Accumulating evidence from our lab (

Nature Med. 2004; 10(1): 64–71
) and others have shown that myelosuppression not only results in apoptosis of the hematopoietic cells but also in regression of bone marrow (BM) sinusoidal vessels. Remarkably, we have shown that restoration of hematopoiesis is dependent on the regeneration of BM sinusoidal neo-vessels. However, the mechanism whereby vascular reconstitution is regulated is unknown. Because Tie2/Angiopoietins are critical in the remodeling of neo-vessels, we hypothesized that activation of Tie2 plays a role in regeneration of sinusoidal neo-vessels and restoration of hematopoiesis. To this end, we took advantage of transgenic mice where the Tie2 promoter drives the expression of beta-galactosidase (LacZ) in order to follow the expression of Tie2 in hematopoietic progenitor cells after myelosuppression. Under steady-state conditions, only few LacZ/Tie-2+ cells were localized in the endosteal/osteoblastic region, without any expression within the BM sinusoidal neo-vessels. However, after a myelosuppressive dose of 5-Fluorouracil (5-FU) there was a robust expression of Tie2 expression in the regenerating BM sinusoidal neo-vessels. The expression of Tie2 on the regenerating neo-vasculature reached a maximum at day 10 and reverted back to steady-state by day 20 post 5-FU, the time in which the majority of the neo-vessels were functionally assembled.

Blocking angiopoietin/Tie2 signaling with the soluble decoy-receptor, Tie2Fc, after 5-FU inhibited platelet recovery as well as vascular reconstitution. There was a paradoxical accumulation of megakaryocytes in the bone-marrow during the prolonged thrombocytopenic phase, which we have previously shown to be due to vascular niche disruption and inability of megakaryocytes to release platelets.

To examine the possibility that Tie2+ progenitors can reconstitute BM sinusoids in the recipient mice, lethally irradiated wildtype mice were transplanted with the BM of Tie2-lacZ knock-in mice. After full recovery, the chimeric mice were challenged with a myelosuppressive dose of 5-FU and Tie2+ neo-vessels were detected histologically on day 5, 10, and 14 by LacZ staining. Remarkably, the reconstituted bone marrow showed the presence of Tie2+ vessels, which unambiguously demonstrates the contribution of donor-derived endothelial progenitors to the reconstitution of the regressed vasculature.

Together, our data support the hypothesis that Tie2/angiopoietin signaling is essential for functional regeneration of BM sinusoidal neo-vessels and contributes to the reconstitution of hematopoiesis, specifically to thrombopoiesis. In addition, the use of Tie2-LacZ mice provides an invaluable model to quantify the number of regenerating BM neo-vessels. Angiopoietins may be used in clinical setting in conjunction with other lineage specific cytokines to enhance hematopoiesis after myelosuppression.

Topics:
angiopoietins, beta-galactosidase, cytokine, fluorouracil, myelosuppression, vasculature, mice, bone marrow, blood platelets, megakaryocytes

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2005, The American Society of Hematology
2004
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