The miR-126-VEGFR2 axis controls the innate response to pathogen-associated nucleic acids

Judith Agudo; Albert Ruzo; Navpreet Tung; Hélène Salmon; Marylène Leboeuf; Daigo Hashimoto; Christian Becker; Lee Ann Garrett-Sinha; Alessia Baccarini; Miriam Merad; Brian D. Brown

doi:10.1038/ni.2767

The miR-126-VEGFR2 axis controls the innate response to pathogen-associated nucleic acids

Judith Agudo, Albert Ruzo, Navpreet Tung, Hélène Salmon, Marylène Leboeuf, Daigo Hashimoto, Christian Becker, Lee Ann Garrett-Sinha, Alessia Baccarini, Miriam Merad, Brian D. Brown

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111 Scopus citations

Abstract

miR-126 is a microRNA expressed predominately by endothelial cells and controls angiogenesis. We found miR-126 was required for the innate response to pathogen-associated nucleic acids and that miR-126-deficient mice had greater susceptibility to infection with pseudotyped HIV. Profiling of miRNA indicated that miR-126 had high and specific expression by plasmacytoid dendritic cells (pDCs). Moreover, miR-126 controlled the survival and function of pDCs and regulated the expression of genes encoding molecules involved in the innate response, including Tlr7, Tlr9 and Nfkb1, as well as Kdr, which encodes the growth factor receptor VEGFR2. Deletion of Kdr in DCs resulted in reduced production of type I interferon, which supports the proposal of a role for VEGFR2 in miR-126 regulation of pDCs. Our studies identify the miR-126-VEGFR2 axis as an important regulator of the innate response that operates through multiscale control of pDCs.

Original language	English
Pages (from-to)	54-62
Number of pages	9
Journal	Nature Immunology
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/ni.2767
State	Published - Jan 2014

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title = "The miR-126-VEGFR2 axis controls the innate response to pathogen-associated nucleic acids",

abstract = "miR-126 is a microRNA expressed predominately by endothelial cells and controls angiogenesis. We found miR-126 was required for the innate response to pathogen-associated nucleic acids and that miR-126-deficient mice had greater susceptibility to infection with pseudotyped HIV. Profiling of miRNA indicated that miR-126 had high and specific expression by plasmacytoid dendritic cells (pDCs). Moreover, miR-126 controlled the survival and function of pDCs and regulated the expression of genes encoding molecules involved in the innate response, including Tlr7, Tlr9 and Nfkb1, as well as Kdr, which encodes the growth factor receptor VEGFR2. Deletion of Kdr in DCs resulted in reduced production of type I interferon, which supports the proposal of a role for VEGFR2 in miR-126 regulation of pDCs. Our studies identify the miR-126-VEGFR2 axis as an important regulator of the innate response that operates through multiscale control of pDCs.",

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AU - Agudo, Judith

AU - Ruzo, Albert

AU - Tung, Navpreet

AU - Salmon, Hélène

AU - Leboeuf, Marylène

AU - Hashimoto, Daigo

AU - Becker, Christian

AU - Garrett-Sinha, Lee Ann

AU - Baccarini, Alessia

AU - Merad, Miriam

AU - Brown, Brian D.

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N2 - miR-126 is a microRNA expressed predominately by endothelial cells and controls angiogenesis. We found miR-126 was required for the innate response to pathogen-associated nucleic acids and that miR-126-deficient mice had greater susceptibility to infection with pseudotyped HIV. Profiling of miRNA indicated that miR-126 had high and specific expression by plasmacytoid dendritic cells (pDCs). Moreover, miR-126 controlled the survival and function of pDCs and regulated the expression of genes encoding molecules involved in the innate response, including Tlr7, Tlr9 and Nfkb1, as well as Kdr, which encodes the growth factor receptor VEGFR2. Deletion of Kdr in DCs resulted in reduced production of type I interferon, which supports the proposal of a role for VEGFR2 in miR-126 regulation of pDCs. Our studies identify the miR-126-VEGFR2 axis as an important regulator of the innate response that operates through multiscale control of pDCs.

AB - miR-126 is a microRNA expressed predominately by endothelial cells and controls angiogenesis. We found miR-126 was required for the innate response to pathogen-associated nucleic acids and that miR-126-deficient mice had greater susceptibility to infection with pseudotyped HIV. Profiling of miRNA indicated that miR-126 had high and specific expression by plasmacytoid dendritic cells (pDCs). Moreover, miR-126 controlled the survival and function of pDCs and regulated the expression of genes encoding molecules involved in the innate response, including Tlr7, Tlr9 and Nfkb1, as well as Kdr, which encodes the growth factor receptor VEGFR2. Deletion of Kdr in DCs resulted in reduced production of type I interferon, which supports the proposal of a role for VEGFR2 in miR-126 regulation of pDCs. Our studies identify the miR-126-VEGFR2 axis as an important regulator of the innate response that operates through multiscale control of pDCs.

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The miR-126-VEGFR2 axis controls the innate response to pathogen-associated nucleic acids

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