Whole Exome Sequencing of HIV-1 long-term non-progressors identifies rare variants in genes encoding innate immune sensors and signaling molecules

Sara Konstantin Nissen; Mette Christiansen; Marie Helleberg; Kathrine Kjær; Sofie Eg Jørgensen; Jan Gerstoft; Terese L. Katzenstein; Thomas Benfield; Gitte Kronborg; Carsten S. Larsen; Alex Laursen; Gitte Pedersen; Martin R. Jakobsen; Martin Tolstrup; Trine H. Mogensen

doi:10.1038/s41598-018-33481-0

Whole Exome Sequencing of HIV-1 long-term non-progressors identifies rare variants in genes encoding innate immune sensors and signaling molecules

Sara Konstantin Nissen, Mette Christiansen, Marie Helleberg, Kathrine Kjær, Sofie Eg Jørgensen, Jan Gerstoft, Terese L. Katzenstein, Thomas Benfield, Gitte Kronborg, Carsten S. Larsen, Alex Laursen, Gitte Pedersen, Martin R. Jakobsen, Martin Tolstrup, Trine H. Mogensen^*

^*Corresponding author for this work

Department of Clinical Medicine

5 Citations (Scopus)

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Abstract

Common CCR5-∆32 and HLA alleles only explain a minority of the HIV long-term non-progressor (LTNP) and elite controller (EC) phenotypes. To identify rare genetic variants contributing to the slow disease progression phenotypes, we performed whole exome sequencing (WES) on seven LTNPs and four ECs. HLA and CCR5 allele status, total HIV DNA reservoir size, as well as variant-related functional differences between the ECs, LTNPs, and eleven age- and gender-matched HIV-infected non-controllers on antiretroviral therapy (NCARTs) were investigated. Several rare variants were identified in genes involved in innate immune sensing, CD4-dependent infectivity, HIV trafficking, and HIV transcription mainly within the LTNP group. ECs and LTNPs had a significantly lower HIV reservoir compared to NCARTs. Furthermore, three LTNPs with variants affecting HIV nuclear import showed integrated HIV DNA levels below detection limit after in vitro infection. HIV slow progressors with variants in the TLR and NOD2 pathways showed reduced pro-inflammatory responses compared to matched controls. Low-range plasma levels of fibronectin was observed in a LTNP harboring two FN1 variants. Taken together, this study identified rare variants in LTNPs as well as in one EC, which may contribute to understanding of HIV pathogenesis and these slow progressor phenotypes, especially in individuals without protecting CCR5-∆32 and HLA alleles.

Original language	English
Article number	15253
Journal	Scientific Reports
Volume	8
Issue number	1
Pages (from-to)	1-15
ISSN	2045-2322
DOIs	https://doi.org/10.1038/s41598-018-33481-0
Publication status	Published - 2018

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Whole Exome Sequencing of HIV-1 long-term non-progressors identifies rare variants in genes encoding innate immune sensors and signaling moleculesFinal published version, 1.99 MB

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Nissen, S. K., Christiansen, M., Helleberg, M., Kjær, K., Jørgensen, S. E., Gerstoft, J., Katzenstein, T. L., Benfield, T., Kronborg, G., Larsen, C. S., Laursen, A., Pedersen, G., Jakobsen, M. R., Tolstrup, M., & Mogensen, T. H. (2018). Whole Exome Sequencing of HIV-1 long-term non-progressors identifies rare variants in genes encoding innate immune sensors and signaling molecules. Scientific Reports, 8(1), 1-15. [15253]. https://doi.org/10.1038/s41598-018-33481-0

Nissen, SK, Christiansen, M, Helleberg, M, Kjær, K, Jørgensen, SE, Gerstoft, J, Katzenstein, TL, Benfield, T , Kronborg, G, Larsen, CS, Laursen, A, Pedersen, G, Jakobsen, MR, Tolstrup, M & Mogensen, TH 2018, 'Whole Exome Sequencing of HIV-1 long-term non-progressors identifies rare variants in genes encoding innate immune sensors and signaling molecules', Scientific Reports, vol. 8, no. 1, 15253, pp. 1-15. https://doi.org/10.1038/s41598-018-33481-0

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title = "Whole Exome Sequencing of HIV-1 long-term non-progressors identifies rare variants in genes encoding innate immune sensors and signaling molecules",

abstract = "Common CCR5-∆32 and HLA alleles only explain a minority of the HIV long-term non-progressor (LTNP) and elite controller (EC) phenotypes. To identify rare genetic variants contributing to the slow disease progression phenotypes, we performed whole exome sequencing (WES) on seven LTNPs and four ECs. HLA and CCR5 allele status, total HIV DNA reservoir size, as well as variant-related functional differences between the ECs, LTNPs, and eleven age- and gender-matched HIV-infected non-controllers on antiretroviral therapy (NCARTs) were investigated. Several rare variants were identified in genes involved in innate immune sensing, CD4-dependent infectivity, HIV trafficking, and HIV transcription mainly within the LTNP group. ECs and LTNPs had a significantly lower HIV reservoir compared to NCARTs. Furthermore, three LTNPs with variants affecting HIV nuclear import showed integrated HIV DNA levels below detection limit after in vitro infection. HIV slow progressors with variants in the TLR and NOD2 pathways showed reduced pro-inflammatory responses compared to matched controls. Low-range plasma levels of fibronectin was observed in a LTNP harboring two FN1 variants. Taken together, this study identified rare variants in LTNPs as well as in one EC, which may contribute to understanding of HIV pathogenesis and these slow progressor phenotypes, especially in individuals without protecting CCR5-∆32 and HLA alleles.",

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AU - Nissen, Sara Konstantin

AU - Christiansen, Mette

AU - Helleberg, Marie

AU - Kjær, Kathrine

AU - Jørgensen, Sofie Eg

AU - Gerstoft, Jan

AU - Katzenstein, Terese L.

AU - Benfield, Thomas

AU - Kronborg, Gitte

AU - Larsen, Carsten S.

AU - Laursen, Alex

AU - Pedersen, Gitte

AU - Jakobsen, Martin R.

AU - Tolstrup, Martin

AU - Mogensen, Trine H.

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N2 - Common CCR5-∆32 and HLA alleles only explain a minority of the HIV long-term non-progressor (LTNP) and elite controller (EC) phenotypes. To identify rare genetic variants contributing to the slow disease progression phenotypes, we performed whole exome sequencing (WES) on seven LTNPs and four ECs. HLA and CCR5 allele status, total HIV DNA reservoir size, as well as variant-related functional differences between the ECs, LTNPs, and eleven age- and gender-matched HIV-infected non-controllers on antiretroviral therapy (NCARTs) were investigated. Several rare variants were identified in genes involved in innate immune sensing, CD4-dependent infectivity, HIV trafficking, and HIV transcription mainly within the LTNP group. ECs and LTNPs had a significantly lower HIV reservoir compared to NCARTs. Furthermore, three LTNPs with variants affecting HIV nuclear import showed integrated HIV DNA levels below detection limit after in vitro infection. HIV slow progressors with variants in the TLR and NOD2 pathways showed reduced pro-inflammatory responses compared to matched controls. Low-range plasma levels of fibronectin was observed in a LTNP harboring two FN1 variants. Taken together, this study identified rare variants in LTNPs as well as in one EC, which may contribute to understanding of HIV pathogenesis and these slow progressor phenotypes, especially in individuals without protecting CCR5-∆32 and HLA alleles.

AB - Common CCR5-∆32 and HLA alleles only explain a minority of the HIV long-term non-progressor (LTNP) and elite controller (EC) phenotypes. To identify rare genetic variants contributing to the slow disease progression phenotypes, we performed whole exome sequencing (WES) on seven LTNPs and four ECs. HLA and CCR5 allele status, total HIV DNA reservoir size, as well as variant-related functional differences between the ECs, LTNPs, and eleven age- and gender-matched HIV-infected non-controllers on antiretroviral therapy (NCARTs) were investigated. Several rare variants were identified in genes involved in innate immune sensing, CD4-dependent infectivity, HIV trafficking, and HIV transcription mainly within the LTNP group. ECs and LTNPs had a significantly lower HIV reservoir compared to NCARTs. Furthermore, three LTNPs with variants affecting HIV nuclear import showed integrated HIV DNA levels below detection limit after in vitro infection. HIV slow progressors with variants in the TLR and NOD2 pathways showed reduced pro-inflammatory responses compared to matched controls. Low-range plasma levels of fibronectin was observed in a LTNP harboring two FN1 variants. Taken together, this study identified rare variants in LTNPs as well as in one EC, which may contribute to understanding of HIV pathogenesis and these slow progressor phenotypes, especially in individuals without protecting CCR5-∆32 and HLA alleles.

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JF - Scientific Reports

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Whole Exome Sequencing of HIV-1 long-term non-progressors identifies rare variants in genes encoding innate immune sensors and signaling molecules

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