基质细胞衍生因子1α促进小鼠实验性脑缺血后Lin-/Sca1+细胞归巢。

SDF1-a facilitates Lin-/Sca1+ cell homing following murine experimental cerebral ischemia.

作者信息

Mocco J, Afzal Aqeela, Ansari Saeed, Wolfe Annemarie, Caldwell Kenneth, Connolly E S, Scott Edward W

机构信息

Department of Neurological Surgery, Vanderbilt University, Nashville, Tennessee, United States of America.

Department of Neurosurgery, University of Florida, Gainesville, Florida, United States of America.

出版信息

PLoS One. 2014 Jan 20;9(1):e85615. doi: 10.1371/journal.pone.0085615. eCollection 2014.

DOI:10.1371/journal.pone.0085615

PMID:24465621

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3896412/

Abstract

BACKGROUND

Hematopoietic stem cells mobilize to the peripheral circulation in response to stroke. However, the mechanism by which the brain initiates this mobilization is uncharacterized.

METHODS

Animals underwent a murine intraluminal filament model of focal cerebral ischemia and the SDF1-A pathway was evaluated in a blinded manner via serum and brain SDF1-A level assessment, Lin-/Sca1+ cell mobilization quantification, and exogenous cell migration confirmation; all with or without SDF1-A blockade.

RESULTS

Bone marrow demonstrated a significant increase in Lin-/Sca1+ cell counts at 24 hrs (272 ± 60%; P<0.05 vs sham). Mobilization of Lin-/Sca1+ cells to blood was significantly elevated at 24 hrs (607 ± 159%; P<0.05). Serum SDF1-A levels were significant at 24 hrs (Sham (103 ± 14), 4 hrs (94 ± 20%, p = NS) and 24 hrs (130 ± 17; p<0.05)). Brain SDF1-A levels were significantly elevated at both 4 hrs and 24 hrs (113 ± 7 pg/ml and 112 ± 10 pg/ml, respectively; p<0.05 versus sham 76 ± 11 pg/ml). Following administration of an SDF1-A antibody, Lin-/Sca1+ cells failed to mobilize to peripheral blood following stroke, despite continued up regulation in bone marrow (stroke bone marrow cell count: 536 ± 65, blood cell count: 127 ± 24; p<0.05 versus placebo). Exogenously administered Lin-/Sca1+ cells resulted in a significant reduction in infarct volume: 42 ± 5% (stroke alone), versus 21 ± 15% (Stroke+Lin-/Sca1+ cells), and administration of an SDF1-A antibody concomitant to exogenous administration of the Lin-/Sca1+ cells prevented this reduction. Following stroke, exogenously administered Lin-/Sca1+ FISH positive cells were significantly reduced when administered concomitant to an SDF1-A antibody as compared to without SDF1-A antibody (10 ± 4 vs 0.7 ± 1, p<0.05).

CONCLUSIONS

SDF1-A appears to play a critical role in modulating Lin-/Sca1+ cell migration to ischemic brain.

摘要

背景

造血干细胞会因中风而动员至外周循环。然而，大脑启动这种动员的机制尚不清楚。

方法

动物接受局灶性脑缺血的小鼠管腔内细丝模型，并通过血清和脑SDF1-A水平评估、Lin-/Sca1+细胞动员定量以及外源性细胞迁移确认，以盲法评估SDF1-A通路；所有实验均在有或没有SDF1-A阻断的情况下进行。

结果

骨髓中Lin-/Sca1+细胞计数在24小时时显著增加（272±60%；与假手术组相比，P<0.05）。Lin-/Sca1+细胞向血液中的动员在24小时时显著升高（607±159%；P<0.05）。血清SDF1-A水平在24小时时显著升高（假手术组（103±14），4小时时（94±20%，p=无显著性差异），24小时时（130±17；p<0.05））。脑SDF1-A水平在4小时和24小时时均显著升高（分别为113±7 pg/ml和112±10 pg/ml；与假手术组76±11 pg/ml相比，p<0.05）。给予SDF1-A抗体后，中风后Lin-/Sca1+细胞未能动员至外周血，尽管骨髓中持续上调（中风骨髓细胞计数：536±65，血细胞计数：127±24；与安慰剂组相比，p<0.05）。外源性给予Lin-/Sca1+细胞导致梗死体积显著减少：单独中风组为42±5%，而中风+Lin-/Sca1+细胞组为21±15%，并且在给予Lin-/Sca1+细胞的同时给予SDF1-A抗体可阻止这种减少。中风后，与未给予SDF1-A抗体相比，在给予SDF1-A抗体的同时给予外源性Lin-/Sca1+ FISH阳性细胞显著减少（10±4对0.7±1，p<0.05）。

结论

SDF1-A似乎在调节Lin-/Sca1+细胞向缺血性脑的迁移中起关键作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0436/3896412/4dbde0139738/pone.0085615.g001.jpg

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基质细胞衍生因子1α促进小鼠实验性脑缺血后Lin-/Sca1+细胞归巢。

SDF1-a facilitates Lin-/Sca1+ cell homing following murine experimental cerebral ischemia.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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