单腔血管球体融合:血管组装模型。
Fusion of uniluminal vascular spheroids: a model for assembly of blood vessels.
机构信息
Regenerative Medicine and Cell Biology, Medical University of South Carolina, Charleston, South Carolina, USA.
出版信息
Dev Dyn. 2010 Feb;239(2):398-406. doi: 10.1002/dvdy.22161.
Abstract
We evaluated the self-assembly properties of uniluminal vascular spheroids having outer layers of vascular smooth muscle cells and a contiguous inner layer of endothelial cells lining a central lumen. We showed that while pairs of uniluminal vascular spheroids suspended in culture medium fused to form a larger diameter spheroidal structure, spheroids in collagen hydrogels formed elongated structures. These findings highlight the potential use of uniluminal vascular spheroids as modules to engineer blood vessels. We also demonstrate that uniluminal vascular spheroid fusion conforms to models describing the coalescence of liquid drops. Furthermore, the fusion of uniluminal vascular spheroids in vitro closely resembled the in vivo process by which the descending aorta forms from the fusion of the paired dorsal aortae during embryonic development. Together, the findings indicate that tissue liquidity underlies uniluminal vascular spheroid fusion and that in vivo anastomosis of blood vessels may involve a similar mechanism.
摘要
我们评估了具有血管平滑肌细胞外层和内皮细胞连续内层的单腔血管球体的自组装特性,这些内层排列在中央腔中。我们表明,虽然悬浮在培养基中的成对的单腔血管球体融合形成更大直径的球体结构,但在胶原水凝胶中的球体形成了伸长的结构。这些发现强调了单腔血管球体作为构建血管的模块的潜在用途。我们还证明,单腔血管球体的融合符合描述液体滴合并的模型。此外,体外单腔血管球体的融合非常类似于胚胎发育过程中,通过成对的背主动脉融合形成降主动脉的体内过程。总之,这些发现表明,单腔血管球体融合的基础是组织流动性,并且血管的体内吻合可能涉及类似的机制。
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