The impact of donor and recipient age on post-transplantation clonality in murine haematopoiesis.

Abstract

The sustained production of blood and immune cells is driven by a pool of hematopoietic stem cells (HSCs) and their offspring. Due to the intrinsic heterogeneity of HSCs, the composition of emergent clones changes over time, leading to a reduced clonality in aging mice and humans. Theoretical analyses suggest that clonal conversion rates and clonal complexity depend not only on HSC heterogeneity, but also on additional stress conditions. These insights are particularly relevant in the context of stem cell transplantations, which still remain the only curative option for many hematologic diseases, increasingly considered viable for elderly individuals. However, age-related clonal changes post-transplantation are not well understood. To address this, we conducted a barcode-based assessment of clonality to investigate post-transplantation changes in both homo- and hetero-chronic settings, combined with low- and high-intensity pre-conditioned recipients. A robust and polyclonal engraftment was observed across all groups, but with distinct differences in barcode diversity. In particular, transplanted aged HSCs showed no changes in clonality, regardless of recipient age or pre-conditioning. Young HSCs transplanted into severely pre-conditioned old hosts as well as under reduced pre-conditioning, allowed for full lymphoid reconstitution, but showed substantial differences in clonality. Also, myeloid lineage bias, a hallmark of aged HSCs, was confirmed at a clonal level across all experimental groups. Overall, we found that aged HSCs generally maintain clonal diversity similar to young HSCs, but notable differences emerge under hetero-chronic conditions and varying pre-conditioning regimens. These findings challenge current paradigms and underscore the complex interactions between aging and transplantation conditions.