Background: The efficiency and mechanisms of adoptive transfer of cytomegalovirus (CMV)specific T cells for refractory CMV infection after haploidentical stem cell transplantation (haplo-SCT) remain largely unknown. Methods: Thirty-two patients with refractory CMV infection who accepted treatment with adoptive CMV-specific T-cell infusion following haplo-SCT were prospectively enrolled. Another 32 patients with nonrefractory CMV infection after haplo-SCT were selected as control subjects. The phenotypical and functional characteristics of CMV-specific T cells were analyzed before and after cellular therapy in the refractory cohort, as well as in the nonrefractory cohort. Results: In the refractory cohort, 27 of the 32 treated patients exhibited CMV clearance within 4 weeks after adoptive T-cell transfer without recurrence. The in vivo expansion of CMV-specific T cells and improvements in the cytokine production and proliferation ability of the CMV-specific T cells were observed after cellular therapy. Moreover, a reduced expression of programmed death-1 (PD-1) on CMV-specific T cells was observed. However, in the remaining 5 patients who showed CMV recurrence 4 weeks after transfer, neither the quantity nor the function of CMV-specific T cells was restored. Conclusions: The adoptive transfer of CMV-specific T cells promotes quantitative and functional recovery of CMV-specific T cells to guard against refractory CMV infection after haplo-SCT.
Background: The efficiency and mechanisms of adoptive transfer of cytomegalovirus (CMV)specific T cells for refractory CMV infection after haploidentical stem cell transplantation (haplo-SCT) remain largely unknown. Methods: Thirty-two patients with refractory CMV infection who accepted treatment with adoptive CMV-specific T-cell infusion following haplo-SCT were prospectively enrolled. Another 32 patients with nonrefractory CMV infection after haplo-SCT were selected as control subjects. The phenotypical and functional characteristics of CMV-specific T cells were analyzed before and after cellular therapy in the refractory cohort, as well as in the nonrefractory cohort. Results: In the refractory cohort, 27 of the 32 treated patients exhibited CMV clearance within 4 weeks after adoptive T-cell transfer without recurrence. The in vivo expansion of CMV-specific T cells and improvements in the cytokine production and proliferation ability of the CMV-specific T cells were observed after cellular therapy. Moreover, a reduced expression of programmed death-1 (PD-1) on CMV-specific T cells was observed. However, in the remaining 5 patients who showed CMV recurrence 4 weeks after transfer, neither the quantity nor the function of CMV-specific T cells was restored. Conclusions: The adoptive transfer of CMV-specific T cells promotes quantitative and functional recovery of CMV-specific T cells to guard against refractory CMV infection after haplo-SCT.
Authors: Allistair A Abraham; Tami D John; Michael D Keller; C Russell N Cruz; Baheyeldin Salem; Lauren Roesch; Hao Liu; Fahmida Hoq; Bambi J Grilley; Adrian P Gee; Hema Dave; David A Jacobsohn; Robert A Krance; Elizabeth J Shpall; Caridad A Martinez; Patrick J Hanley; Catherine M Bollard Journal: Blood Adv Date: 2019-07-23
Authors: Katie Healy; Anna Pasetto; Michał J Sobkowiak; Chai Fen Soon; Markus Cornberg; Soo Aleman; Margaret Sällberg Chen Journal: Cells Date: 2020-06-16 Impact factor: 6.600