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COVID-19 immune signatures in Uganda persist in HIV co-infection and diverge by pandemic phase

Author

Listed:
  • Matthew J. Cummings

    (Columbia University
    Columbia University)

  • Barnabas Bakamutumaho

    (Uganda Virus Research Institute)

  • Julius J. Lutwama

    (Uganda Virus Research Institute)

  • Nicholas Owor

    (Uganda Virus Research Institute)

  • Xiaoyu Che

    (Columbia University
    Columbia University)

  • Maider Astorkia

    (Columbia University)

  • Thomas S. Postler

    (Columbia University)

  • John Kayiwa

    (Uganda Virus Research Institute)

  • Jocelyn Kiconco

    (Uganda Virus Research Institute)

  • Moses Muwanga

    (Entebbe Regional Referral Hospital)

  • Christopher Nsereko

    (Entebbe Regional Referral Hospital)

  • Emmanuel Rwamutwe

    (Entebbe Regional Referral Hospital)

  • Irene Nayiga

    (Entebbe Regional Referral Hospital)

  • Stephen Kyebambe

    (Entebbe Regional Referral Hospital)

  • Mercy Haumba

    (Uganda Virus Research Institute)

  • Henry Kyobe Bosa

    (Uganda Peoples’ Defence Forces
    Ministry of Health)

  • Felix Ocom

    (Ministry of Health)

  • Benjamin Watyaba

    (Uganda Virus Research Institute)

  • Bernard Kikaire

    (Uganda Virus Research Institute
    Makerere University College of Health Sciences)

  • Alin S. Tomoiaga

    (Columbia University
    Manhattan College)

  • Stevens Kisaka

    (Makerere University School of Public Health
    University of Nairobi)

  • Noah Kiwanuka

    (Makerere University School of Public Health)

  • W. Ian Lipkin

    (Columbia University
    Columbia University
    Columbia University)

  • Max R. O’Donnell

    (Columbia University
    Columbia University
    Columbia University)

Abstract

Little is known about the pathobiology of SARS-CoV-2 infection in sub-Saharan Africa, where severe COVID-19 fatality rates are among the highest in the world and the immunological landscape is unique. In a prospective cohort study of 306 adults encompassing the entire clinical spectrum of SARS-CoV-2 infection in Uganda, we profile the peripheral blood proteome and transcriptome to characterize the immunopathology of COVID-19 across multiple phases of the pandemic. Beyond the prognostic importance of myeloid cell-driven immune activation and lymphopenia, we show that multifaceted impairment of host protein synthesis and redox imbalance define core biological signatures of severe COVID-19, with central roles for IL-7, IL-15, and lymphotoxin-α in COVID-19 respiratory failure. While prognostic signatures are generally consistent in SARS-CoV-2/HIV-coinfection, type I interferon responses uniquely scale with COVID-19 severity in persons living with HIV. Throughout the pandemic, COVID-19 severity peaked during phases dominated by A.23/A.23.1 and Delta B.1.617.2/AY variants. Independent of clinical severity, Delta phase COVID-19 is distinguished by exaggerated pro-inflammatory myeloid cell and inflammasome activation, NK and CD8+ T cell depletion, and impaired host protein synthesis. Combining these analyses with a contemporary Ugandan cohort of adults hospitalized with influenza and other severe acute respiratory infections, we show that activation of epidermal and platelet-derived growth factor pathways are distinct features of COVID-19, deepening translational understanding of mechanisms potentially underlying SARS-CoV-2-associated pulmonary fibrosis. Collectively, our findings provide biological rationale for use of broad and targeted immunotherapies for severe COVID-19 in sub-Saharan Africa, illustrate the relevance of local viral and host factors to SARS-CoV-2 immunopathology, and highlight underemphasized yet therapeutically exploitable immune pathways driving COVID-19 severity.

Suggested Citation

  • Matthew J. Cummings & Barnabas Bakamutumaho & Julius J. Lutwama & Nicholas Owor & Xiaoyu Che & Maider Astorkia & Thomas S. Postler & John Kayiwa & Jocelyn Kiconco & Moses Muwanga & Christopher Nsereko, 2024. "COVID-19 immune signatures in Uganda persist in HIV co-infection and diverge by pandemic phase," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-45204-3
    DOI: 10.1038/s41467-024-45204-3
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    References listed on IDEAS

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