HTLV-1 induces an inflammatory CD4+CD8+ T cell population in HTLV-1–associated myelopathy
Allison K. Maher, … , Graham P. Taylor, Margarita Dominguez-Villar
Allison K. Maher, … , Graham P. Taylor, Margarita Dominguez-Villar
Published January 9, 2024
Citation Information: JCI Insight. 2024;9(1):e173738. https://doi.org/10.1172/jci.insight.173738.
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Research Article Immunology

HTLV-1 induces an inflammatory CD4+CD8+ T cell population in HTLV-1–associated myelopathy

Abstract

Human T cell leukemia virus type 1 (HTLV-1) is a retrovirus with preferential CD4+ T cell tropism that causes a range of conditions spanning from asymptomatic infection to adult T cell leukemia and HTLV-1–associated myelopathy (HAM), an inflammatory disease of the CNS. The mechanisms by which HTLV-1 induces HAM are poorly understood. By directly examining the ex vivo phenotype and function of T cells from asymptomatic carriers and patients with HAM, we show that patients with HAM have a higher frequency of CD4+CD8+ double-positive (DP) T cells, which are infected with HTLV-1 at higher rates than CD4+ T cells. Displaying both helper and cytotoxic phenotypes, these DP T cells are highly proinflammatory and contain high frequencies of HTLV-1–specific cells. Mechanistically, we demonstrate that DP T cells arise by direct HTLV-1 infection of CD4+ and CD8+ T cells. High levels of CD49d and CXCR3 expression suggest that DP T cells possess the ability to migrate to the CNS, and when cocultured with astrocytes, DP T cells induce proinflammatory astrocytes that express high levels of CXCL10, IFN-γ, and IL-6. These results demonstrate the potential of DP T cells to directly contribute to CNS pathology.

Authors

Allison K. Maher, Aris Aristodemou, Nicolas Giang, Yuetsu Tanaka, Charles R.M. Bangham, Graham P. Taylor, Margarita Dominguez-Villar

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Figure 1

Frequency and HTLV-1 infection rate of DP T cells.

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Frequency and HTLV-1 infection rate of DP T cells. (A) Representative fl...
(A) Representative flow plot of CD4 and CD8 expression in viable singlet CD3+ cells in a HTLV-1 carrier showing CD4+, CD8+, double-negative (DN), and double-positive (DP) T cells. (B) Box-and-whisker plot displaying the frequencies of peripheral T cell populations (n = 14 UC, n = 19 AC lPVL, n = 18 AC hPVL, n = 13 HAM). (C and D) Representative flow plot (C) and box-and-whisker plot (D) showing Tax expression in different T cell populations after 12 hours in culture (n = 15 AC lPVL, n = 17 AC hPVL, n = 13 HAM). (E) Scatter plot of Tax expression after 12 hours in culture versus the proviral load measured by ddPCR (CD4 and DN: n = 7 AC hPVL, n = 6 HAM; CD8 and DP: n = 7 AC hPVL, n = 5 HAM). (F) Box-and-whisker plot displaying the contribution of CD4+ SP, CD8+ SP, DP, and DN T cells to total Tax expression in CD3+ T cells (n = 15 AC lPVL, n = 16 AC hPVL, n = 13 HAM). (G) Box-and-whisker plot of Tax expression in DP T cell subpopulations (n = 15 AC lPVL, n = 16 AC hPVL, n = 13 HAM). Wilcoxon signed-rank unpaired test for comparisons between UC and AC lPVL, UC and HAM, AC lPVL and AC hPVL, and AC hPVL and HAM (B); Wilcoxon signed-rank paired test with Holm correction for all possible multiple comparisons (D); Pearson correlation coefficient (R) and P value (E); Wilcoxon signed-rank paired test with Holm correction for comparisons between CD4 and CD8, CD4 and DP, and CD8 and DP (F); Wilcoxon signed-rank unpaired test for comparisons between AC lPVL and AC hPVL, and AC hPVL and HAM (G). *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.