Generation of alloreactivity-reduced donor lymphocyte products retaining memory function by fully automatic depletion of CD45RA-positive cells.

Background Aims: For patients needing allogeneic stem cell transplantation but lacking a major histocompatibility complex (MHC)-matched donor, haplo-identical (family) donors may be an alternative. Stringent T-cell depletion required in these cases to avoid lethal graft-versus-host disease (GVHD) can delay immune reconstitution, thus impairing defense against virus reactivation and attenuating graft-versus-leukemia (GVL) activity. Several groups reported that GVHD is caused by cells residing within the naive (CD45RA) T-cell compartment and proposed use of CD45RA-depleted donor lymphocyte infusion (DLI) to accelerate immune reconstitution. We developed and tested the performance of a CD45RA depletion module for the automatic cell-processing device CliniMACS Prodigy and investigated quality attributes of the generated products.

Methods: Unstimulated apheresis products from random volunteer donors were depleted of CD45RA cells on CliniMACS Prodigy, using Good Manufacturing Practice (GMP)-compliant reagents and methods throughout. Using phenotypic and functional in vitro assays, we assessed the cellular constitution of CD45RA-depleted products, including T-cell subset analyses, immunological memory function and allo-reactivity.

Results: Selections were technically uneventful and proceeded automatically with minimal hands-on time beyond tubing set installation. Products were near-qualitatively CD45RA depleted, that is, largely devoid of CD45RA T cells but also of almost all B and natural killer cells. Naive and effector as well as γ/δ T cells were greatly reduced. The CD4:CD8 ratio was fivefold increased. Mixed lymphocyte reaction assays of the product against third-party leukocytes revealed reduced allo-reactivity compared to starting material. Anti-pathogen responses were retained.

Discussion: The novel, closed, fully GMP-compatible process on Prodigy generates highly CD45RA-depleted cellular products predicted to be clinically meaningfully depleted of GvH reactivity.