与稳态骨髓造血祖细胞相比,动员外周血中的造血祖细胞表现出更强的迁移能力和归巢至骨髓的能力。
Hematopoietic progenitor cells (HPC) from mobilized peripheral blood display enhanced migration and marrow homing compared to steady-state bone marrow HPC.
作者信息
Bonig Halvard, Priestley Gregory V, Oehler Vivian, Papayannopoulou Thalia
机构信息
Department of Medicine/Hematology, University of Washington, Seattle, WA 98195, USA.
出版信息
Exp Hematol. 2007 Feb;35(2):326-34. doi: 10.1016/j.exphem.2006.09.017.
OBJECTIVE
Faster engraftment of G-CSF-mobilized peripheral blood (MPB) transplants compared to steady-state bone marrow (ssBM) is well documented and clinically relevant. A number of different factors likely contribute to this outcome. In the present study we explored whether independent of cell number there are intrinsic differences in the efficiency of progenitor cell homing to marrow between MPB and ssBM.
METHODS
Mobilization was achieved by continuous infusion of G-CSF alone or in combination with other mobilizing agents. In vivo homing assays, in vitro migration assays, gene expression analysis, and flow cytometry were utilized to compare homing-related in vivo and in vitro properties of MPB and ssBM HPC.
RESULTS
Marrow homing of murine MPB HPC, generated by different mobilizing schemes, was reproducibly significantly superior to that of ssBM, in lethally irradiated as well as in nonirradiated hosts. This phenotype was independent of MMP9, selectins, and beta2- and alpha4-integrins. Superior homing was also observed for human MPB HPC transplanted into NOD/SCIDbeta2microglobulin(-/-) recipients. Inhibition of HPC migration abrogated the homing advantage of MPB but did not affect homing of ssBM HPC, whereas enhancement of motility by CD26 inhibition improved marrow homing only of ssBM HPC. Enhanced SDF-1-dependent chemotaxis and low CD26 expression on MPB HPC were identified as potential contributing factors. Significant contributions of the putative alternative SDF-1 receptor, RDC1, were unlikely based on gene expression data.
CONCLUSION
The data suggest increased motility as a converging endpoint of complex changes seen in MPB HPC which is likely responsible for their favorable homing.
目的
与稳态骨髓(ssBM)相比,粒细胞集落刺激因子(G-CSF)动员的外周血(MPB)移植的更快植入已得到充分记录且具有临床相关性。许多不同因素可能导致这一结果。在本研究中,我们探讨了除细胞数量外,MPB和ssBM之间祖细胞归巢至骨髓的效率是否存在内在差异。
方法
通过单独连续输注G-CSF或与其他动员剂联合来实现动员。利用体内归巢试验、体外迁移试验、基因表达分析和流式细胞术来比较MPB和ssBM造血祖细胞(HPC)与归巢相关的体内和体外特性。
结果
在致死性照射以及未照射的宿主中,由不同动员方案产生的小鼠MPB HPC的骨髓归巢可重复性地显著优于ssBM。该表型与基质金属蛋白酶9(MMP9)、选择素、β2整合素和α4整合素无关。对于移植到NOD/SCIDβ2微球蛋白缺陷(-/-)受体中的人MPB HPC,也观察到了优越的归巢。抑制HPC迁移消除了MPB的归巢优势,但不影响ssBM HPC的归巢,而通过抑制CD26增强运动性仅改善了ssBM HPC的骨髓归巢。MPB HPC上增强的基质细胞衍生因子-1(SDF-1)依赖性趋化作用和低CD26表达被确定为潜在的促成因素。基于基因表达数据,推测的替代SDF-1受体RDC1的显著贡献不太可能。
结论
数据表明运动性增加是MPB HPC中所见复杂变化的一个汇聚终点,这可能是其良好归巢的原因。
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