Implicación de la Cx43 y el cilio primario en la actividad de los osteocitos

IF 0.5 Q4 ENDOCRINOLOGY & METABOLISM

Revista de Osteoporosis y Metabolismo Mineral Pub Date : 2020-12-01 DOI:10.4321/S1889-836X2020000400005

Trabajo Fin de Grado, S. Jiménez, Arancha R. Gortazar, Elena Carrió González, J. de, Y. D. Biosistemas, Grado DE Biotecnología

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Abstract

The bone tissue has the ability to adapt to the stimuli of the environment by altering its morphology and metabolism. The development and maintenance of this tissue are dynamic processes, regulated by the different bone cells communicated with each other through Gap Junctions (GJs). Connexin 43 (Cx43), which is the most abundant protein in GJs, has key roles in the signal transduction of bone tissue and in the response to hormonal and mechanical stimuli. Other mechanosensing elements in the osteocytes are: the primary cilium, mainly formed of microtubules and developed when the cells are in the G0 phase of the cell cycle; and the integrins, a family of glycoproteins forming heterodimers composed of two subunits (the alpha and beta chain) and located in the cell membrane. The involvement of Cx43, the primary cilium and integrins in the mouse osteocyte cell line MLO-Y4 control and deficient in Cx43 will be studied in this project. The response of this cell line to hormonal stimuli (ligand of the parathyroid hormone receptor type 1, the protein related to parathyroid hormone, PTHrP) and mechanical stimuli (by fluid flow of culture medium) will also be analyzed. In addition, the possible functional interaction between these three mechanical elements will be studied. For protein expression analyses of IFT88 (homolog of the intraflagelar transport protein 88), Cx43, P-ERK (Kinases regulated by extracellular signal phosphorylated) and P-GSK3 (Glycogen synthase kinase 3 beta phosphorylated), Western blotting was performed. The expression of the integrins was determined by PCR (Polymerase Chain Reaction) and, to characterize the possible colocalization between the primary cilium and Cx43 an immunofluorescence was performed. The results obtained show that Cx43 and the primary cilium do not collocate, and that the presence of Cx43 is not necessary for ciliogenesis. On the other hand, it was determined that fluid flow and PTHrP increase the phosphorylation of ERK and GSK3. Therefore, these stimuli regulate cell survival pathways in osteocytes. Finally, it was observed that integrin α2 increased its expression in control cells (Cx43 +/+). However, integrins α6, β1 and β3 increased in Cx43 deficient cells (Cx43 -/-), suggesting an interaction between these two protein families.

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Cx43和原发性纤毛对骨细胞活性的影响

骨组织具有通过改变其形态和代谢来适应环境刺激的能力。这种组织的发育和维持是一个动态过程，由不同的骨细胞通过间隙连接(GJs)相互沟通来调节。连接蛋白43 (Connexin 43, Cx43)是GJs中最丰富的蛋白，在骨组织的信号转导以及对激素和机械刺激的反应中起着关键作用。骨细胞中的其他机械感测元件有:初级纤毛，主要由微管组成，在细胞周期的G0期发育;和整合素，一个糖蛋白家族形成异二聚体，由两个亚基(α链和β链)组成，位于细胞膜上。本项目将研究Cx43、原纤毛和整合素在小鼠骨细胞系MLO-Y4控制和Cx43缺失中的作用。还将分析该细胞系对激素刺激(甲状旁腺激素受体1型配体，甲状旁腺激素相关蛋白，PTHrP)和机械刺激(通过培养基的流体流动)的反应。此外，将研究这三个机械元件之间可能的功能相互作用。对IFT88(旗内转运蛋白88的同系物)、Cx43、P-ERK(细胞外信号磷酸化调节的激酶)和P-GSK3(糖原合成酶激酶3 β磷酸化)的蛋白表达进行Western blot分析。通过聚合酶链反应(PCR)检测整合素的表达，并通过免疫荧光表征初级纤毛与Cx43之间可能的共定位。结果表明，Cx43与初发纤毛不匹配，并不是纤毛发生所必需的。另一方面，确定流体流动和PTHrP增加ERK和GSK3的磷酸化。因此，这些刺激调节骨细胞的细胞存活途径。最后，我们观察到整合素α2在对照细胞(Cx43 +/+)中的表达增加。然而，整合素α6、β1和β3在Cx43缺陷细胞(Cx43 -/-)中升高，提示这两个蛋白家族之间存在相互作用。

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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来源期刊

Revista de Osteoporosis y Metabolismo Mineral ENDOCRINOLOGY & METABOLISM-

CiteScore

0.80

自引率

16.70%

发文量

审稿时长

8 weeks

期刊介绍： The Journal of Osteoporosis and Mineral Metabolism (Rev Osteoporos Metab Miner; www.revistadeosteoporosisymetabolismomineral.es) is the official organ of scientific expression of the Spanish Society for Bone Research and Mineral Metabolism (SEIOMM), who owns all rights over it. Its periodicity is quarterly (4 numbers a year, spring, summer, autumn and winter), with a variable number of extraordinary monographs. The third issue of the year, autumn, is intended for the publication of the communications of the annual Congress of the SEIOMM. The Journal of Osteoporosis and Mineral Metabolism (hereinafter ROMM) publishes works in Spanish, which will be translated into English, and is offered free of charge through its website.