PLoS ONE (Apr 2011)

Innate and adaptive immune responses both contribute to pathological CD4 T cell activation in HIV-1 infected Ugandans.

  • Michael A Eller,
  • Kim G Blom,
  • Veronica D Gonzalez,
  • Leigh Anne Eller,
  • Prossy Naluyima,
  • Oliver Laeyendecker,
  • Thomas C Quinn,
  • Noah Kiwanuka,
  • David Serwadda,
  • Nelson K Sewankambo,
  • Boonrat Tasseneetrithep,
  • Maria J Wawer,
  • Ronald H Gray,
  • Mary A Marovich,
  • Nelson L Michael,
  • Mark S de Souza,
  • Fred Wabwire-Mangen,
  • Merlin L Robb,
  • Jeffrey R Currier,
  • Johan K Sandberg

DOI
https://doi.org/10.1371/journal.pone.0018779
Journal volume & issue
Vol. 6, no. 4
p. e18779

Abstract

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HIV-1 disease progression is associated with persistent immune activation. However, the nature of this association is incompletely understood. Here, we investigated immune activation in the CD4 T cell compartment of chronically HIV-1 infected individuals from Rakai, Uganda. Levels of CD4 T cell activation, assessed as co-expression of PD-1, CD38 and HLA-DR, correlated directly to viral load and inversely to CD4 count. Deeper characterization of these cells indicated an effector memory phenotype with relatively frequent expression of Ki67 despite their PD-1 expression, and levels of these cells were inversely associated with FoxP3+ regulatory T cells. We therefore use the term deregulated effector memory (DEM) cells to describe them. CD4 T cells with a DEM phenotype could be generated by antigen stimulation of recall responses in vitro. Responses against HIV-1 and CMV antigens were enriched among the DEM CD4 T cells in patients, and the diverse Vβ repertoire of DEM CD4 T cells suggested they include diverse antigen-specificities. Furthermore, the levels of DEM CD4 T cells correlated directly to soluble CD14 (sCD14) and IL-6, markers of innate immune activation, in plasma. The size of the activated DEM CD4 T cell subset was predictive of the rate of disease progression, whereas IL-6 was only weakly predictive and sCD14 was not predictive. Taken together, these results are consistent with a model where systemic innate immune activation and chronic antigen stimulation of adaptive T cell responses both play important roles in driving pathological CD4 T cell immune activation in HIV-1 disease.