Zoppi Nicoletta, Ritelli Marco, Colombi Marina
Division of Biology and Genetics, Department of Biomedical Sciences and Biotechnology, Medical Faculty, University of Brescia, 25123 Brescia, Italy.
Biochim Biophys Acta. 2012 Oct;1820(10):1576-87. doi: 10.1016/j.bbagen.2012.06.004. Epub 2012 Jun 15.
Alternative splicing of EDA fibronectin (FN) region is a cell type- and development-regulated mechanism controlled by pathological processes, growth factors and extracellular matrix (ECM). Classic and vascular Ehlers-Danlos syndrome (cEDS and vEDS) are connective tissue disorders caused by COL5A1/COL5A2 and COL3A1 gene mutations, leading to an in vivo abnormal collagen fibrillogenesis and to an in vitro defective organisation in the ECM of type V (COLLV) and type III collagen (COLLIII). These defects induce the FN-ECM disarray and the decrease of COLLs and FN receptors, the α2β1 and α5β1 integrins. Purified COLLV and COLLIII restore the COLL-FN-ECMs in both EDS cell strains.
Real-time PCR, immunofluorescence microscopy, and Western blotting were used to investigate the effects of COLLs on FN1 gene expression, EDA region alternative splicing, EDA(+)-FN-ECM assembly, α5β1 integrin and EDA(+)-FN-specific α9 integrin subunit organisation, α5β1 integrin and FAK co-regulation in EDS fibroblasts.
COLLV-treated cEDS and COLLIII-treated vEDS fibroblasts up-regulate the FN1 gene expression, modulate the EDA(+) mRNA maturation and increase the EDA(+)-FN levels, thus restoring a control-like FN-ECM, which elicits the EDA(+)-FN-specific α9β1 integrin organisation, recruits the α5β1 integrin and switches on the FAK binding and phosphorylation.
COLLs regulate the EDA(+)-FN-ECM organisation at transcriptional and post-transcriptional level and activate the α5β1-FAK complexes. COLLs also recruit the α9β1 integrin involved in the assembly of the EDA(+)-FN-ECM in EDS cells.
The knowledge of the COLLs-ECM role in FN isotype expression and in EDA(+)-FN-ECM-mediated signal transduction adds insights in the ECM remodelling mechanisms in EDS cells.
纤连蛋白(FN)的EDA区域可变剪接是一种受病理过程、生长因子和细胞外基质(ECM)调控的细胞类型和发育调节机制。经典型和血管型埃勒斯-当洛综合征(cEDS和vEDS)是由COL5A1/COL5A2和COL3A1基因突变引起的结缔组织疾病,导致体内胶原纤维形成异常,以及体外V型胶原(COLLV)和III型胶原(COLLIII)细胞外基质的组织缺陷。这些缺陷导致FN-ECM紊乱以及COLLs和FN受体α2β1和α5β1整合素减少。纯化的COLLV和COLLIII可恢复两种EDS细胞系中的COLL-FN-ECM。
采用实时PCR、免疫荧光显微镜和蛋白质印迹法研究COLLs对EDS成纤维细胞中FN1基因表达、EDA区域可变剪接、EDA(+)-FN-ECM组装、α5β1整合素和EDA(+)-FN特异性α9整合素亚基组织、α5β1整合素和FAK共调节的影响。
用COLLV处理的cEDS和成纤维细胞和用COLLIII处理的vEDS成纤维细胞上调FN1基因表达,调节EDA(+)mRNA成熟并增加EDA(+)-FN水平,从而恢复类似对照的FN-ECM,引发EDA(+)-FN特异性α9β1整合素组织,募集α5β1整合素并开启FAK结合和磷酸化。
COLLs在转录和转录后水平调节EDA(+)-FN-ECM组织,并激活α5β1-FAK复合物。COLLs还募集参与EDS细胞中EDA(+)-FN-ECM组装的α9β1整合素。
了解COLLs-ECM在FN同种型表达和EDA(+)-FN-ECM介导的信号转导中的作用,为深入了解EDS细胞中的ECM重塑机制提供了线索。
