Binding Of Immune Serine Proteases To Nucleic Acids Enhances Their Nuclear Localization and Promotes Their Cleavage Of Nucleic Acid-Binding Protein Substrates

Blood ◽  
2013 ◽  
Vol 122 (21) ◽  
pp. 3471-3471
Author(s):  
Jennifer Whangbo ◽  
Marshall Thomas ◽  
Geoffrey McCrossan ◽  
Aaron Deutsch ◽  
Kimberly Martinod ◽  
...  
Keyword(s):  
Nucleic Acid ◽  
Nucleic Acids ◽  
Nuclear Localization ◽  
Serine Proteases ◽  
Rna Binding ◽  
Nuclear Accumulation ◽  
Target Cells ◽  
Nucleic Acid Binding ◽  
High Affinity ◽  
Nucleic Acid Binding Proteins

Abstract When released from cytotoxic T lymphocytes and natural killer cells, Granzyme (Gzm) serine proteases induce programmed cell death of pathogen-infected cells and tumor cells. The Gzms rapidly accumulate in the target cell nucleus by an unknown mechanism. Many of the known substrates of GzmA and GzmB, the most abundant killer cell proteases, bind to DNA or RNA. Gzm substrates predicted by unbiased proteomics studies are also highly enriched for nucleic acid binding proteins. Here we show by fluorescence polarization assays that Gzms bind DNA and RNA with nanomolar affinity. We hypothesized that Gzm binding to nucleic acids enhances nuclear accumulation in target cells and facilitates their cleavage of nucleic acid-binding substrates. In fact, RNase treatment of cell lysates reduced cleavage of RNA binding protein (RBP) targets by GzmA and GzmB. Moreover, adding RNA to recombinant RBP substrates greatly enhanced in vitro cleavage by GzmB, but adding RNA to non-nucleic acid binding proteins did not. For example, exogenous RNA enhanced GzmB cleavage of recombinant hnRNP C1 (an RBP) but not LMNB1 (a non-RBP). In addition, GzmB cleaved the RNA-binding HuR protein efficiently only when it was bound to an HuR-binding RNA oligonucleotide, but not in the presence of an equal amount of non-binding RNA. Thus, nucleic acids facilitate Gzm cleavage of nucleic acid binding substrates. To evaluate whether nucleic acid binding influences Gzm trafficking in target cells, we incubated fixed target cells with RNase and then added Gzms. RNA degradation in target cells reduced Gzm cytosolic localization and increased nuclear accumulation. Similarly, pre-incubating Gzms with exogenous competitor DNA reduced Gzm nuclear localization. The Gzms form a monophyletic clade with other immune serine proteases including neutrophil elastase (NE) and cathepsin G (CATG). Upon neutrophil activation, NE translocates to the nucleus to drive the formation of neutrophil extracellular traps (NETs). NE and CATG, but not non-immune serine proteases such as trypsin and pancreatic elastase, also bind DNA with high affinity and localize to the nucleus of permeabilized cells. Consistent with this finding, competitor DNA also blocks the nuclear localization of NE. Moreover NE and CATG localization to NETs depends on DNA binding. Thus the antimicrobial activity of NETs may depend in part upon the affinity of these proteases for DNA. Our findings indicate that high affinity nucleic acid binding is a conserved and functionally important property of serine proteases involved in cell-mediated immunity. Disclosures: Lieberman: Alnylam Pharmaceuticals: Membership on an entity’s Board of Directors or advisory committees.

scholarly journals ProbeRating: a recommender system to infer binding profiles for nucleic acid-binding proteins

2020 ◽  
Vol 36 (18) ◽  
pp. 4797-4804
Author(s):  
Shu Yang ◽  
Xiaoxi Liu ◽  
Raymond T Ng
Keyword(s):  
Nucleic Acid ◽  
Nucleic Acids ◽  
Recommender System ◽  
Binding Proteins ◽  
Rna Binding ◽  
Supplementary Information ◽  
Sequence Information ◽  
Nucleic Acid Binding ◽  
Binding Data ◽  
Nucleic Acid Binding Proteins

Abstract Motivation The interaction between proteins and nucleic acids plays a crucial role in gene regulation and cell function. Determining the binding preferences of nucleic acid-binding proteins (NBPs), namely RNA-binding proteins (RBPs) and transcription factors (TFs), is the key to decipher the protein–nucleic acids interaction code. Today, available NBP binding data from in vivo or in vitro experiments are still limited, which leaves a large portion of NBPs uncovered. Unfortunately, existing computational methods that model the NBP binding preferences are mostly protein specific: they need the experimental data for a specific protein in interest, and thus only focus on experimentally characterized NBPs. The binding preferences of experimentally unexplored NBPs remain largely unknown. Results Here, we introduce ProbeRating, a nucleic acid recommender system that utilizes techniques from deep learning and word embeddings of natural language processing. ProbeRating is developed to predict binding profiles for unexplored or poorly studied NBPs by exploiting their homologs NBPs which currently have available binding data. Requiring only sequence information as input, ProbeRating adapts FastText from Facebook AI Research to extract biological features. It then builds a neural network-based recommender system. We evaluate the performance of ProbeRating on two different tasks: one for RBP and one for TF. As a result, ProbeRating outperforms previous methods on both tasks. The results show that ProbeRating can be a useful tool to study the binding mechanism for the many NBPs that lack direct experimental evidence. and implementation Availability and implementation The source code is freely available at <https://github.com/syang11/ProbeRating>. Supplementary information Supplementary data are available at Bioinformatics online.

scholarly journals Leukocyte Protease Binding to Nucleic Acids Promotes Nuclear Localization and Cleavage of Nucleic Acid Binding Proteins

2014 ◽  
Vol 192 (11) ◽  
pp. 5390-5397 ◽  
Author(s):  
Marshall P. Thomas ◽  
Jennifer Whangbo ◽  
Geoffrey McCrossan ◽  
Aaron J. Deutsch ◽  
Kimberly Martinod ◽  
...  
Keyword(s):  
Nucleic Acid ◽  
Nucleic Acids ◽  
Nuclear Localization ◽  
Binding Proteins ◽  
Nucleic Acid Binding ◽  
Nucleic Acid Binding Proteins

scholarly journals Tsetse Salivary Gland Proteins 1 and 2 Are High Affinity Nucleic Acid Binding Proteins with Residual Nuclease Activity

PLoS ONE ◽  
2012 ◽  
Vol 7 (10) ◽  
pp. e47233 ◽  
Author(s):  
Guy Caljon ◽  
Karin De Ridder ◽  
Benoît Stijlemans ◽  
Marc Coosemans ◽  
Stefan Magez ◽  
...  
Keyword(s):  
Salivary Gland ◽  
Nucleic Acid ◽  
Binding Proteins ◽  
Nuclease Activity ◽  
Nucleic Acid Binding ◽  
High Affinity ◽  
Nucleic Acid Binding Proteins

scholarly journals Nucleic-acid-binding properties of the C2-L1Tc nucleic acid chaperone encoded by L1Tc retrotransposon

2009 ◽  
Vol 424 (3) ◽  
pp. 479-490 ◽  
Author(s):  
Sara R. Heras ◽  
M. Carmen Thomas ◽  
Francisco Macias ◽  
Manuel E. Patarroyo ◽  
Carlos Alonso ◽  
...  
Keyword(s):  
Nucleic Acid ◽  
Nucleic Acids ◽  
Zinc Finger ◽  
Rna Binding ◽  
Nuclear Localization Sequence ◽  
Nucleic Acid Binding ◽  
Binding Model ◽  
Nucleic Acid Chaperone ◽  
Localization Sequence ◽  
Cysteine Motifs

It has been reported previously that the C2-L1Tc protein located in the Trypanosoma cruzi LINE (long interspersed nuclear element) L1Tc 3′ terminal end has NAC (nucleic acid chaperone) activity, an essential activity for retrotransposition of LINE-1. The C2-L1Tc protein contains two cysteine motifs of a C2H2 type, similar to those present in TFIIIA (transcription factor IIIA). The cysteine motifs are flanked by positively charged amino acid regions. The results of the present study show that the C2-L1Tc recombinant protein has at least a 16-fold higher affinity for single-stranded than for double-stranded nucleic acids, and that it exhibits a clear preference for RNA binding over DNA. The C2-L1Tc binding profile (to RNA and DNA) corresponds to a non-co-operative-binding model. The zinc fingers present in C2-L1Tc have a different binding affinity to nucleic acid molecules and also different NAC activity. The RRR and RRRKEK [NLS (nuclear localization sequence)] sequences, as well as the C2H2 zinc finger located immediately downstream of these basic stretches are the main motifs responsible for the strong affinity of C2-L1Tc to RNA. These domains also contribute to bind single- and double-stranded DNA and have a duplex-stabilizing effect. However, the peptide containing the zinc finger situated towards the C-terminal end of C2-L1Tc protein has a slight destabilization effect on a mismatched DNA duplex and shows a strong preference for single-stranded nucleic acids, such as C2-L1Tc. These results provide further insight into the essential properties of the C2-L1Tc protein as a NAC.

scholarly journals Enrichment of Zα domains at cytoplasmic stress granules is due to their innate ability to bind nucleic acids

2021 ◽  
Author(s):  
Luisa Gabriel ◽  
Bharath Srinivasan ◽  
Krzysztof Kuś ◽  
João F. Mata ◽  
Maria João Amorim ◽  
...  
Keyword(s):  
Immune System ◽  
Nucleic Acid ◽  
Nucleic Acids ◽  
Innate Immune System ◽  
Rna Binding ◽  
Stress Granules ◽  
Innate Immune ◽  
Nucleic Acid Binding ◽  
Binding Ability ◽  
Amino Terminal

AbstractZα domains are a subfamily of winged Helix-Turn-Helix (wHTH) domains found exclusively in proteins involved in the nucleic acids sensory pathway of vertebrate innate immune system and host evasion by viral pathogens. Interestingly, they are the only known protein domains that recognise the left-handed helical conformation of both dsDNA and dsRNA, known as Z-DNA and Z-RNA. Previously, it has been demonstrated that ADAR1 and ZBP1, two proteins possessing the Zα domains, localize to cytosolic stress granules. It was further speculated that such localization is principally mediated by Zα domains. To characterize and better understand such distinct and specific localization, we characterised the in vivo interactions and localization pattern for the amino terminal region of human DAI harbouring two Zα domains (ZαβDAI). Using immunoprecipitation and mass spectrometry, we identified several interacting partners that were components of the complex formed by Zα domains and RNAs. Differential interacting partners to wild-type Zα, relative to mutant proteins, demonstrated that most of the physiologically relevant interactions are mediated by the nucleic acid binding ability of the Zαβ. Further, we also show enrichment of selected complex components in cytoplasmic stress granules under conditions of stress. This ability is mostly lost in the mutants of ZαβDAI (ZαβDAI 4×mut) that lack nucleic-acid binding ability. Thus, we posit that the mechanism for the translocation of Zα domain-containing proteins to stress granules is mainly mediated by the nucleic acid binding ability of their Zα domains. Finally, we demonstrate that FUS and PSF/p54nrb, two RNA binding proteins with established roles in stress granules, interact with Zα, which provides strong evidence for a role of these proteins in the innate immune system.

scholarly journals Cross-species analysis of viral nucleic acid interacting proteins identifies TAOKs as innate immune regulators

2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Friederike L. Pennemann ◽  
Assel Mussabekova ◽  
Christian Urban ◽  
Alexey Stukalov ◽  
Line Lykke Andersen ◽  
...  
Keyword(s):  
Nucleic Acid ◽  
Nucleic Acids ◽  
Functional Characterization ◽  
Genetic Material ◽  
Type I ◽  
Nucleic Acid Binding ◽  
Virus Growth ◽  
Interferon Stimulated Genes ◽  
Nucleic Acid Binding Proteins ◽  
Species Specific

AbstractThe cell intrinsic antiviral response of multicellular organisms developed over millions of years and critically relies on the ability to sense and eliminate viral nucleic acids. Here we use an affinity proteomics approach in evolutionary distant species (human, mouse and fly) to identify proteins that are conserved in their ability to associate with diverse viral nucleic acids. This approach shows a core of orthologous proteins targeting viral genetic material and species-specific interactions. Functional characterization of the influence of 181 candidates on replication of 6 distinct viruses in human cells and flies identifies 128 nucleic acid binding proteins with an impact on virus growth. We identify the family of TAO kinases (TAOK1, −2 and −3) as dsRNA-interacting antiviral proteins and show their requirement for type-I interferon induction. Depletion of TAO kinases in mammals or flies leads to an impaired response to virus infection characterized by a reduced induction of interferon stimulated genes in mammals and impaired expression of srg1 and diedel in flies. Overall, our study shows a larger set of proteins able to mediate the interaction between viral genetic material and host factors than anticipated so far, attesting to the ancestral roots of innate immunity and to the lineage-specific pressures exerted by viruses.

scholarly journals Amino Acid Composition in Various Types of Nucleic Acid-Binding Proteins

2021 ◽  
Vol 22 (2) ◽  
pp. 922
Author(s):  
Martin Bartas ◽  
Jiří Červeň ◽  
Simona Guziurová ◽  
Kristyna Slychko ◽  
Petr Pečinka
Keyword(s):  
Amino Acid ◽  
Nucleic Acid ◽  
Nucleic Acids ◽  
Amino Acid Composition ◽  
Acid Composition ◽  
Binding Proteins ◽  
Current Knowledge ◽  
Special Focus ◽  
Nucleic Acid Binding ◽  
Nucleic Acid Binding Proteins

Nucleic acid-binding proteins are traditionally divided into two categories: With the ability to bind DNA or RNA. In the light of new knowledge, such categorizing should be overcome because a large proportion of proteins can bind both DNA and RNA. Another even more important features of nucleic acid-binding proteins are so-called sequence or structure specificities. Proteins able to bind nucleic acids in a sequence-specific manner usually contain one or more of the well-defined structural motifs (zinc-fingers, leucine zipper, helix-turn-helix, or helix-loop-helix). In contrast, many proteins do not recognize nucleic acid sequence but rather local DNA or RNA structures (G-quadruplexes, i-motifs, triplexes, cruciforms, left-handed DNA/RNA form, and others). Finally, there are also proteins recognizing both sequence and local structural properties of nucleic acids (e.g., famous tumor suppressor p53). In this mini-review, we aim to summarize current knowledge about the amino acid composition of various types of nucleic acid-binding proteins with a special focus on significant enrichment and/or depletion in each category.

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