Decreased progenitor TCF1 + T-cells correlate with COVID-19 disease severity.
Thai Hien TuAmi GrunbaumFrançois SantinonAlexandra KazanovaNicholas RozzaRichard KremerCatalin MihalcioiuChristopher E RuddPublished in: Communications biology (2024)
COVID-19, caused by SARS-CoV-2, can lead to a severe inflammatory disease characterized by significant lymphopenia. However, the underlying cause for the depletion of T-cells in COVID-19 patients remains incompletely understood. In this study, we assessed the presence of different T-cell subsets in the progression of COVID-19 from mild to severe disease, with a focus on TCF1 expressing progenitor T-cells that are needed to replenish peripheral T-cells during infection. Our results showed a preferential decline in TCF1+ progenitor CD4 and CD8+ T-cells with disease severity. This decline was seen in various TCF1+ subsets including naive, memory and effector-memory cells, and surprisingly, was accompanied by a loss in cell division as seen by a marked decline in Ki67 expression. In addition, TCF1+ T-cells showed a reduction in pro-survival regulator, BcL2, and the appearance of a new population of TCF1 negative caspase-3 expressing cells in peripheral blood from patients with severe disease. The decline in TCF1+ T-cells was also seen in a subgroup of severe patients with vitamin D deficiency. Lastly, we found that sera from severe patients inhibited TCF1 transcription ex vivo which was attenuated by a blocking antibody against the cytokine, interleukin-12 (IL12). Collectively, our findings underscore the potential significance of TCF1+ progenitor T-cells in accounting for the loss of immunity in severe COVID-19 and outline an array of markers that could be used to identify disease progression.
Keyphrases
- sars cov
- coronavirus disease
- peripheral blood
- induced apoptosis
- early onset
- respiratory syndrome coronavirus
- end stage renal disease
- chronic kidney disease
- poor prognosis
- working memory
- clinical trial
- stem cells
- ejection fraction
- squamous cell carcinoma
- cell cycle arrest
- oxidative stress
- risk assessment
- cell death
- peritoneal dialysis
- single cell
- high resolution
- transcription factor
- signaling pathway
- radiation therapy
- mesenchymal stem cells
- randomized controlled trial
- cell proliferation
- cell fate
- climate change
- lymph node
- cell therapy
- free survival
- double blind
- type iii