成纤维细胞生长因子受体-癌症治疗新靶点

成纤维细胞生长因子(FGFs)通过作用于其受体(成纤维细胞生长因子受体,FGFRs)在许多生理过程中发挥重要作用,如胚胎形成、创伤修复、血管生成等。近年来,越来越多的证据表明FGFRs是某些癌症的驱动基因,并且以"细胞自治"的方式维持肿瘤细胞的恶性特征,通过诱导促有丝分裂和生存信号、促进肿瘤细胞侵袭转移、促进上皮间质转化、促进血管生成及参与肿瘤复发耐药作用作为癌基因参与肿瘤发生发展进程的多重步骤,但也有研究证实FGFR信号在某些肿瘤类型中具有抑制肿瘤的功能。这些研究结果使得FGFRs成为越来越具有吸引力的癌症治疗新靶点。本文阐述了FGFRs信号通路在多种肿瘤中的作用,并且对处于研发或试验阶段的抗FGFRs药物(包括小分子酪氨酸激酶抑制剂和单克隆抗体)进行了概括。     

Insights into the role of components of the tumor microenvironment in oral carcinoma call for new therapeutic approaches

The research on oral cancer has focused mainly on the cancer cells, their genetic changes and consequent phenotypic modifications. However, it is increasingly clear that the tumor microenvironment (TME) has been shown to be in a dynamic state of inter-relations with the cancer cells. The TME contains a variety of components including the non-cancerous cells (i.e., immune cells, resident fibroblasts and angiogenic vascular cells) and the ECM milieu [including fibers (mainly collagen and fibronectin) and soluble factors (i.e., enzymes, growth factors, cytokines and chemokines)]. Thus, it is currently assumed that TME is considered a part of the cancerous tissue and the functionality of its key components constitutes the setting on which the hallmarks of the cancer cells can evolve. Therefore, in terms of controlling a malignancy, one should control the growth, invasion and spread of the cancer cells through modifications in the TME components. This mini review focuses on the TME as a diagnostic approach and reports the recent insights into the role of different TME key components [such as carcinoma-associated fibroblasts (CAFs) and inflammation (CAI) cells, angiogenesis, stromal matrix molecules and proteases] in the molecular biology of oral carcinoma. Furthermore, the impact of TME components on clinical outcomes and the concomitant need for development of new therapeutic approaches will be discussed.     

碱性成纤维细胞生长因子(bFGF)相关结合蛋白

有四种不同类型的细胞表面或细胞外基质中的蛋白质分子在结合碱性成纤维细胞生长因子 (bFGF)、辅助其发挥生物功能活性方面起着重要的作用。它们是 :(1)细胞膜上的具有酪氨酸激酶活性的FGF受体家族 (FGFRs) ;(2 )细胞外基质中的硫酸乙酰肝素蛋白多糖家族 (HSPGs) ;(3)细胞内富含半胱氨酸的FGF受体 (CFR) ;(4)分泌型的FGF结合蛋白 (FGF BP)。本文试图从它们在bFGF生物功能发挥中可能起到的作用对它们进行简单综述。     

Endometrial stromal cells and decidualized stromal cells: Origins,transformation and functions

Decidualization of endometrium, which is characterized by endometrial stromal cell (ESC) decidualization, vascular reconstruction, immune cell recruitment, and plentiful molecule production, is a crucial step for uterus to become receptive for embryo. When implantation takes place, ESCs surround and directly interact with embryo. Decidualized stromal cells (DSCs) are of great importance in endometrial decidualization, having a broad function in regulating immune activity and vascular remodeling of uterus. DSCs are shown to have a higher metabolic level and looser cytoskeleton than ESCs. What's the origin of ESCs and how ESCs successfully transform into DSCs had puzzled scientists in the last decades. Breakthrough had been achieved recently, and many studies had elucidated some of the characters and functions of DSCs. However, several questions still remain unclear. This paper reviews current understanding of where ESCs come from and how ESCs differentiate into DSCs, summarizes some characters and functions of DSCs, analyzes current studies and their limitations and points out research areas that need further investigation.     

牙齿发育与FGF 信号通路的关系

牙齿发育的过程,是一个连续并且复杂的过程。牙齿发育的分子机制可总结为:通过外胚层来源的上皮和其下方的间充质相互作用,来调节牙齿的形态学发生。成纤维细胞生长因子(Fibroblast Growth Factor,FGF)是一类肽类分子,它们通过与细胞膜上特异性受体的结合来发挥作用,以此来调节细胞生长。并且具有多种生物活性,是胚胎生长发育和成体组织创伤修复中最具有重要功能的细胞因子。通过众多科学研究,牙齿发育与FGF信号通路的关系已经研究的比较透彻,在牙齿的生长发育过程中,FGF发挥了关键性作用。     

IGF2 derived from SH-SY5Y neuroblastoma cells induces the osteoclastogenesis of human monocytic precursors

The insulin-like growth factors 2 (IGF2) is a peptide hormone that binds to the insulin-like growth factor 1 receptor (IGF1R) and is abundantly stored in bone. IGF1R is deeply involved in the pathogenesis of many cancers that growth within bone and is also involved in osteoclast biology. Among different cell lines representative of osteolytic tumors, we found a very high expression of IGF2 in SH-SY5Y cells derived from neuroblastoma (NB). We previously showed that NB cells induce an osteolytic process through the Osteoprotegerin/RANKL/RANK and the canonical Wnt pathway system. Here, we hypothesized that NB promotes osteoclastogenesis also via IGF2. First, we demonstrated the presence of IGF1R on the osteoclast basolateral membrane, and we observed a cyclic IGF1R activation along with the differentiation process, also when induced by SH-SY5Y. Moreover, we found that IGF2 mRNA expression in SH-SY5Y cells was further increased when co-cultured with mesenchymal stromal cells, suggesting that IGF2 is important for NB interaction with the bone microenvironment. Finally, the treatment of SH-SY5Y cells with an anti-IGF2 siRNA or the addition of anti-IGF1R molecules impaired NB-induced osteoclastogenesis, even though the chemoattraction of monocytes by NB cells was unaffected. Our findings suggest that in IGF2-producing osteolytic tumors IGF1R is a good candidate for targeted therapies in combination with conventional drugs.