钙化在主动脉退化中的作用

D. Kostina, V. Uspensky, D. Semenova, A. Kostina, N. V. Boyarskaya, O. Irtyuga, A. Malashicheva
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引用次数: 1

摘要

血管钙化是一种广泛传播的病理现象,死亡率很高。血管钙化是一个活跃的生物调控过程,可在不同欲望的发病机制中观察到,与代谢功能障碍、先天性组织欲望和衰老有关。参与血管钙化的信号通路和转录因子也发生在正常的成骨和/或血管发育过程中。本综述主要关注信号通路 BMP(骨形态发生蛋白)、Notch、Wnt 的作用,以及转录因子 BMP2、RUNX2、Msx2 在血管钙化中的作用。也许,成骨信号通路的功能障碍和血管细胞向骨母细胞样细胞的转分化不仅是血管钙化或矿化的常见原因,也是血管降解的一种普遍方式。细胞和分子水平上的促成骨细胞变化可能在没有血管矿化表现的疾病(如胸主动脉瘤)的发病机制中发挥作用。血管细胞将其表型转变为骨质表型的能力很可能具有重要的生物学意义。钙化信号通路活性过度减弱也会导致血管病变。本综述旨在探讨血管钙化的机制,重点关注信号通路和血管细胞在这一过程中的作用,尤其关注主动脉钙化。了解病理和正常情况下促钙化和抗钙化过程的生物调节机制,为影响这一过程以纠正血管病变提供了新的机会。
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Role of calcification in aortic degeneration
Vascular calcification is a widely-spread pathology with high mortality. It is active bioregulated process that is observed in pathogenesis of different desires, associated with metabolic dysfunction, congenital tissue desires and aging. Signal pathways and transcription factors that are involved in vascular calcification are also takes place in normal osteogenesis and/or vascular development. In the review the main attention is payed to the role of signaling pathways BMP (bone morphogenic protein), Notch, Wnt and to the role of transcription factors BMP2, RUNX2, Msx2 in vascular calcification. Probably, dysfunction of osteogenic signal pathways and transdifferentiation of vascular cells to osteoblast-like cells is a common prosses not only for vascular calcification or mineralization, but is a way of vascular degradation in general. Proosteogenic changes at cellular and molecular level may play role in pathogenesis of a disease without manifestation of vascular mineralization, such as thoracic aortic aneurysm. Ability of vascular cells to change their phenotype to osteophenotype is very likely biologically important ability. Over weakness of calcific signaling pathways activity can also lead to vascular pathology. The aim of the review is to overlook the mechanisms of vascular calcification focusing at the role of signal pathways and vascular cells at this process with particular attention to aortic calcification. Understanding the mechanisms of biological regulation of pro- and antiosteogenic processes in pathology and normal conditions opens new opportunities to influence this prosess in order to correct vascular pathologies.
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