Exploration of Immunology (Jun 2024)

Dengue virus infection induces complement factor H but protein remains cell-associated, with changes intracellularly and in cell surface binding

  • Joshua G. Dubowsky,
  • Binoy Appukuttan,
  • Evangeline Cowell,
  • Valeria Sanders,
  • David L. Gordon,
  • Jillian M. Carr

DOI
https://doi.org/10.37349/ei.2024.00147
Journal volume & issue
Vol. 4, no. 3
pp. 376 – 393

Abstract

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Aim: Severe dengue is correlated with a decrease in the circulating complement regulator, factor H (FH) and prior work has shown that dengue virus (DENV) infection induces FH mRNA but not FH protein release. Here, the mechanisms of this phenomenon were defined. Methods: HEK293 cells were infected with DENV-2 and changes in FH mRNA and protein were analyzed by real time reverse transcription-polymerase chain reaction (RT-PCR), enzyme-linked immunosorbent assay (ELISA), and fluorescent microscopy. Additionally, cells were stimulated with size fractionated supernatants from DENV-infected cells, supernatant containing DENV non-structural protein-1 (NS1) without virus particles, and infections performed with or without the toll-like receptor-4 (TLR4) antagonist, TAK-242. Mass spectrometry was used to define the protein content of the fractionated supernatant, and treatment of cells with sialidase or heparinase was used to define cell-associated FH protein. Results: DENV-infection induced full-length FH mRNA and cell-associated FH protein. Microscopy demonstrated membrane and intracellular-associated FH with a cytoskeletal and perinuclear localisation, in both DENV positive and uninfected neighboring bystander cells. Fractionation of cultured supernatant from DENV-infected cells demonstrated that secreted factors > 50 (kilodaltons) kDa induced FH mRNA and this could be blocked with TAK-242 but was not simulated by the TLR4 agonist, DENV NS1. Mass spectrometry detected DENV envelope, membrane and NS1, complement component 5 (C5), and complement FB, and indicated a > 20-fold increase in C4, inter-alpha-trypsin inhibitor heavy chain H2 (ITIH2), and alpha-2-macroglobulin in the > 50 kDa fraction from DENV-infected compared with conditioned media from uninfected cells. Sialic acid levels were unchanged and cleavage did not affect release of FH from DENV-infected compared to uninfected cells. In contrast, sulphated glycosaminoglycans (GAGs) were reduced in the cultured supernatant and cell lysates following DENV-infection, and heparinase cleavage released significantly more FH from DENV-compared with uninfected cells. Conclusions: Following DENV-infection, secreted molecules induce FH that remains intracellular and with increased binding to cell surface heparan sulphate. The mediators of induction of FH mRNA act in trans and via TLR4 but this is not likely to be via DENV NS1. The retention of FH in the local environment of the infected cell could benefit the virus by negating local complement killing of cells, and/or benefit the host by inhibition of heparan sulphate-mediated DENV infection to restrict viral spread.

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