Biomedicines (Mar 2023)

How CD4<sup>+</sup> T Cells Transcriptional Profile Is Affected by Culture Conditions: Towards the Design of Optimal In Vitro HIV Reactivation Assays

  • Giuseppe Rubens Pascucci,
  • Elena Morrocchi,
  • Chiara Pighi,
  • Arianna Rotili,
  • Alessia Neri,
  • Chiara Medri,
  • Giulio Olivieri,
  • Marco Sanna,
  • Gianmarco Rasi,
  • Deborah Persaud,
  • Ann Chahroudi,
  • Mathias Lichterfeld,
  • Eleni Nastouli,
  • Caterina Cancrini,
  • Donato Amodio,
  • Paolo Rossi,
  • Nicola Cotugno,
  • Paolo Palma

DOI
https://doi.org/10.3390/biomedicines11030888
Journal volume & issue
Vol. 11, no. 3
p. 888

Abstract

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Most of the current assays directed at the investigation of HIV reactivation are based on cultures of infected cells such as Peripheral Blood Mononuclear Cells (PBMCs) or isolated CD4+ T cells, stimulated in vitro with different activator molecules. The culture media in these in vitro tests lack many age- and donor-specific immunomodulatory components normally found within the autologous plasma. This triggered our interest in understanding the impact that different matrices and cell types have on T cell transcriptional profiles following in vitro culture and stimulation. Methods: Unstimulated or stimulated CD4+ T cells of three young adults with perinatal HIV-infection were isolated from PBMCs before or after culture in RPMI medium or autologous plasma. Transcriptomes were sequenced using Oxford Nanopore technologies. Results: Transcriptional profiles revealed the activation of similar pathways upon stimulation in both media with a higher magnitude of TCR cascade activation in CD4+ lymphocytes cultured in RPMI. Conclusions: These results suggest that for studies aiming at quantifying the magnitude of biological mechanisms under T cell activation, the autologous plasma could better approximate the in vivo environment. Conversely, if the study aims at defining qualitative aspects, then RPMI culture could provide more evident results.

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