Proliferation and β-tubulin for human aortic endothelial cells within gas-plasma scaffolds

Cardiovascular radiation medicine Pub Date : 2004-07-01 DOI:10.1016/j.carrad.2004.08.001

Steven R. Bailey , Jodie L. Polan , Oscar C. Munoz , Mauli C. Agrawal , Nilesh J. Goswami

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引用次数: 7

Abstract

Purpose

We determined if human aortic endothelial cells (HAEC) enhanced proliferative and angiogenic phenotypes within gas-plasma treated bioresorbable D,L-polylactic acid (D,L-PLA) three-dimensional scaffolds.

Method

6 × 10³ HAEC (N=120) were incubated for 6, 12 or 18 days within either non-treated control or treated scaffolds. Before removing media, unstained wells were observed for apparent cell densities. Quantitative colorimetric WST-1 mitochondrial assays were determined for pooled conditioned media from both HAEC attached to wells and their respective HAEC-containing scaffolds. Fixed HAEC in scaffolds were examined using non-quantitative laser confocal microcopy with FITC-conjugated consensus, Types-I/II or Type-III β-tubulin.

Results

WST-1 indicated that significantly (p<0.05) less mitochondria were on cell culture plates than inside scaffolds but for different reasons. For example, a 12–18 days comparison between WST-1 and β-tubulin indicated that wells decreased because of overgrowth apotosis; whereas, mitochondrial activity inside treated scaffolds decreased with increased tubulogenesis. Observed with consensus and Type-I/II β-tubulin, HAEC-treated scaffolds exhibited increased cell-cell interconnections and angiogenic cords undergoing tubulogenesis to form vessels with central lumens as well as increased Type-III β-tubulin, predominantly in cells of smaller surface areas. Moreover, β-tubulin inside HAEC-treated scaffolds appeared in discrete cytoskeletal and podial regions; yet, β-tubulin for HAEC-control scaffolds was located in more diffuse cytoplasmic regions especially at 18 days.

Conclusions

HAEC-treated scaffolds undergo increased migration, proliferation, β-tubulin expression and quiescent cord formation. HAEC in scaffolds represent a potential model to study mechanisms for vascular cord progression into tubes. WST-1 does not represent accurate cell densities in three-dimensional scaffold matrices.

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人主动脉内皮细胞在气浆支架内的增殖和β-微管蛋白

目的:研究人主动脉内皮细胞(HAEC)是否增强了气体等离子体处理的生物可吸收D, l -聚乳酸(D,L-PLA)三维支架内的增殖和血管生成表型。方法6 × 103 HAEC (N=120)分别在未处理的对照和处理过的支架中培养6、12、18 d。在去除培养基之前，观察未染色孔的表观细胞密度。采用WST-1线粒体定量比色法对附着在井上的HAEC及其相应的含HAEC支架的混合条件培养基进行检测。采用非定量激光共聚焦显微技术，采用fitc共轭共识型、i /II型或iii型β-微管蛋白检测支架内固定HAEC。结果swst -1检测结果显示，细胞培养板上线粒体数量明显少于支架内(p < 0.05)，但原因不同。例如，将WST-1与β-微管蛋白进行12-18天的比较表明，由于过度生长凋亡，井数减少;然而，处理过的支架内的线粒体活性随着小管形成的增加而降低。一致观察到i /II型β-微管蛋白，经haec处理的支架表现出细胞间的相互连接和血管生成索的增加，形成具有中央管腔的血管，以及iii型β-微管蛋白的增加，主要发生在较小表面积的细胞中。此外，β-微管蛋白在经haec处理的支架内出现在离散的细胞骨架区和足部区;然而，haec对照支架的β-微管蛋白位于更分散的细胞质区域，尤其是在第18天。结论经shaec处理的支架具有明显的迁移、增殖、β-微管蛋白表达和静止脐带形成。支架中的HAEC为研究血管索进展成管的机制提供了一个潜在的模型。WST-1不能代表三维支架基质中准确的细胞密度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Cardiovascular radiation medicine

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