Circulating hematopoietic stem cells do not efficiently home to bone marrow during homeostasis

Abstract

Objective: Hematopoietic stem cells (HSC), normally resident in bone marrow, can be detected in the murine and human circulation. It is thought that HSC move in and out of bone marrow daily and that returning HSC are generally equivalent to their bone marrow counterparts in phenotype and function. However, large numbers of mononuclear blood cells are required to rescue animals from lethal irradiation, indicating either that the prevalence of circulating HSC is low, or they are inherently deficient in their repopulating ability. Accordingly, recent data suggest that circulating HSC may be unable to stably engraft WBM under homeostatic conditions. The purpose of this study was to explore these dynamics in detail using parabiosis and bone marrow transplantation.

Materials and methods: The WBM and skeletal muscle HSC stem cell compartments of parabiosed CD45 congenic mice were analyzed functionally (via bone marrow transplantation) and phenotypically (via flow cytometry) for circulating stem cells at specific time points postparabiosis and after surgical separation.

Results: Surprisingly, we find that stem cells trafficking out of bone marrow and into the circulation do not stably return to bone marrow, although long-lived lymphoid precursors do stably re-engraft. Circulating HSC do, however, take up residence in skeletal muscle, wherein they account for HSC activity.

Conclusion: Circulating HSC are not in flux with the bone marrow HSC and can persist in peripheral tissues.