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晚期腹主动脉瘤大鼠模型平滑肌细胞的弹性诱导能力。

Elastogenic inductability of smooth muscle cells from a rat model of late stage abdominal aortic aneurysms.

机构信息

Clinical Center, National Institutes of Health, Bethesda, Maryland, USA.

出版信息

Tissue Eng Part A. 2011 Jul;17(13-14):1699-711. doi: 10.1089/ten.TEA.2010.0526. Epub 2011 May 9.

Abstract

Although abdominal aortic aneurysms (AAA) can be potentially stabilized by inhibiting inflammatory cell recruitment and their release of proteolytic enzymes, active AAA regression is not possible without regeneration of new elastic matrix structures. Unfortunately, postneonatal vascular smooth muscle cells (SMCs), healthy, and likely more so, diseased cells, poorly synthesize or remodel elastic fibers, impeding any effort directed at regenerative AAA treatment. Previously, we determined the eleastogenic benefits of oligomers (HA-o; 4-6 mers) of the glycosaminoglycan, hyaluronan (HA) and transforming growth factor-β1 (TGF-β1) to healthy SMCs. Since AAAs are often diagnosed only late in development when matrix disruption is severe, we now determine if elastogenic upregulation of SMCs from late-stage AAAs (>100% diameter increase) is possible. AAAs were induced by perfusion of rat infrarenal aortae with porcine pancreatic elastase. Elastic matrix degradation, vessel expansion (∼120%), inflammatory cell infiltration, and enhanced activity of matrix-metalloproteases (MMPs) 2 and 9 resulted, paralleling human AAAs. Aneurysmal SMCs (EaRASMCs) maintained a diseased phenotype in 2D cell culture and exhibited patterns of gene expression different from healthy rat aortic SMCs (RASMCs). Relative to passage-matched healthy RASMCs, unstimulated EaRASMCs produced far less tropoelastin and matrix elastin. Exogenous TGF-β and HA-o (termed "factors") significantly decreased EaRASMC proliferation and enhanced tropoelastin synthesis, though only at the highest provided dose combination (20 mg/mL of HA-o, 10 ng/mL of TGF-β); despite such enhancement, tropoelastin amounts were only ∼40% of amounts synthesized by healthy RASMC cultures. Differently, elastic matrix synthesis was enhanced beyond amounts synthesized by healthy RASMCs (112%), even at lower doses of factors (2 mg/mL of HA-o and 5 ng/mL of TGF-β). The factors also enhanced elastic fiber deposition over untreated EaRASMC cultures and restored several genes whose expression was altered in EaRASMC cultures back to levels expressed by healthy RASMCs. However, the activity of MMPs 2 and 9 generated by EaRASMC cultures was unaffected by the factors/factor dose. The study confirms that SMCs from advanced AAAs can be elastogenically induced, although much higher doses of elastogenic factors are required for induction relative to healthy SMCs. Also, the factors do not appear to inhibit MMP activity, vital to preserve existing elastic matrix structures that serve as nucleation sites for new elastic fiber deposition. Thus, to enhance net accumulation of newly regenerated elastic matrix, toward possibly regressing AAAs, codelivery of MMP inhibitors may be necessitated.

摘要

虽然通过抑制炎症细胞募集及其释放的蛋白水解酶,腹主动脉瘤 (AAA) 可以得到潜在的稳定,但如果没有新的弹性基质结构的再生,AAA 就不可能出现主动的消退。不幸的是,新生儿期后的血管平滑肌细胞 (SMCs),无论是健康的还是患病的,都很难合成或重塑弹性纤维,这阻碍了任何针对 AAA 再生治疗的努力。以前,我们确定了糖胺聚糖(透明质酸,HA)的低聚物(HA-o;4-6 聚体)和转化生长因子-β1(TGF-β1)对健康 SMCs 的弹性生成益处。由于 AAA 通常在基质破坏严重的晚期才被诊断出来,因此我们现在确定晚期 AAA(直径增加超过 100%)的 SMC 是否可以进行弹性基因上调。通过用猪胰腺弹性酶灌注大鼠肾下主动脉来诱导 AAA。结果导致弹性基质降解、血管扩张(约 120%)、炎症细胞浸润和基质金属蛋白酶(MMPs)2 和 9 的活性增强,与人类 AAA 相似。AAA 中的 SMC(EaRASMCs)在二维细胞培养中保持疾病表型,并表现出与健康大鼠主动脉 SMC(RASMCs)不同的基因表达模式。与匹配的健康 RASMC 相比,未刺激的 EaRASMCs 产生的原弹性蛋白和基质弹性蛋白要少得多。外源性 TGF-β 和 HA-o(称为“因子”)显著降低了 EaRASMC 的增殖,并增强了原弹性蛋白的合成,尽管仅在提供的最高剂量组合(20mg/mL 的 HA-o,10ng/mL 的 TGF-β)下;尽管有这种增强,但原弹性蛋白的量仅为健康 RASMC 培养物合成量的约 40%。不同的是,弹性基质的合成量超过了健康 RASMC 培养物的合成量(112%),即使在较低剂量的因子(2mg/mL 的 HA-o 和 5ng/mL 的 TGF-β)下也是如此。这些因子还增强了未经处理的 EaRASMC 培养物中弹性纤维的沉积,并使在 EaRASMC 培养物中表达改变的几个基因的表达恢复到健康 RASMC 表达的水平。然而,EaRASMC 培养物产生的 MMPs 2 和 9 的活性不受因子/因子剂量的影响。该研究证实,来自晚期 AAA 的 SMC 可以被弹性基因诱导,尽管与健康 SMC 相比,需要更高剂量的弹性基因诱导剂。此外,这些因子似乎不会抑制 MMP 活性,这对于维持现有的弹性基质结构至关重要,因为这些结构是新弹性纤维沉积的成核位点。因此,为了增强新再生的弹性基质的净积累,可能使 AAA 消退,可能需要共递送 MMP 抑制剂。

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