增强骨髓来源细胞向损伤部位动员的影响。
Impact of enhanced mobilization of bone marrow derived cells to site of injury.
作者信息
Hannoush Edward J, Sifri Ziad C, Elhassan Ihab O, Mohr Alicia M, Alzate Walter D, Offin Michael, Livingston David H
机构信息
Division of Trauma, Department of Surgery, University of Medicine and Dentistry of New Jersey, New Jersey Medical School, Newark, New Jersey, USA.
出版信息
J Trauma. 2011 Aug;71(2):283-9; discussion 289-91. doi: 10.1097/TA.0b013e318222f380.
BACKGROUND
Bone marrow derived cells (BMDC) and mesenchymal stem cells (MSC) are necessary for healing of injured tissues. Intravenous granulocyte-colony stimulating factor (G-CSF) is known to induce mobilization of BMDC to peripheral blood and the tissue levels of the stromal cell derived factor-1 (SDF-1) to be key in their homing to sites of injury. We hypothesized that injection of SDF-1 to the site of injury and/or systemic administration of G-CSF increases homing of BMDC and improves healing of traumatic injury. We also postulated that increased homing of MSC alone to sites of injury would also improve tissue healing.
METHODS
Male Sprague-Dawley rats were subjected to unilateral lung contusion (LC) and assigned to the following groups: LC + injection of SDF-1 (LC + SDF-1) in the contused lung, pretreatment with systemic G-CSF for 5 days followed by either LC alone (LC + G-CSF) or by LC + injection of SDF-1 (LC + SDF-1/G-CSF). Rats in the MSC group were subjected to LC followed by systemic injection of MSC (LC + MSC). Unmanipulated controls and LC + local injection of saline (LC + saline) served as controls. Lung injury was assessed on days 1 and 5 postinjury using a histologic Lung Injury Score. BMDC and MSC homing were assessed on day 1 by hematopoietic progenitor cell (CFU-GEMM, BFU-E, and CFU-E) colony growth and immunofluorescence tracking of tagged MSC in the injured lung, respectively.
RESULTS
Both LC + SDF-1 and LC + G-CSF had increased hematopoietic progenitor cell colony growth in the injured lung, and their combination (LC + SDF-1/G-CSF) was additive when compared with LC + saline (18 ± 3, 24 ± 3, 32 ± 3; 21 ± 3, 36 ± 10, 36 ± 3; 31 ± 4, 44 ± 10, 53 ± 5 vs. 6 ± 2, 11 ± 3, 17 ± 4; *p < 0.05). Tagged MSC were tracked predominantly in the contused lung versus the non-contused lung (7 ± 3 vs. 3 ± 2, N° MSC/HPF; *p < 0.05). Lung Injury Score on day 5 after injury was significantly lower in the LC + SDF-1, LC + G-CSF, LC + SDF-1/G-CSF and LC + MSC groups versus LC + saline (1 ± 0.6, 0.7 ± 0.5, 1 ± 0.9, 1.1 ± 0.9 vs. 3.1 ± 0.8; *p < 0.05).
CONCLUSION
Local SDF-1 and/or systemic G-CSF can effectively increase BMDC homing to sites of traumatic injury in an additive way and improve wound healing. This process appears to be mediated predominantly through MSC. Additional investigations are needed to identify the optimal adjuncts to improve wound healing following severe traumatic injury.
背景
骨髓来源细胞(BMDC)和间充质干细胞(MSC)对损伤组织的愈合至关重要。已知静脉注射粒细胞集落刺激因子(G-CSF)可诱导BMDC动员至外周血,且基质细胞衍生因子-1(SDF-1)的组织水平对其归巢至损伤部位起关键作用。我们推测,向损伤部位注射SDF-1和/或全身给予G-CSF可增加BMDC的归巢并改善创伤性损伤的愈合。我们还假设,单独增加MSC向损伤部位的归巢也会改善组织愈合。
方法
将雄性Sprague-Dawley大鼠进行单侧肺挫伤(LC),并分为以下几组:在挫伤肺中注射SDF-1(LC + SDF-1);全身用G-CSF预处理5天,然后单独进行LC(LC + G-CSF)或LC +注射SDF-1(LC + SDF-1/G-CSF)。MSC组的大鼠进行LC,随后全身注射MSC(LC + MSC)。未处理的对照组和LC +局部注射生理盐水(LC +生理盐水)作为对照。在损伤后第1天和第5天,使用组织学肺损伤评分评估肺损伤。分别在第1天通过造血祖细胞(CFU-GEMM、BFU-E和CFU-E)集落生长以及对损伤肺中标记的MSC进行免疫荧光追踪来评估BMDC和MSC的归巢。
结果
与LC +生理盐水相比,LC + SDF-1和LC + G-CSF组损伤肺中的造血祖细胞集落生长均增加,且它们的联合使用(LC + SDF-1/G-CSF)具有相加作用(18±3、24±3、32±3;21±3、36±10、36±3;31±4、44±10、53±5 对比 6±2、11±3、17±4;*p<0.05)。标记的MSC主要在挫伤肺中被追踪到,而非挫伤肺中较少(7±3对比3±2,每高倍视野中MSC数量;*p<0.05)。与LC +生理盐水组相比,损伤后第5天,LC + SDF-1、LC + G-CSF、LC + SDF-1/G-CSF和LC + MSC组的肺损伤评分显著更低(1±0.6、0.7±0.5、1±0.9、1.1±0.9对比3.1±0.8;*p<0.05)。
结论
局部使用SDF-1和/或全身使用G-CSF可以有效且以相加的方式增加BMDC向创伤性损伤部位的归巢,并改善伤口愈合。这个过程似乎主要通过MSC介导。需要进一步研究以确定改善严重创伤性损伤后伤口愈合的最佳辅助方法。
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