S100A4 在胰腺癌中的研究进展

胰腺癌最重要的生物学特性是容易发生转移和侵袭,致使很多患者无法得到根治性治疗。外科手术是胰腺癌惟一可能治愈的手段,但仅有10-20%的患者有机会手术治疗。错过早期诊断、常规疗法普遍不明显及快速肿瘤扩散共同导致患者的预后不良。胰腺癌的发生、发展受多基因调控。S100A4基因是近几年发现的一种具有促肿瘤作用的基因,目前研究认为该蛋白在胰腺癌的侵袭和转移中起重要作用.本文主要就S100A4与胰腺癌的有关研究进展加以综述。     

S100A4蛋白与肿瘤血管生成的研究进展

肿瘤血管生成是指肿瘤细胞诱导的微血管生长以及肿瘤中血液循环建立的过程。重要脏器的转移是恶性肿瘤致死的主要原因,而肿瘤生长、转移和复发都依赖于肿瘤血管生成.S100A4基因是近几年发现的一种具有促肿瘤作用的基因,该基因编码一种钙离子结合调节蛋白,通过与钙离子结合在肿瘤发生和发展中起重要作用。目前研究认为该蛋白在肿瘤的侵袭和转移中有促血管生成作用.本文主要就S100A4与肿瘤血管生成的有关研究进展加以综述。     

S100A4基因在结肠癌中的表达及意义

目的：通过检测S100A4基因在结肠癌细胞系及结肠癌组织中的表达,探讨其与结肠癌的关系。方法：运用RT-PCR法检测不同结肠癌细胞系中S100A4基因的表达情况;通过原位杂交和免疫组化方法检测61例结肠癌标本中S100A4基因的表达。结果：结肠癌细胞系Lovo及HT29均有S100A4基因表达。S100A4蛋白和RNA在结肠癌中表达率分别为36．1％和34.4％,而在正常结肠组织中不表达（p〈0．05）。临床分期晚比临床分期早的患者S100A4表达明显增高（p〈0.05）;有淋巴结转移的患者比无淋巴结转移的患者S100A4表达明显增高（p〈0．05）。此外,S100A4表达还与肿瘤大小,病理学分级,肉眼分型等相关。结论：结肠癌中S100A4基因表达增高,而且与肿瘤的侵袭及转移密切相关,是判断结肠癌生物学行为及预后的有价值的指标。     

低氧模拟剂氯化钴对胃癌细胞BGC823中S100A4基因表达的影响

摘要: S100A4基因是肿瘤侵袭转移相关的重要基因, 该基因高表达与胃癌浸润、淋巴结转移及胃癌细胞体外侵袭力密切相关。为探讨S100A4基因高表达的机制, 文章应用低氧模拟剂氯化钴处理胃癌细胞BGC823, RT-PCR、免疫组化、免疫荧光及Western blotting方法分别检测BGC823细胞中S100A4 mRNA及蛋白表达情况。结果显示, 氯化钴处理胃癌BGC823细胞后, S100A4 mRNA及蛋白表达明显增加。提示低氧模拟剂氯化钴可促进胃癌细胞BGC823中S100A4 基因表达。     

S100A4基因表达在肿瘤转移中的作用

肿瘤转移是细胞恶性的重要标志之一,有许多基因和因子都参与这一过程。对S100A4基因的研究发现,它可参与细胞周期调控、细胞增殖与分化、血管生成、细胞外基质重建等多种生命过程,调控细胞的生长和运动。在某些特定的肿瘤细胞内,它的表达含量的增加可促进肿瘤细胞发生转移,并与癌症的发生具有某些相关性,可能对人类癌症的发生具有预后作用。现就S100A4基因表达与肿瘤转移的关系进行初步的探讨,以期对癌症的临床诊断提供一些参考。     

nm23-H1调控肿瘤侵袭转移分子机制研究进展

侵袭转移是恶性肿瘤的重要生物学特征,也是导致肿瘤患者治疗失败和死亡的主要原因。研究表明,nm23基因家族与肿瘤的发生、发展及转移密切相关。其中,nm23-H1是被发现的第一个人类nm23基因,与肿瘤侵袭转移关系极为密切。现将nm23-H1基因调控肿瘤侵袭转移分子机制的研究进展作一综述。     

S100A4与肿瘤细胞增殖及凋亡的研究进展

转移相关蛋白S100A4属于S100钙离子结合蛋白超家族,有着共同的EF手型功能区来介导其活性。S100A4在众多肿瘤生物学行为中起着调节作用。而且,S100A4在不同类型的肿瘤患者扮演着判断预后的角色。目前研究认为其与肿瘤细胞运动、增殖、刺激血管生成及基质重建有关系。本文就S100A4生物学特性及其对肿瘤细胞增殖、凋亡中的作用和可能机制作一综述。     

S100A4与肿瘤细胞增殖及凋亡的研究进展

转移相关蛋白S100A4属于S100钙离子结合蛋白超家族,有着共同的EF手型功能区来介导其活性。S100A4在众多肿瘤生物学行为中起着调节作用。而且,S100A4在不同类型的肿瘤患者扮演着判断预后的角色。目前研究认为其与肿瘤细胞运动、增殖、刺激血管生成及基质重建有关系。本文就S100A4生物学特性及其对肿瘤细胞增殖、凋亡中的作用和可能机制作一综述。     

RAB5A基因对肺腺癌细胞微丝的影响

为研究RAB5A基因对肺腺癌细胞中微丝的影响,通过FITC标记的鬼笔环肽对AGZY83-a细胞骨架中的微丝特异染色,利用共聚焦激光扫描显微镜发现RAB5A过表达后微丝束变密。经Superarray肿瘤转移相关基因微芯片分析RAB5A对肿瘤转移相关基因的表达影响．发现了3个与细胞骨架调节相关基因表达发生变化,NM23H1与Rac1的表达受到抑制．同时S100A4的表达增加。以前有研究认为S100A4基因可抑制NM23H1基因表达,为验证NM23H1基因的表达降低是否由于S100肖4表达增高所致,利用RNAi沉默AGZY83-a细胞中S100A4基因的表达,发现NM23H1基因表达增高,由此推断RAB5A基因可能通过上调S100A4基因表达来抑制NM23H1基因表达。     

SLC2A5基因及其在胰腺癌细胞中作用

胰腺癌是世界上恶劣的肿瘤之一,其存在早期诊断难于被发现,缺乏有效治疗手段以及预后效果较差等问题。近几年研究显示SLC2A5基因的上调、缺失与胰腺癌的发展、迁移相关。SLC2A5基因编码的果糖特异转运体Glut5参与细胞中果糖代谢的过程。果糖是日常生活中常见的糖源,过量摄入导致癌症的发生和迁移。该文总结了SLC2A5基因的来源、生物学功能以及其在胰腺癌中的代谢情况和作用机制,分析认为SLC2A5基因不仅影响胰腺癌生长迁移,而且可能成为胰腺癌治疗的潜在靶向研究。     

RNA interference targeting against S100A4 suppresses cell growth and motility and induces apoptosis in human pancreatic cancer cells

S100A4 protein belongs to the S100 subfamily, which has grown to be one of the large subfamilies of the EF-hand Ca²⁺-binding proteins, and overexpression of S100A4 is suggested to associate with cell proliferation, invasion, and metastasis. We observed frequent overexpression of S100A4 in pancreatic cancer cell lines and further analyzed RNAi-mediated knockdown to address the possibility of its use as a therapeutic target for pancreatic cancer. The specific knockdown of S100A4 strongly suppressed cell growth, induced G2 arrest and eventual apoptosis, and decreased cell migration. Furthermore, microarray analyses revealed that knockdown of S100A4 induced expression of the tumor suppressor genes PRDM2 and VASH1. Our present results suggest the possibility that the inhibition of S100A4 can be utilized in antitumor applications for patients with pancreatic cancer.     

The malignant potential of HIV-associated Kaposi sarcoma

Background

Breast cancer is the most common cancer and cause of deaths in women around the world. Oncogene amplification usually occurs late in tumor progression and correlates well with aggressiveness of tumor. In fact the function of the S100A4 protein and its role in metastasis is unclear at present. The purpose of the study was to determine the expression of S100A4 protein in the invasion status and metastatic potential of breast cancer by using tissue microarray and to determine its role in breast cancer based on the expression of S100A4 gene product.

Methods

S100A4 protein expression was examined by immunohistochemistry (IHC) using commercially available tissue microarray containing malignant and normal breast tissue cores from 216 patients.

Results

S100A4 was absent in normal breast tissues while positive in 45.1% of infiltrating ductal carcinoma (IDC) node negative and 48.8% of infiltrating lobular carcinoma node negative. In paired samples, S100A4 protein was expressed in 13.5% of IDC node positive cases and 35.1% of matched lymph node metastasis.

Conclusion

S100A4 protein expression appears widely expressed in early and advanced breast cancer stages compared with normal breast. Our study suggests S100A4 may play a role in breast cancer progression and may prove to be an independent marker of breast cancer which appears to be down regulated in more advanced stages of breast cancer.     

S100A4 is frequently overexpressed in lung cancer cells and promotes cell growth and cell motility

S100A4, a small calcium-binding protein belonging to the S100 protein family, is commonly overexpressed in a variety of tumor types and is widely accepted to associate with metastasis by regulating the motility and invasiveness of cancer cells. However, its biological role in lung carcinogenesis is largely unknown. In this study, we found that S100A4 was frequently overexpressed in lung cancer cells, irrespective of histological subtype. Then we performed knockdown and forced expression of S100A4 in lung cancer cell lines and found that specific knockdown of S100A4 effectively suppressed cell proliferation only in lung cancer cells with S100A4-overexpression; forced expression of S100A4 accelerated cell motility only in S100A4 low-expressing lung cancer cells. PRDM2 and VASH1, identified as novel upregulated genes by microarray after specific knockdown of S100A4 in pancreatic cancer, were also analyzed, and we found that PRDM2 was significantly upregulated after S100A4-knockdown in one of two analyzed S100A4-overexpressing lung cancer cells. Our present results suggest that S100A4 plays an important role in lung carcinogenesis by means of cell proliferation and motility by a pathway similar to that in pancreatic cancer.     

Surgical site infections following colorectal cancer surgery: a randomized prospective trial comparing common and advanced antimicrobial dressing containing ionic silver

Background

The role of annexin II in the development and progression of gastric cancer was explored.

Methods

Real-time PCR was conducted to detect annexin II and S100A6 mRNA expression. Protein expressions of annexin II and S100A6 were also examined by immunohistochemistry in 436 clinicopathologically characterized gastric cancer cases.

Results

The expression of annexin II and S100A6 mRNA differ significantly among gastric tumor tissue and matched non-cancerous gastric mucosa. Protein levels of annexin II and S100A6 were up-regulated in gastric cancer compared with adjacent non-cancerous tissues. High expression of annexin II correlated with age, location of tumor, size of tumor, differentiation, histological type, depth of invasion, vessel invasion, lymph node metastasis, distant metastasis and Tumor, Node, Metastasis (TNM) stage, and also with expression of S100A6. Further multivariate analysis suggested that expression of annexin II and S100A6 were independent prognostic indicators for gastric cancer. Cumulative five-year survival rates of patients with high expression of both annexin II and S100A6 was significantly lower than those with low expression of both.

Conclusion

Expression of annexin II in gastric cancer was significantly associated with depth of invasion, lymph node metastasis and distant metastasis, TNM stage, high S100A6 expression, and poor prognosis. Annexin II and S100A6 proteins could be useful prognostic marker to predict tumor progression and prognosis in gastric cancer.     

The S100 proteins for screening and prognostic grading of bladder cancer

The S100 gene family, which is composed of at least 24 members carrying the Ca2+ binding EF-hand motif, has been implicated in both intracellular and extracellular functions, including enzyme activities, immune responses, cytoskeleton dynamics, Ca2+ homeostasis, cell growth and cell differentiation. Altered S100 protein levels are associated with a broad range of diseases, including cardiomyopathy, inflammatory and immune disorders, neurodegenerative disorders and cancer. Although the precise role of S100 protein in carcinogenesis is poorly understood, it seems that formation of homo- and hetero-dimers, binding of Ca2+ and interaction with effector molecules are essential for the development and progression of many cancers. Several studies have suggested that S100 proteins promote cancer progression and metastasis through cell survival and apoptosis pathways. In animal models of bladder cancer, several S100 proteins are differentially expressed in bladder tumors relative to normal urothelium. In human bladder cancer, overexpression of S100A4, S100A8 or S100A11 are associated with stage progression, invasion, metastasis and poor survival. This review summarizes these findings and evaluates their implications for human bladder cancer management.