit licenses NK cells to kill glioma cells, and is under the control of galectin-1
title_short A novel miR1983-TLR7-IFNβ circuit licenses NK cells to kill glioma cells, and is under the control of galectin-1
title_sort novel mir1983-tlr7-ifnβ circuit licenses nk cells to kill glioma cells, and is under the control of galectin-1
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8244780/
https://www.ncbi.nlm.nih.gov/pubmed/34249474
http://dx.doi.org/10.1080/2162402X.2021.1939601
work_keys_str_mv AT shahdiana anovelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT combaandrea anovelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT faisalsyedm anovelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT kadiyalapadma anovelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT bakergregoryj anovelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT alghamrimahmouds anovelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT dohertyrobert anovelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT zamlerdaniel anovelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT nunezgabriel anovelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT castromariag anovelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT lowensteinpedror anovelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT shahdiana novelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT combaandrea novelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT faisalsyedm novelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT kadiyalapadma novelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT bakergregoryj novelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT alghamrimahmouds novelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT dohertyrobert novelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT zamlerdaniel novelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT nunezgabriel novelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT castromariag novelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1
AT lowensteinpedror novelmir1983tlr7ifnbcircuitlicensesnkcellstokillgliomacellsandisunderthecontrolofgalectin1

Ejemplares similares