Kristy J. Szretter scite author profile

The differentiation of bone marrow–derived progenitors into monocytes, tissue macrophages and some dendritic cell (DC) subtypes requires the growth factor CSF1 and its receptor, CSF1R. Langerhans cells (LCs) and microglia develop from embryonic myeloid precursors that populate the epidermis and central nervous system (CNS) before birth. Notably, LCs and microglia are present in CSF1-deficient mice but absent from CSF1R-deficient mice. Here we investigated whether an alternative CSF1R ligand, interleukin 34 (IL-34), is responsible for this discrepancy. Through the use of IL-34-deficient (Il34LacZ/LacZ) reporter mice, we found that keratinocytes and neurons were the main sources of IL-34. Il34LacZ/LacZ mice selectively lacked LCs and microglia and responded poorly to skin antigens and viral infection of the CNS. Thus, IL-34 specifically directs differentiation of myeloid cells in the skin epidermis and CNS.

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2′-O methylation of the viral mRNA cap evades host restriction by IFIT family members

Daffis

Szretter

Schriewer

et al. 2010

Nature

774

806

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Cellular mRNA of higher eukaryotes and many viral RNA are methylated at the N-7 and 2′-O positions of the 5′ guanosine cap by specific nuclear and cytoplasmic methyltransferases (MTases), respectively. Whereas N-7 methylation is essential for RNA translation and stability 1, the function of 2′-O methylation has remained uncertain since its discovery 35 years ago 2-4. Here, we show that a West Nile virus (WNV) mutant (E218A) that lacks 2′-O MTase activity was attenuated in wild type primary cells and mice but was pathogenic in the absence of type I interferon (IFN) signaling. 2′-O methylation of viral RNA did not affect IFN induction in WNV-infected fibroblasts but instead modulated the antiviral effects of IFN-induced proteins with tetratricopeptide repeats (IFIT), which are interferon-stimulated genes (ISG) implicated in regulation of protein translation. Poxvirus and coronavirus mutants that lacked 2′-O MTase activity similarly showed enhanced sensitivity to the antiviral actions of IFN and specifically, IFIT proteins. Our results demonstrate that the 2′-O methylation of the 5′ cap of viral RNA functions to subvert innate host antiviral responses through escape of IFIT-mediated suppression, and suggest an evolutionary explanation for 2′-O methylation of cellular mRNA: to distinguish self from non-self RNA. Differential methylation of cytoplasmic RNA likely serves as a paradigm for pattern recognition and restriction of propagation of foreign viral RNA in host cells.

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Ribose 2′-O-methylation provides a molecular signature for the distinction of self and non-self mRNA dependent on the RNA sensor Mda5

et al. 2011

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The 5′ cap structures of higher eukaryote mRNAs have ribose 2′-O-methylation. Likewise, many viruses that replicate in the cytoplasm of eukaryotes have evolved 2′-O-methyltransferases to autonomously modify their mRNAs. However, a defined biological role for 2′-O-methylation of mRNA remains elusive. Here we show that 2′-O-methylation of viral mRNA was critically involved in subverting the induction of type I interferon. We demonstrate that human and mouse coronavirus mutants lacking 2′-O-methyltransferase activity induced higher expression of type I interferon and were highly sensitive to type I interferon. Notably, the induction of type I interferon by viruses deficient in 2′-O-methyltransferase was dependent on the cytoplasmic RNA sensor Mda5. This link between Mda5-mediated sensing of viral RNA and 2′-O-methylation of mRNA suggests that RNA modifications such as 2′-O-methylation provide a molecular signature for the discrimination of self and non-self mRNA.

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Avian Influenza (H5N1) Viruses Isolated from Humans in Asia in 2004 Exhibit Increased Virulence in Mammals

Maines

Erb

et al. 2005

J Virol

428

439

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Role of Host Cytokine Responses in the Pathogenesis of Avian H5N1 Influenza Viruses in Mice

Szretter

Gangappa

et al. 2007

J Virol

349

318

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