与卵巢癌转移有关的microRNA研究进展

卵巢癌是女性生殖系统三大恶性肿瘤之一,其致死率居于各类妇科肿瘤之首,是严重影响妇女生命的重要疾患,卵巢癌的转移则是造成病人死亡的重要因素。近年来随着microRNA（又称miRNA或微RNA）作为一种小分子非编码RNA被发现,证实miRNA的作用与各类肿瘤有着重要的联系,这些肿瘤包括乳腺癌、食管癌、胰癌、口腔癌等。近几年的研究表明,miRNA可以影响卵巢癌的发生与发展,并与其转移也存在着紧密的关系。与卵巢癌转移有关的miRNA作用机制的揭示,将会为转移性卵巢癌的诊断及治疗提供新的途径。本综述在通过检索近年来最新文献的基础上,对于卵巢癌的转移机理进行了详尽的分析,并对miRNA在卵巢癌转移中的重要研究予以了详细的阐述。     

肿瘤转移相关microRNAs的研究进展

转移是预测肿瘤患者预后的重要因素,并且是肿瘤患者高死亡率的主要原因.上皮间质转化在肿瘤转移及进展过程中发挥着重要作用.最近的研究表明, microRNA(miRNA)在人类恶性肿瘤的发生和发展中起了重要作用. miRNA是长度约22个核苷酸的非编码小分子RNA,其可通过与靶基因的3′UTR互补配对导致靶基因的翻译抑制和mRNA的降解.许多研究表明, miRNA可通过EMT(epithelial-mesenchymal transition)相关和/或非EMT相关机制调控癌症转移的过程.本综述着重阐述了mi RNA在肿瘤中对EMT相关信号通路的调控作用.     

微RNA调节肺癌转移的分子机制

微RNA(microRNA,miRNA)是一类长约22 nt的非编码小分子RNA,在转录后水平上通过基因沉默调节靶基因的活性。近年来,miRNA与肿瘤转移关系的研究成为探讨肿瘤转移调控机制的热点。越来越多的研究提示miRNA在肿瘤转移过程中发挥着重要作用。肺癌转移是影响肺癌预后的关键,是一种复杂的多因素、多步骤、多基因参与调控的过程。研究miRNA对肺癌转移的作用有助于我们找到阻断肺癌转移的靶点。本文就miRNA和肺癌转移关系的研究进展作一综述。     

miRNA-200 家族在卵巢癌中作用的研究进展

MicroRNA(miRNA)是一类非编码小分子RNA,参与基因转录后水平调控,与肿瘤的形成、侵袭及转移、治疗及预后过程密切相关。研究发现,miRNA-200家族包括miR-141、miR-200a、miR-200b、miR-200c和miR-429在卵巢癌中的表达改变明显,且参与卵巢癌的发生、侵袭转移、卵巢癌细胞对紫杉醇的敏感性及复发过程,可能是用于卵巢癌的早期诊断、治疗、预后预测的指标。本文主要对miRNA-200家族在卵巢癌中的研究进展进行综述。     

微RNA参与调控肿瘤血管生成

肿瘤血管生成是由多种因子参与调控的复杂过程,对肿瘤的生长、侵袭和转移起着关键作用.微 RNA(microRNA, miRNA)是一段长约22 nt的非编码RNA序列,参与调节细胞增殖、分化、凋亡,肿瘤发生、发展等多种生命活动.认识miRNA与肿瘤血管生成的关系不但能加深对血管生成分子机制的理解,同时对阐明 miRNA的功能具有重要意义.     

microRNA-214在恶性肿瘤中的表达及相关性的研究进展

微小RNA(microRNA,miRNA)是广泛存在于动植物中的一类不编码蛋白质的短小的单链RNA分子,一般由22个核苷酸组成,它们可以特异性地结合mRNA并通过降解或抑制其翻译而在转录后水平调控基因表达。miRNA的表达及功能可影响许多表观遗传学特征,其功能涉及细胞的发生、生长、发育、分化和凋亡过程,在肿瘤的形成和进展过程中扮演重要角色。microRNA-214(miRNA-214,miR-214)参与肝癌、乳腺癌、宫颈癌、卵巢癌、恶性黑色素瘤、胃癌、胶质瘤、儿童骨肉瘤等恶性肿瘤的发生发展,以及与肿瘤细胞的侵袭及转移密切相关。miRNA-214在不同的肿瘤中表达水平并不相同,miRNA-214在不同肿瘤中的差异表达是通过调控某个或者某些癌基因及抑癌基因而实现其参与肿瘤的发生发展、侵袭及转移的作用。因此,本文主要通过阅读大量国内外文献,总结和概括了miRNA-214参与部分恶性肿瘤发生发展的机制。虽然目前对于miRNA的理论研究已经日渐完善和成熟,但是怎样将这些研究结果应用于临床,怎样能够更准确、更便捷的通过对miRNA的检测达到对疾病的诊断、治疗以及预后评估,想必一定会成为将来研究的热点,我们期待一种新型的恶性肿瘤的分子标志物会使越来越多的肿瘤患者获益。     

miRNA表达谱与上皮性卵巢癌

Micro RNA(miRNA)是近年来研究发现的一种高度保守,长度大约19-25个核苷酸的非编码小分子RNA,起着调控基因表达的作用。目前认为miRNA能调控细胞周期、凋亡、分化、发育和新陈代谢等,参与肿瘤的发生与发展,因此异常表达的miRNAs表达谱有可能成为一种全新的肿瘤分子标记物。相关研究表明,miRNA能够以一种被保护的状态存在于血清及血浆中,因此miRNA表达谱的发现具有易检测性、重现性以及非侵袭性。研究显示血清及血浆中miRNA表达谱可作为上皮性卵巢癌生物信号分子,在上皮性卵巢癌早期诊断、预后判断和化疗药物应用等方面具有不可替代的作用。本文将对miRNA表达谱与上皮性卵巢癌的关系进行一个简单总结。     

胃癌转移相关微小RNA的研究进展

胃癌是我国最常见的恶性肿瘤之一,复发和转移仍就是胃癌治疗的一大难题.微小RNA(miRNA)是一类内源性非编码小RNA,在转录后水平对基因表达进行负调控.可以作为一类新型的癌基因或抑癌基因参与肿瘤的凋亡,生长,侵袭.研究miRNA对胃癌转移发生发展的作用有助于我们寻找治疗胃癌的新方法.本文就miRNA和胃癌转移关系的研究进展做一综述.     

微RNA通过调节上皮间质转化影响肿瘤转移

肿瘤细胞向远处转移受多因素调控, 涉及多个基因, 需要经历一系列连续的、可选择的级联事件。上皮间质转化(Epithelial-mesenchymal transition, EMT)是肿瘤细胞转移中的关键步骤, 但肿瘤发生 EMT的机制至今尚不完全明确。微RNA (MicroRNA, miRNA)是一类内源性、非编码小分子RNA, 可在转录后水平负调控EMT相关基因的表达, 在肿瘤转移中发挥重要作用。文章主要就EMT与肿瘤转移的关系、影响EMT的转录因子, 以及miRNA通过靶向EMT相关的转录因子影响肿瘤转移等方面进行了综述。     

MiRNA与肿瘤相关巨噬细胞CSCD

肿瘤相关巨噬细胞(TAM)是由血液循环中的单核细胞募集进入肿瘤微环境后分化而成的巨噬细胞,它与肿瘤的形成、发展、侵袭和转移密切相关。miRNA是一种内源性非编码小分子RNA,参与多种肿瘤的发生、发展进程。研究表明,特定miRNA在控制TAM的极化方向和功能表型中发挥重要作用,有可能成为抗肿瘤靶向治疗的潜在分子靶点。本文综述了本领域的研究新进展。     

Prognostic significance of DNA aneuploidy and p21 ras oncoprotein expression in colorectal cancer and their role in the determination of treatment modalities

The purpose of the present study was to investigate the prognostic significance of DNA ploidy, S-phase fraction and p21 ras oncoprotein expression in patients with colorectal cancer and to correlate these factors with the clinical behavior of the tumors and their response to therapy. Of 79 patients with colorectal cancer 57% (45/79) had early stage disease. Forty-one percent (32/79) had aneuploid tumors while 30% (24/79) of the tumors had a high (>10%) S-phase fraction. p21ras oncoprotein expression was detected in 38% (30/79) of tumors. Patients with aneuploid tumors had a worse prognosis than patients with diploid tumors (p=0.0002). Similarly, patients with high S-phase fraction tumors had a shorter survival than those with low S-phase fraction tumors (p=0.005). No such difference was found between p21 raspositive and p21 ras-negative tumor subgroups. In early stage colorectal cancer, aneuploidy was closely correlated with disease outcome (p=0.029). Early stage patients with diploid tumors who received radiotherapy and chemotherapy had a better prognosis than patients with aneuploid tumors. In conclusion, DNA ploidy is a significant and independent prognostic factor in colorectal cancer. Aneuploidy and genetic alteration of the p21 ras oncoprotein are important in determining the biological aggressiveness of colorectal cancer. Furthermore, DNA ploidy may identify those subgroups of patients with early stage disease who may benefit from more aggressive treatment.     

组蛋白赖氨酸特异性去甲基化酶1A在肿瘤发生发展中的作用

组蛋白赖氨酸特异性去甲基化酶1A (Histone lysine-specific demethylase 1A,KDM1A)作为组蛋白赖氨酸特异性去甲基化酶(Histonelysine-specificdemethylase)家族的一员,在信号传导、染色体重构、胚胎发育、造血和糖脂代谢等生物学过程中起着重要的作用。近年来的研究及临床证据表明,KDM1A的表达与肿瘤的发生发展密不可分,通过与不同的复合物结合并介导不同的下游信号通路,对多种肿瘤的生长增殖起着关键的调节作用,例如前列腺癌、乳腺癌、肺癌和肝癌等。在大多数情况下,KDM1A在肿瘤的发生发展中扮演着促癌基因角色。文中结合近年来有关文献,阐述了KDM1A在多种肿瘤发生及发展中的研究进展,总结了其作用机制,并对以KDM1A为靶点的抑癌治疗的应用前景进行了展望。     

鸡胚宫颈癌模型的建立及其生物学特性

目的建立人宫颈癌鸡胚模型,探讨其形态学及生物学特性。方法将Hela细胞接种于鸡胚绒毛尿囊膜,观察影响宫颈癌鸡胚移植瘤成活可能的因素、移植瘤生长特性、形态、生物学特性。结果成功建立了人宫颈癌鸡胚移植瘤模型。移植后瘤易于生长,具有较强的血管诱导作用。光镜下显示移植后瘤具有与人宫颈癌相似的组织结构。结论该模型容易建立,能动态观察宫颈癌诱导血管生成的全过程,可用于宫颈癌的实验研究。     

Progesterone signaling mediated through progesterone receptor membrane component-1 in ovarian cells with special emphasis on ovarian cancer

Various ovarian cell types including granulosa cells and ovarian surface epithelial cells express the progesterone (P4) binding protein, progesterone receptor membrane component-1 (PGRMC1). PGRMC1 is also expressed in ovarian tumors. PGRMC1 plays an essential role in promoting the survival of both normal and cancerous ovarian cell in vitro. Given the clinical significance of factors that regulate the viability of ovarian cancer, this review will focus on the role of PGRMC1 in ovarian cancer, while drawing insights into the mechanism of PGRMC1's action from cell lines derived from healthy ovaries as well as ovarian tumors.Studies using PGRMC1siRNA demonstrated that P4's ability to inhibit ovarian cells from undergoing apoptosis in vitro is dependent on PGRMC1. To confirm the importance of PGRMC1, the ability of PGRMC1-deplete ovarian cancer cell lines to form tumors in intact nude mice was assessed. Compared to PGRMC1-expressing ovarian cancer cells, PGRMC1-deplete ovarian cancer cells formed tumors in fewer mice (80% compared to 100% for controls). Moreover, the number of tumors derived from PGRMC1-deplete ovarian cancer cells was 50% of that observed in controls. Finally, the tumors that formed from PGRMC1-deplete ovarian cancer cells were about a fourth the size of tumors derived from ovarian cancer cells with normal levels of PGRMC1. One reason for PGRMC1-deplete tumors being smaller is that they had a poorly developed microvasculature system. How PGRMC1 regulates cell viability and in turn tumor growth is not known but part of the mechanism likely involves the regulation of genes that promote cell survival and inhibit apoptosis.     

利用基因芯片对一高保守基因进行肿瘤相关分析

本对大规模人类cDNA测序过程中获得的一条高保守基因进行了初步功能研究,生物信息学研究发现该基因在人类、小鼠、果蝇、拟南芥和裂殖酶母中都有很高的保守性,其他分析预测该基因可能具有肿瘤相关性。RT－PCR分析表明,该基因在成人和胎儿组织中广泛谱表达。利用基因芯片分析该基因在7例肝癌、5例胰腺癌、2例喉癌和2例肺癌中表达情况,结果证实了该基因的肿瘤相关性,并且提示该基因在不同类型中可能处于不同的地位。     

Immunopeptidomic Analyses of Colorectal Cancers With and Without Microsatellite Instability

Colorectal cancer is the second leading cause of cancer death worldwide, and the incidence of this disease is expected to increase as global socioeconomic changes occur. Immune checkpoint inhibition therapy is effective in treating a minority of colorectal cancer tumors; however, microsatellite stable tumors do not respond well to this treatment. Emerging cancer immunotherapeutic strategies aim to activate a cytotoxic T cell response against tumor-specific antigens, presented exclusively at the cell surface of cancer cells. These antigens are rare and are most effectively identified with a mass spectrometry–based approach, which allows the direct sampling and sequencing of these peptides. Although the few tumor-specific antigens identified to date are derived from coding regions of the genome, recent findings indicate that a large proportion of tumor-specific antigens originate from allegedly noncoding regions. Here, we employed a novel proteogenomic approach to identify tumor antigens in a collection of colorectal cancer–derived cell lines and biopsy samples consisting of matched tumor and normal adjacent tissue. The generation of personalized cancer databases paired with mass spectrometry analyses permitted the identification of more than 30,000 unique MHC I–associated peptides. We identified 19 tumor-specific antigens in both microsatellite stable and unstable tumors, over two-thirds of which were derived from noncoding regions. Many of these peptides were derived from source genes known to be involved in colorectal cancer progression, suggesting that antigens from these genes could have therapeutic potential in a wide range of tumors. These findings could benefit the development of T cell–based vaccines, in which T cells are primed against these antigens to target and eradicate tumors. Such a vaccine could be used in tandem with existing immune checkpoint inhibition therapies, to bridge the gap in treatment efficacy across subtypes of colorectal cancer with varying prognoses. Data are available via ProteomeXchange with identifier PXD028309.     

Metastases from metastases: comparative metastatic potential of human cancer cell lines originated from primary tumors or metastases in various tissues

Although metastases from original (primary) tumors are highly studied, metastases from metastatic sites (secondary tumors) are far less studied. Here, using data from metastasis map (MetMap) project reported in a recent study (Jin et al. in Nature 588(7837): 331–336. 10.1038/s41586-020-2969-2, 2020), we found that human cancer cell lines isolated from metastatic sites have higher potential to metastasize to another site in mice, compared to human cancer cell lines isolated from primary sites, for certain types of cancer including liver, lung and pancreas cancer. In contrast, for cancer types such as ovarian and skin cancer, human cancer cell lines originated from primary tumors have increased metastatic potential in mice, compared to human cancer cell lines originated from metastatic sites. This preliminary analysis points that the potential of metastases to further metastasize compared to that of primary tumors might be cancer type-dependent, and further research is needed to understand why certain cancer cell lines isolated from metastatic sites are more likely to spread to other organs.     

Priming cancer cells for drug resistance: role of the fibroblast niche

Conventional and targeted chemotherapies remain integral strategies to treat solid tumors. Despite the large number of anti-cancer drugs available, chemotherapy does not completely eradicate disease. Disease recurrence and the growth of drug resistant tumors remain significant problems in anti-cancer treatment. To develop more effective treatment strategies, it is important to understand the underlying cellular and molecular mechanisms of drug resistance. It is generally accepted that cancer cells do not function alone, but evolve through interactions with the surrounding tumor microenvironment. As key cellular components of the tumor microenvironment, fibroblasts regulate the growth and progression of many solid tumors. Emerging studies demonstrate that fibroblasts secrete a multitude of factors that enable cancer cells to become drug resistant. This review will explore how fibroblast secretion of soluble factors act on cancer cells to enhance cancer cell survival and cancer stem cell renewal, contributing to the development of drug resistant cancer.     

Light at night and melatonin have opposite effects on breast cancer tumors in mice assessed by growth rates and global DNA methylation

Light-at-night (LAN) is a worldwide problem co-distributed with breast cancer prevalence. We hypothesized that exposure to LAN is coincided with a decreased melatonin (MLT) secretion level, followed by epigenetic modifications and resulted in higher breast cancer tumors growth-rate. Accordingly, we studied the effect of LAN exposure and exogenous MLT on breast cancer tumors growth-rate. 4T1 cells were inoculated into BALB/c short day-acclimated mice, resulting in tumors growth. Growth rates were followed under various light exposures and global DNA methylations were measured. Results demonstrated the positive effect of LAN on tumors growth-rate, reversed by MLT through global DNA methylation.     

Stem Cell-Like Gene Expression in Ovarian Cancer Predicts Type II Subtype and Prognosis

Although ovarian cancer is often initially chemotherapy-sensitive, the vast majority of tumors eventually relapse and patients die of increasingly aggressive disease. Cancer stem cells are believed to have properties that allow them to survive therapy and may drive recurrent tumor growth. Cancer stem cells or cancer-initiating cells are a rare cell population and difficult to isolate experimentally. Genes that are expressed by stem cells may characterize a subset of less differentiated tumors and aid in prognostic classification of ovarian cancer. The purpose of this study was the genomic identification and characterization of a subtype of ovarian cancer that has stem cell-like gene expression. Using human and mouse gene signatures of embryonic, adult, or cancer stem cells, we performed an unsupervised bipartition class discovery on expression profiles from 145 serous ovarian tumors to identify a stem-like and more differentiated subgroup. Subtypes were reproducible and were further characterized in four independent, heterogeneous ovarian cancer datasets. We identified a stem-like subtype characterized by a 51-gene signature, which is significantly enriched in tumors with properties of Type II ovarian cancer; high grade, serous tumors, and poor survival. Conversely, the differentiated tumors share properties with Type I, including lower grade and mixed histological subtypes. The stem cell-like signature was prognostic within high-stage serous ovarian cancer, classifying a small subset of high-stage tumors with better prognosis, in the differentiated subtype. In multivariate models that adjusted for common clinical factors (including grade, stage, age), the subtype classification was still a significant predictor of relapse. The prognostic stem-like gene signature yields new insights into prognostic differences in ovarian cancer, provides a genomic context for defining Type I/II subtypes, and potential gene targets which following further validation may be valuable in the clinical management or treatment of ovarian cancer.