Abstract
Reactivation of the BK polyomavirus is known to lead to severe complications in kidney transplant patients. The current treatment strategy relies on decreasing the immunosuppression to allow the immune system to clear the virus. Recently, we demonstrated a clear association between the resolution of BKV reactivation and reconstitution of BKV-specific CD4+ T-cells. However, which factors determine the duration of viral infection clearance remains so far unclear. Here we apply a combination of in-depth multi-parametric flow cytometry and NGS-based CDR3 beta chain receptor repertoire analysis of BKV-specific T-cells to a cohort of 7 kidney transplant patients during the clinical course of BKV reactivation. This way we followed TCR repertoires at single clone levels and functional activity of BKV-specific T-cells during the resolution of BKV infection. The duration of BKV clearance did not depend on the number of peripheral blood BKV-specific T-cells nor on a few immunodominant BKV-specific T-cell clones. Rather, the T-cell receptor repertoire diversity and exhaustion status of BKV-specific T-cells affected the duration of viral clearance: high clonotype diversity and lack of PD1 and TIM3 exhaustion markers on BKV-specific T-cells was associated with short clearance time. Our data thus demonstrate how the diversity and the exhaustion state of the T-cells can determine the clinical course of BKV infection.
Highlights
Immunosuppression is one of the most important factors contributing to reactivation of the latent BK polyomavirus (BKV) [1]
We demonstrated an improved strategy for monitoring of BKVspecific T-cells by multi-parameter flow cytometry and provided in-depth characteristics of BKV-specific T-cells associated with the initiation of BKV load decline [6]
We found a strong correlation between the BKV clearance time and T-cell receptor (TCR) repertoire diversity as well as the expression of exhaustion markers on the surface of BKVspecific T-cells
Summary
Immunosuppression is one of the most important factors contributing to reactivation of the latent BK polyomavirus (BKV) [1]. BKV reactivation can be observed in up to 80% of all kidney-transplant recipients [2]. In as many as 10% of the cases, patients develop BKV-associated nephropathy (BKVAN) which can lead to graft loss [2]. We and others previously demonstrated a strong decrease of the BKV load upon reconstitution of BKVspecific T-cells in renal transplant patients [4, 5]. We demonstrated an improved strategy for monitoring of BKVspecific T-cells by multi-parameter flow cytometry and provided in-depth characteristics of BKV-specific T-cells associated with the initiation of BKV load decline [6]
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