Orriols Mar, Guadall Anna, Galán María, Martí-Pàmies Ingrid, Varona Saray, Rodríguez-Calvo Ricardo, Briones Ana María, Navarro María A, de Diego Alicia, Osada Jesús, Martínez-González José, Rodríguez Cristina
José Martínez-González or Cristina Rodríguez, Centro de Investigación Cardiovascular (CSIC-ICCC), Hospital de la Santa Creu i Sant Pau (pabellón Nº 11), Avda. Sant Antoni Maria Claret 167, 08025 Barcelona, Spain, Tel.: +34 93 5565897, Fax: +34 93 5565559, E-mail:
Thromb Haemost. 2014 Oct;112(4):812-24. doi: 10.1160/TH14-01-0024. Epub 2014 Jul 3.
Lysyl oxidase (LOX) is an extracellular matrix-modifying enzyme that seems to play a critical role in vascular remodelling. However, the lack of viable LOX-deficient animal models has been an obstacle to deep in LOX biology. In this study we have developed a transgenic mouse model that over-expresses LOX in vascular smooth muscle cells (VSMC) to clarify whether LOX could regulate VSMC phenotype and vascular remodelling. The SM22α proximal promoter drove the expression of a transgene containing the human LOX cDNA. Two stable transgenic lines, phenotypically indistinguishable, were generated by conventional methods (TgLOX). Transgene expression followed the expected SMC-specific pattern. In TgLOX mice, real-time PCR and immunohistochemistry evidenced a strong expression of LOX in the media from aorta and carotid arteries, coincident with a higher proportion of mature collagen. VSMC isolated from TgLOX mice expressed high levels of LOX pro-enzyme, which was properly secreted and processed into mature and bioactive LOX. Interestingly, cell proliferation was significantly reduced in cells from TgLOX mice. Transgenic VSMC also exhibited low levels of Myh10 (marker of SMC phenotypic switching), PCNA (marker of cell proliferation) and MCP-1, and a weak activation of Akt and ERK1/2 in response to mitogenic stimuli. Accordingly, neointimal thickening induced by carotid artery ligation was attenuated in TgLOX mice that also displayed a reduction in PCNA and MCP-1 immunostaining. Our results give evidence that LOX plays a critical role in vascular remodelling. We have developed a new animal model to study the role of LOX in vascular biology.
赖氨酰氧化酶(LOX)是一种细胞外基质修饰酶,似乎在血管重塑中起关键作用。然而,缺乏可行的LOX缺陷动物模型一直是深入研究LOX生物学的障碍。在本研究中,我们开发了一种在血管平滑肌细胞(VSMC)中过表达LOX的转基因小鼠模型,以阐明LOX是否能调节VSMC表型和血管重塑。SM22α近端启动子驱动包含人LOX cDNA的转基因表达。通过常规方法(TgLOX)产生了两个表型无明显差异的稳定转基因品系。转基因表达遵循预期的SMC特异性模式。在TgLOX小鼠中,实时PCR和免疫组织化学证明LOX在主动脉和颈动脉中膜有强烈表达,同时成熟胶原蛋白的比例更高。从TgLOX小鼠分离的VSMC表达高水平的LOX酶原,该酶原被正确分泌并加工成成熟的生物活性LOX。有趣的是,TgLOX小鼠的细胞增殖明显减少。转基因VSMC还表现出低水平的Myh10(SMC表型转换的标志物)、PCNA(细胞增殖的标志物)和MCP-1,并且在有丝分裂原刺激下Akt和ERK1/2的激活较弱。因此,在TgLOX小鼠中,颈动脉结扎诱导的新生内膜增厚减弱,同时PCNA和MCP-1免疫染色也减少。我们的结果证明LOX在血管重塑中起关键作用。我们开发了一种新的动物模型来研究LOX在血管生物学中的作用。
