Identification of novel markers associated with hematopoietic stem cells (HSCs) is important to progress basic and clinical research regarding the HSC biology. We previously reported that endothelial cell-selective adhesion molecule (ESAM) marks HSCs throughout life in mice (Yokota et al. Blood, 2009). We also demonstrated that ESAM can be a useful indicator of activated HSCs after bone marrow (BM) injury and that ESAM is functionally important for recovering hematopoiesis by using ESAM knockout mice (Sudo et al. J Immunol, 2012). However, the discrepancy between species has been a long-standing obstacle to apply findings in mice to human. For example, established murine HSC markers such as Sca-1 or CD150 are not expressed on human HSCs. Thus, it is important to know if ESAM marks HSCs beyond species and serves as a functional molecule for the HSC property, but information regarding ESAM expression in human HSCs has been quite limited. In this study, we have examined the ESAM expression pattern on human HSCs derived from diverse sources. In addition, we have performed functional assessment of the ESAM-expressing cells.

Cord blood (CB), aspirated BM, and granulocyte-colony stimulating factor-mobilized peripheral blood (GMPB) were obtained from healthy donors. BM was also obtained from head of femora of patients who received the hip replacement surgery. All of the protocols were approved by the Institutional Review Board of Osaka University School of Medicine, and we obtained the written agreement form with informed consent from all participants. Mononuclear cells were separated using Ficoll centrifugation from CB, aspirated BM and GMPB. For preparation of BM cells adjacent to bone tissues, trabecular tissues of femora were treated with 2 mg/ml collagenase IV and DNase and gently agitated for 1 hour at 37 °C. Collected cells were analyzed using flow cytometry for cell surface expression of ESAM and other markers. Further, the CD34+ CD38cells were fractionated according to the intensity of ESAM expression and evaluated in vivo and in vitro functional assays.

Flow cytometry analyses revealed that the majority of CB CD34+ CD38 cells expressed ESAM. According to the expression level, CB CD34+ CD38 cells could be subdivided into three populations, namely ESAM−/Low, ESAMHigh, and ESAMBright. While all CB contained a robust ESAMHigh population in CD34+ CD38 cells, the percentage of ESAMBright cells varied widely among CB samples. The ESAMHigh CD34+ CD38 cells also expressed CD90 and CD133, which are known as HSC markers. Methylcellulose colony-forming assays and limiting dilution assays revealed that ESAMHigh fraction enriches primitive hematopoietic progenitors. Further, ESAMHigh cells also reconstituted the long-term human hematopoiesis in NOD/Shi-scid, IL-2Rγnull (NOG) mice. Therefore, as in mice, ESAMHighmarks authentic HSCs in human.

On the other hand, ESAMBright CD34+ CD38 cells showed low colony-forming activities and no reconstitution of human hematopoiesis in NOG mice. These ESAMBright CD34+ CD38 cells expressed CD118/leukemia inhibitor factor receptor and endothelial markers such as VE-Cadherin, Flk-1, and CD146, but not CD45. These results suggested that ESAMBright cells in the CB CD34+ CD38 fraction are non-hematopoietic cells. With respect to the other HSC sources such as aspirated BM and GMPB, almost all CD34+ CD38 cells were ESAMHigh and ESAMBright cells were not found in this fraction. Interestingly, however, ESAMBright cells were found in the CD34+ CD38 fraction isolated from collagenase-treated femora. These BM-derived ESAMBright CD34+ CD38 cells expressed endothelial markers as did the CB-derived cells. They could generate CD31+endothelial cells, but not hematopoietic cells in coculture with MS5 stromal cells with vascular endothelial growth factor, stromal-cell-derived factor, and interleukin 16.

In conclusion, ESAM expression serves as a marker to enrich HSCs in human regardless of the HSC sources. In addition, the very high intensity of this marker might be useful to isolate non-hematopoietic progenitors from CD34+ CD38 cells, which has been conventionally used as human HSCs. The common feature of ESAM expression of murine and human HSCs suggests a possibility that functional significance of ESAM expression obtained from mouse studies could be applicable to human.

Disclosures:

No relevant conflicts of interest to declare.

Author notes

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Asterisk with author names denotes non-ASH members.

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