Sequence-dependent inhibition of cGAS and TLR9 DNA sensing by 2 '-O-methyl gapmer oligonucleotides

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dc.contributor.authorValentin, Roxane
dc.contributor.authorWong, Christophe
dc.contributor.authorAlharbi, Arwaf S.
dc.contributor.authorPradeloux, Solene
dc.contributor.authorMorros, Makala P.
dc.contributor.authorLennox, Kim A.
dc.contributor.authorEllyard, Julia
dc.contributor.authorGarcin, Aurelie J.
dc.contributor.authorUllah, Tomalika R.
dc.contributor.authorKusuma, Gina D.
dc.contributor.authorPepin, Genevieve
dc.contributor.authorVinuesa, Carola
dc.date.accessioned2023-07-03T01:24:53Z
dc.date.available2023-07-03T01:24:53Z
dc.date.issued2021
dc.date.updated2022-04-10T08:18:38Z
dc.description.abstractOligonucleotide-based therapeutics have the capacity to engage with nucleic acid immune sensors to activate or block their response, but a detailed understanding of these immunomodulatory effects is currently lacking. We recently showed that 2'-O-methyl (2'OMe) gapmer antisense oligonucleotides (ASOs) exhibited sequence-dependent inhibition of sensing by the RNA sensor Toll-Like Receptor (TLR) 7. Here we discovered that 2'OMe ASOs can also display sequence-dependent inhibitory effects on two major sensors of DNA, namely cyclic GMP-AMP synthase (cGAS) and TLR9. Through a screen of 80 2'OMe ASOs and sequence mutants, we characterized key features within the 20-mer ASOs regulating cGAS and TLR9 inhibition, and identified a highly potent cGAS inhibitor. Importantly, we show that the features of ASOs inhibiting TLR9 differ from those inhibiting cGAS, with only a few sequences inhibiting both pathways. Together with our previous studies, our work reveals a complex pattern of immunomodulation where 95% of the ASOs tested inhibited at least one of TLR7, TLR9 or cGAS by >= 30%, which may confound interpretation of their in vivo functions. Our studies constitute the broadest analysis of the immunomodulatory effect of 2'OMe ASOs on nucleic acid sensing to date and will support refinement of their therapeutic development.en_AU
dc.description.sponsorshipAustralian National Health and Medical Research Council [1081167, 1124485 to M.P.G.]; Australian Research Council [140100594 Future Fellowship to M.P.G.]; Quebec Fonds de Recherche du Quebec (FRSQ) – Sant ´ e [35071 to G.P.]; Fielding Foundation Innovation Award [to M.P.G.]; Victorian Government’s Operational Infrastructure Support Program. Funding for open access charge: Hudson Institute of Medical Research.en_AU
dc.format.mimetypeapplication/pdfen_AU
dc.identifier.issn0305-1048en_AU
dc.identifier.urihttp://hdl.handle.net/1885/293843
dc.language.isoen_AUen_AU
dc.provenanceThis is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial License (http://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited. For commercial re-use, please contact journals.permissions@oup.comen_AU
dc.publisherOxford University Pressen_AU
dc.relationhttp://purl.org/au-research/grants/nhmrc/1081167en_AU
dc.relationhttp://purl.org/au-research/grants/nhmrc/1124485en_AU
dc.relationhttp://purl.org/au-research/grants/arc/FT140100594en_AU
dc.rights© The Author(s) 2021. Published by Oxford University Press on behalf of Nucleic Acids Research.en_AU
dc.rights.licenseCreative Commons Attribution-NonCommercial Licenseen_AU
dc.rights.urihttps://creativecommons.org/licenses/by-nc/4.0/en_AU
dc.sourceNucleic Acids Researchen_AU
dc.titleSequence-dependent inhibition of cGAS and TLR9 DNA sensing by 2 '-O-methyl gapmer oligonucleotidesen_AU
dc.typeJournal articleen_AU
dcterms.accessRightsOpen Accessen_AU
local.bibliographicCitation.issue11en_AU
local.bibliographicCitation.lastpage6099en_AU
local.bibliographicCitation.startpage6082en_AU
local.contributor.affiliationValentin, Roxane, Centre for Innate Immunity and Infectious Diseases, Hudson Institute of Medical Researchen_AU
local.contributor.affiliationWong, Christophe, Centre for Innate Immunity and Infectious Diseases, Hudson Institute of Medical Researchen_AU
local.contributor.affiliationAlharbi, Arwaf S., Centre for Innate Immunity and Infectious Diseases, Hudson Institute of Medical Researchen_AU
local.contributor.affiliationPradeloux, Solene, Centre for Innate Immunity and Infectious Diseases, Hudson Institute of Medical Researchen_AU
local.contributor.affiliationMorros, Makala P., Centre for Innate Immunity and Infectious Diseases, Hudson Institute of Medical Researchen_AU
local.contributor.affiliationLennox, Kim A., Integrated DNA Technologies Inc.en_AU
local.contributor.affiliationEllyard, Julia, College of Health and Medicine, ANUen_AU
local.contributor.affiliationGarcin, Aurelie J., Centre for Innate Immunity and Infectious Diseases, Hudson Institute of Medical Researchen_AU
local.contributor.affiliationUllah, Tomalika R., Centre for Innate Immunity and Infectious Diseases, Hudson Institute of Medical Researchen_AU
local.contributor.affiliationKusuma, Gina D., Ritchie Centre, Hudson Institute of Medical Researchen_AU
local.contributor.affiliationPepin, Genevieve , Centre for Innate Immunity and Infectious Diseases, Hudson Institute of Medical Researchen_AU
local.contributor.affiliationVinuesa, Carola, College of Health and Medicine, ANUen_AU
local.contributor.authoruidEllyard, Julia, u4025223en_AU
local.contributor.authoruidVinuesa, Carola, u4164556en_AU
local.description.notesImported from ARIESen_AU
local.identifier.absfor320402 - Applied immunology (incl. antibody engineering, xenotransplantation and t-cell therapies)en_AU
local.identifier.absfor320403 - Autoimmunityen_AU
local.identifier.ariespublicationa383154xPUB21830en_AU
local.identifier.citationvolume49en_AU
local.identifier.doi10.1093/nar/gkab451en_AU
local.identifier.thomsonID000671550100013
local.publisher.urlhttps://academic.oup.com/en_AU
local.type.statusPublished Versionen_AU

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