IFIH1 (MDA5) is Required for Innate Immune Detection of Intron-containing RNA Expressed from the HIV-1 Provirus

Overview

Journal bioRxiv

Date 2023 Nov 28

PMID 38014177

Authors

Mehmet Hakan Guney

Karthika Nagalekshmi

Sean Matthew McCauley

Claudia Carbone

Ozkan Aydemir

Jeremy Luban

Affiliations

Soon will be listed here.

Abstract

Antiretroviral therapy (ART) suppresses HIV-1 viremia and prevents progression to AIDS. Nonetheless, chronic inflammation is a common problem for people living with HIV-1 on ART. One possible cause of inflammation is ongoing transcription from HIV-1 proviruses, whether or not the sequences are competent for replication. Previous work has shown that intron-containing RNA expressed from the HIV-1 provirus in primary human blood cells, including CD4 T cells, macrophages, and dendritic cells, activates type 1 interferon. This activation required HIV-1 and was blocked by the XPO1 (CRM1)-inhibitor leptomycin. To identify the innate immune receptor required for detection of intron-containing RNA expressed from the HIV-1 provirus, a loss-of-function screen was performed with shRNA-expressing lentivectors targeting twenty-one candidate genes in human monocyte derived dendritic cells. Among the candidate genes tested, only knockdown of XPO1 (CRM1), IFIH1 (MDA5), or MAVS prevented activation of the IFN-stimulated gene ISG15. The importance of IFIH1 protein was demonstrated by rescue of the knockdown with non-targetable IFIH1 coding sequence. Inhibition of HIV-1-induced ISG15 by the IFIH1-specific Nipah virus V protein, and by IFIH1-transdominant inhibitory CARD-deletion or phosphomimetic point mutations, indicates that IFIH1 filament formation, dephosphorylation, and association with MAVS, are all required for innate immune activation in response to HIV-1 transduction. Since both IFIH1 and DDX58 (RIG-I) signal via MAVS, the specificity of HIV-1 RNA detection by IFIH1 was demonstrated by the fact that DDX58 knockdown had no effect on activation. RNA-Seq showed that IFIH1-knockdown in dendritic cells globally disrupted the induction of IFN-stimulated genes. Finally, specific enrichment of unspliced HIV-1 RNA by IFIH1 was revealed by formaldehyde crosslinking immunoprecipitation (f-CLIP). These results demonstrate that IFIH1 is required for innate immune activation by intron-containing RNA from the HIV-1 provirus, and potentially contributes to chronic inflammation in people living with HIV-1.

References

Bruner K, Murray A, Pollack R, Soliman M, Laskey S, Capoferri A . Defective proviruses rapidly accumulate during acute HIV-1 infection. Nat Med. 2016; 22(9):1043-9. PMC: 5014606. DOI: 10.1038/nm.4156. View

Kandathil A, Sugawara S, Goyal A, Durand C, Quinn J, Sachithanandham J . No recovery of replication-competent HIV-1 from human liver macrophages. J Clin Invest. 2018; 128(10):4501-4509. PMC: 6159970. DOI: 10.1172/JCI121678. View

Brenchley J, Price D, Schacker T, Asher T, Silvestri G, Rao S . Microbial translocation is a cause of systemic immune activation in chronic HIV infection. Nat Med. 2006; 12(12):1365-71. DOI: 10.1038/nm1511. View

Elsner C, Ponnurangam A, Kazmierski J, Zillinger T, Jansen J, Todt D . Absence of cGAS-mediated type I IFN responses in HIV-1-infected T cells. Proc Natl Acad Sci U S A. 2020; 117(32):19475-19486. PMC: 7431009. DOI: 10.1073/pnas.2002481117. View

Motz C, Schuhmann K, Kirchhofer A, Moldt M, Witte G, Conzelmann K . Paramyxovirus V proteins disrupt the fold of the RNA sensor MDA5 to inhibit antiviral signaling. Science. 2013; 339(6120):690-3. DOI: 10.1126/science.1230949. View

Pollack R, Jones R, Pertea M, Bruner K, Martin A, Thomas A . Defective HIV-1 Proviruses Are Expressed and Can Be Recognized by Cytotoxic T Lymphocytes, which Shape the Proviral Landscape. Cell Host Microbe. 2017; 21(4):494-506.e4. PMC: 5433942. DOI: 10.1016/j.chom.2017.03.008. View

Smulevitch S, Bear J, Alicea C, Rosati M, Jalah R, Zolotukhin A . RTE and CTE mRNA export elements synergistically increase expression of unstable, Rev-dependent HIV and SIV mRNAs. Retrovirology. 2006; 3:6. PMC: 1363727. DOI: 10.1186/1742-4690-3-6. View

Wiegand A, Spindler J, Hong F, Shao W, Cyktor J, Cillo A . Single-cell analysis of HIV-1 transcriptional activity reveals expression of proviruses in expanded clones during ART. Proc Natl Acad Sci U S A. 2017; 114(18):E3659-E3668. PMC: 5422779. DOI: 10.1073/pnas.1617961114. View

Parisien J, Bamming D, Komuro A, Ramachandran A, Rodriguez J, Barber G . A shared interface mediates paramyxovirus interference with antiviral RNA helicases MDA5 and LGP2. J Virol. 2009; 83(14):7252-60. PMC: 2704796. DOI: 10.1128/JVI.00153-09. View

10.

Krishnan S, Schouten J, Atkinson B, Brown T, Wohl D, McComsey G . Metabolic syndrome before and after initiation of antiretroviral therapy in treatment-naive HIV-infected individuals. J Acquir Immune Defic Syndr. 2012; 61(3):381-9. PMC: 3480980. DOI: 10.1097/QAI.0b013e3182690e3c. View

11.

Sajadi M, Pulijala R, Redfield R, Talwani R . Chronic immune activation and decreased CD4 cell counts associated with hepatitis C infection in HIV-1 natural viral suppressors. AIDS. 2012; 26(15):1879-84. PMC: 3772623. DOI: 10.1097/QAD.0b013e328357f5d1. View

12.

Wong J, Hezareh M, Gunthard H, Havlir D, Ignacio C, Spina C . Recovery of replication-competent HIV despite prolonged suppression of plasma viremia. Science. 1997; 278(5341):1291-5. DOI: 10.1126/science.278.5341.1291. View

13.

Olson A, Coote C, Snyder-Cappione J, Lin N, Sagar M . HIV-1 Transcription but Not Intact Provirus Levels are Associated With Systemic Inflammation. J Infect Dis. 2020; 223(11):1934-1942. PMC: 8176637. DOI: 10.1093/infdis/jiaa657. View

14.

Grinspoon S, Fitch K, Zanni M, Fichtenbaum C, Umbleja T, Aberg J . Pitavastatin to Prevent Cardiovascular Disease in HIV Infection. N Engl J Med. 2023; 389(8):687-699. PMC: 10564556. DOI: 10.1056/NEJMoa2304146. View

15.

Dominguez-Villar M, Gautron A, de Marcken M, Keller M, Hafler D . TLR7 induces anergy in human CD4(+) T cells. Nat Immunol. 2014; 16(1):118-28. PMC: 4413902. DOI: 10.1038/ni.3036. View

16.

Childs K, Andrejeva J, Randall R, Goodbourn S . Mechanism of mda-5 Inhibition by paramyxovirus V proteins. J Virol. 2008; 83(3):1465-73. PMC: 2620892. DOI: 10.1128/JVI.01768-08. View

17.

Imamichi H, Dewar R, Adelsberger J, Rehm C, ODoherty U, Paxinos E . Defective HIV-1 proviruses produce novel protein-coding RNA species in HIV-infected patients on combination antiretroviral therapy. Proc Natl Acad Sci U S A. 2016; 113(31):8783-8. PMC: 4978246. DOI: 10.1073/pnas.1609057113. View

18.

Chun T, Stuyver L, Mizell S, Ehler L, Mican J, Baseler M . Presence of an inducible HIV-1 latent reservoir during highly active antiretroviral therapy. Proc Natl Acad Sci U S A. 1997; 94(24):13193-7. PMC: 24285. DOI: 10.1073/pnas.94.24.13193. View

19.

Manel N, Hogstad B, Wang Y, Levy D, Unutmaz D, Littman D . A cryptic sensor for HIV-1 activates antiviral innate immunity in dendritic cells. Nature. 2010; 467(7312):214-7. PMC: 3051279. DOI: 10.1038/nature09337. View

20.

Kato H, Sato S, Yoneyama M, Yamamoto M, Uematsu S, Matsui K . Cell type-specific involvement of RIG-I in antiviral response. Immunity. 2005; 23(1):19-28. DOI: 10.1016/j.immuni.2005.04.010. View