Department of Cardiovascular Surgery, Osaka University Graduate School of Medicine, Osaka, Japan.
Division of Matrixome Research and Application, Institute for Protein Research, Osaka University, Osaka, Japan.
Transplantation. 2019 May;103(5):e119-e127. doi: 10.1097/TP.0000000000002653.
The extracellular matrix, in particular basement membrane components such as laminins (LMs), is essential for stem cell differentiation and self-renewal. LM511 and LM221 are the main extracellular matrix components of the epicardium, where stem cells were abundant. Here, we examined whether LMs affected the regeneration process by modulating stem cell activities.
In vitro, adhesive, and proliferative activities of mesenchymal stem cells (MSCs) were evaluated on LM511 and LM221. To examine the effects of LMs in vivo, we established an acute myocardial infarction model by ligation of the proximal part of the left anterior descending artery at the height of the left atrial appendage and then placed atelocollagen sheets with or without LM511 and LM221 over the anterolateral surface of the left ventricular wall. Four or 8 weeks later, cardiac function, histology, and cytokine expressions were analyzed.
MSCs showed greater proliferation and adhesive properties on LM511 than on LM221. In vivo, at 4 weeks, isolectin B4-positive cells were significantly higher in the LM511-transplanted group than in the control group. Moreover, some isolectin B4-positive cells expressed both platelet-derived growth factor receptor α and CD90, suggesting that LM511 enhanced MSC recruitment and attachment at the implanted site. After 8 weeks, these cells were more abundant than at 4 weeks. Transplantation with LM511-conjugated sheets increased the expression of cardioprotective and angiogenic factors.
Transplantation with LM511-conjugated sheets enhanced MSC localization to the implantation site and modulated stem cells activities, leading to angiogenesis in acute myocardial infarction rat models.
细胞外基质,特别是基底膜成分如层粘连蛋白(LMs),对于干细胞的分化和自我更新至关重要。LM511 和 LM221 是心外膜的主要细胞外基质成分,这里有丰富的干细胞。在这里,我们研究了细胞外基质是否通过调节干细胞活性来影响再生过程。
在体外,评估间充质干细胞(MSCs)在 LM511 和 LM221 上的黏附和增殖活性。为了在体内研究 LMs 的影响,我们通过结扎左前降支的近段在左心房附壁的高度建立急性心肌梗死模型,然后将含有或不含有 LM511 和 LM221 的atelocollagen 片放置在左心室壁的前外侧表面。4 或 8 周后,分析心功能、组织学和细胞因子表达。
MSCs 在 LM511 上的增殖和黏附特性强于在 LM221 上。在体内,4 周时,LM511 移植组的异硫氰酸荧光素 B4 阳性细胞明显高于对照组。此外,一些异硫氰酸荧光素 B4 阳性细胞表达血小板衍生生长因子受体α和 CD90,提示 LM511 增强了 MSC 在植入部位的募集和黏附。8 周后,这些细胞比 4 周时更丰富。移植 LM511 缀合片增加了心脏保护和血管生成因子的表达。
移植 LM511 缀合片增强了 MSC 向植入部位的定位,并调节了干细胞活性,导致急性心肌梗死大鼠模型中的血管生成。
