Dupuytren病(结节性掌纤维瘤病)中TGF β和bFGF的合成和定位与细胞活性、肌成纤维细胞表型和癌胎纤维连接蛋白变异的关系

The Histochemical Journal Pub Date : 1995-12-01
A Berndt, H Kosmehl, U Mandel, U Gabler, X Luo, D Celeda, L Zardi, D Katenkamp
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引用次数: 0

摘要

结节性掌纤维瘤病是一种纤维/肌成纤维细胞的自限性增殖,与生长因子合成和丰富的纤维连接蛋白细胞外基质沉积有关。bFGF和TGF β是纤维/肌成纤维细胞增殖和分化的有效调节剂。此外,体外研究证实了TGF β 1依赖性调节纤维连接蛋白mRNA的选择性剪接。为了探讨这些生长因子在手掌纤维瘤病组织形成过程中的可能意义,我们通过RNA原位杂交和/或免疫组织化学方法证实了TGF β 1/2和bFGF的合成以及TGF β 1/3和bFGF的组织分布与肌成纤维细胞表型发育(α -平滑肌肌动蛋白、desmin免疫组织化学)、不同纤维连接蛋白亚型(ED-A+、ED-B+和癌胎糖基化纤维连接蛋白免疫组化,纤维连接蛋白RNA原位杂交)和细胞活性(细胞周期蛋白RNA原位杂交,Ki-67免疫标记)。肌成纤维细胞表型(α -平滑肌肌动蛋白,desmin),生长因子合成(TGF β 1和2,bFGF),纤维连接蛋白基质合成(RNA原位杂交与cDNA)和ED-A+, ED-B+和癌胎糖基化纤维连接蛋白免疫染色仅定位于活动性增生性结节(Ki-67免疫标记和细胞周期蛋白mRNA证明)。虽然生长因子的合成仅限于纤维瘤病的增殖区域,但TGF β 1、TGF β 3和bFGF蛋白也可以在周围腱膜组织中检测到,但强度较低。活动性增生性纤维瘤结节中肌成纤维细胞表型、TGF β和bFGF合成以及癌胎分子纤维连接蛋白变异(ED-B+和癌胎糖基化纤维连接蛋白)的发生的空间相关性提示这些生长因子和基质成分在肿瘤组织形成过程中的致病作用。在增生性结节附近的成纤维细胞中存在bFGF和TGF β 1/3蛋白,可能表明在纤维瘤组织形成过程中有静止的腱膜成纤维细胞募集。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
TGF beta and bFGF synthesis and localization in Dupuytren's disease (nodular palmar fibromatosis) relative to cellular activity, myofibroblast phenotype and oncofetal variants of fibronectin.

Nodular palmar fibromatosis is a self-limited proliferation of fibro-/myofibroblasts associated with growth factor synthesis and abundant fibronectin extracellular matrix deposition. bFGF and TGF beta are potent modulators of fibro-/myofibroblast proliferation and differentiation. Moreover, in vitro investigations evidenced a TGF beta 1-dependent regulation of alternative splicing of fibronectin mRNA. To investigate a possible implication of these growth factors in the tissue formation process of palmar fibromatosis, TGF beta 1/2 and bFGF synthesis, as well as TGF beta 1/3 and bFGF tissue distribution, is demonstrated by RNA in situ hybridization and/or immunohistochemistry in relation to myofibroblast phenotype development (alpha-smooth muscle actin, desmin immunohistochemistry), expression of different fibronectin isoforms (ED-A+, ED-B+ and oncofetal glycosylated fibronectin immunohistochemistry, fibronectin RNA in situ hybridization) and cellular activity (cyclin RNA in situ hybridization, Ki-67 immunolabelling). The myofibroblast phenotype (alpha-smooth muscle actin, desmin), the growth factor synthesis (TGF beta 1 and 2, bFGF), fibronectin matrix synthesis (RNA in situ hybridization with cDNA) and ED-A+, ED-B+ and oncofetal glycosylated fibronectin immunostaining are exclusively localized in the active proliferative nodules (Ki-67 immunolabelling and cyclin mRNA demonstration). Whereas the growth factor synthesis is restricted to the proliferative areas of the fibromatosis only, TGF beta 1, TGF beta 3 and bFGF proteins can also be detected immunohistochemically with a lower intensity in the surrounding aponeurotic tissue. The spatial correlation of myofibroblast phenotype, TGF beta and bFGF synthesis and the occurrence of the oncofetal molecular fibronectin variants (ED-B+ and oncofetal glycosylated fibronectin) in the active proliferative fibromatosis nodules suggests a pathogentic role of these growth factors and matrix components in the tumorous tissue formation process. The presence of the bFGF and TGF beta 1/3 proteins in fibroblasts neighbouring the proliferative nodules may point to a recruitment of quiescent aponeurotic fibroblasts in the fibromatous tissue formation process.

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