Emad Alqassim scite author profile

Background Protein recoding by RNA editing is required for normal health and evolutionary adaptation. However, de novo induction of RNA editing in response to environmental factors is an uncommon phenomenon. While APOBEC3A edits many mRNAs in monocytes and macrophages in response to hypoxia and interferons, the physiological significance of such editing is unclear. Results Here, we show that the related cytidine deaminase, APOBEC3G, induces site-specific C-to-U RNA editing in natural killer cells, lymphoma cell lines, and, to a lesser extent, CD8-positive T cells upon cellular crowding and hypoxia. In contrast to expectations from its anti-HIV-1 function, the highest expression of APOBEC3G is shown to be in cytotoxic lymphocytes. RNA-seq analysis of natural killer cells subjected to cellular crowding and hypoxia reveals widespread C-to-U mRNA editing that is enriched for genes involved in mRNA translation and ribosome function. APOBEC3G promotes Warburg-like metabolic remodeling in HuT78 T cells under similar conditions. Hypoxia-induced RNA editing by APOBEC3G can be mimicked by the inhibition of mitochondrial respiration and occurs independently of HIF-1α. Conclusions APOBEC3G is an endogenous RNA editing enzyme in primary natural killer cells and lymphoma cell lines. This RNA editing is induced by cellular crowding and mitochondrial respiratory inhibition to promote adaptation to hypoxic stress. Electronic supplementary material The online version of this article (10.1186/s13059-019-1651-1) contains supplementary material, which is available to authorized users.

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RNA editing enzyme APOBEC3A promotes pro-inflammatory M1 macrophage polarization

Alqassim

Sharma

Khan

et al. 2021

Commun Biol

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Pro-inflammatory M1 macrophage polarization is associated with microbicidal and antitumor responses. We recently described APOBEC3A-mediated cytosine-to-uracil (C > U) RNA editing during M1 polarization. However, the functional significance of this editing is unknown. Here we find that APOBEC3A-mediated cellular RNA editing can also be induced by influenza or Maraba virus infections in normal human macrophages, and by interferons in tumor-associated macrophages. Gene knockdown and RNA_Seq analyses show that APOBEC3A mediates C>U RNA editing of 209 exonic/UTR sites in 203 genes during M1 polarization. The highest level of nonsynonymous RNA editing alters a highly-conserved amino acid in THOC5, which encodes a nuclear mRNA export protein implicated in M-CSF-driven macrophage differentiation. Knockdown of APOBEC3A reduces IL6, IL23A and IL12B gene expression, CD86 surface protein expression, and TNF-α, IL-1β and IL-6 cytokine secretion, and increases glycolysis. These results show a key role of APOBEC3A cytidine deaminase in transcriptomic and functional polarization of M1 macrophages.

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T Cell–Derived CD70 Delivers an Immune Checkpoint Function in Inflammatory T Cell Responses

O'Neill

Mohammadpour

et al. 2017

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The CD27–CD70 pathway is known to provide a costimulatory signal with CD70 expressed on antigen-presenting cells while CD27 functioning on T cells. Although CD70 is also expressed on activated T cells, it remains unclear how T cell-derived CD70 affects T cell function. Therefore, we have assessed the role of T cell-derived CD70 using adoptive transfer models including autoimmune inflammatory bowel disease (IBD) and allogeneic graft-versus-host disease (GVHD). Compared with WT T cells, CD70−/− T cells surprisingly caused more severe IBD and GVHD and produced higher levels of inflammatory cytokines. Mechanistic analyses reveal that IFN-γ induces CD70 expression in T cells, and CD70 limits T cell expansion via a regulatory T cell-independent mechanism that involves caspase-dependent T cell apoptosis and upregulation of inhibitory immune checkpoint molecules. Notably, T cell intrinsic CD70 signaling contributes as least partially to the inhibitory checkpoint function. Overall, our findings demonstrate for the first time that T cell-derived CD70 plays a novel immune checkpoint role in inhibiting inflammatory T cell responses. This study suggests that T cell-derived CD70 performs a critical negative feedback function to downregulate inflammatory T cell responses.

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Quantification of Early-Stage Myeloid-Derived Suppressor Cells in Cancer Requires Excluding Basophils

Khan

Emmons

Wong

et al. 2020

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Supplementary data -Supplementary Table S1 and Supplementary Fig. S1 Author contributions ANHK and BHS developed the study and wrote the manuscript. ANHK, TRE, EA, BS, and BHS designed and performed experiments and analyzed data. JTW performed morphological analysis and JM performed clinical data analysis. KHE oversaw the statistical analysis. KLS, TRE, JM, and JTW contributed to the manuscript preparation. JDT, KBM, KO, SIA, and BHS provided technical support and conceptual advice. All authors discussed the results and implications and commented on the manuscript at all stages.

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Emad Alqassim

Mitochondrial hypoxic stress induces widespread RNA editing by APOBEC3G in natural killer cells

RNA editing enzyme APOBEC3A promotes pro-inflammatory M1 macrophage polarization

T Cell–Derived CD70 Delivers an Immune Checkpoint Function in Inflammatory T Cell Responses

Quantification of Early-Stage Myeloid-Derived Suppressor Cells in Cancer Requires Excluding Basophils

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