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肿瘤干细胞(cancer stem cell,CSC)是一小群能够自我复制和分化的细胞,它既具有干细胞的特征,又有自身独有的特点。结肠癌中肿瘤干细胞的发现为治愈结肠癌提供了新的治疗策略。目前关于结肠癌中肿瘤干细胞的分选标记和分子细胞学特性研究较多,但仍然存在较多争议。 相似文献
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目前,癌症是导致人类死亡的主要因素之一。尽管在癌症治疗方面取得了巨大进展,但是,其较高的复发率还是会导致死亡。连续治疗失败的一个可能原因是,残留的恶性细胞有类似干细胞的分化潜能,这样就能再次形成肿瘤和造成病灶转移。肿瘤干细胞(cancer stem cell,CSC)假说认为,肿瘤组织中存在具有自我跟新能力,无限增殖和肿瘤形成能力的一小部分肿瘤细胞,近年来,随着在血液肿瘤和实体瘤中相继发现CSC存在的相关证据,对CSC的生物学特性的认识不断深入,对肿瘤的复发、病灶转移、耐药性形成也有了新的观点和研究方向,目前的研究主要集中在其分离鉴定阶段,本文就近年来该方面的研究进展作一综述。 相似文献
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肿瘤干细胞的生物学特性及其研究进展 总被引:1,自引:0,他引:1
肿瘤干细胞(cancer stem cells,CSC)是肿瘤组织中存在的一类干细胞,具有自我更新、无限增殖能力及致瘤性。大量研究显示,血液系统及实体瘤中均存在CSC。综述了CSC生物学特性的最新研究进展,包括寻找表面标记物、确定CSC微环境、分选与鉴定CSC、探索肿瘤细z胞和CSC之间的转化、研究CSC耐药性和耐药机制。利用肿瘤的这些生物学特性选择性杀伤肿瘤干细胞的靶分子疗法,为克服肿瘤耐药的复发与转移提供新的策略。CSC的研究为人们对肿瘤生物学特性的进一步认识提供了新的思路,并为肿瘤的临床治疗提供了新的希望。 相似文献
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关于恶性肿瘤发生、复发与转移机制的研究由来已久,但目前的临床治疗方法依然不能克服肿瘤复发与转移的难题,肿瘤患者的生存率并未得到显著改善。近年来的研究提示肿瘤的起源、复发与转移的真正原因可能是存在于肿瘤内的极少数具有干细胞特性的细胞,即肿瘤干细胞(cancer stem cells,CSC)。与此同时,越来越多的研究表明,对于肿瘤干细胞的发生与功能维持,表观遗传学的调控机制可能发挥着极其重要的作用。该文简要综述目前肿瘤干细胞和表观遗传学相关领域的研究进展,并对肿瘤干细胞形成及发展过程中表观遗传学的调控作用及机制进行重点介绍。 相似文献
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肿瘤干细胞 (CSC)是一类具有肿瘤起始、自我更新及无限增殖潜能的细胞亚群,与肿瘤的局部复发与远处转移密切相关,是肿瘤放射治疗抵抗的根源。非小细胞肺癌是目前发病率及致死率较高的恶性肿瘤,已证实非小细胞肺癌中具有干细胞特性的CSC亚群,目前通过分离CD133等一系列已知免疫表型阳性细胞是获得非小细胞肺癌CSC的主要手段。研究证实CSC主要是通过DNA损伤、细胞自噬和缺氧肿瘤微环境等机制介导非小细胞肺癌的放疗抵抗效应。本文主要对非小细胞肺癌CSC的生物学特性、免疫表型表达及放疗抵抗的分子机制进行综述,以期为提高非小细胞肺癌放射疗效提供线索和依据。 相似文献
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Ignacio Sancho-Martinez 《Cell cycle (Georgetown, Tex.)》2016,15(18):2393-2397
Cancer comprises heterogeneous cells, ranging from highly proliferative immature precursors to more differentiated cell lineages. The emergence of the “cancer stem cell” (CSC) hypothesis that they are the cells responsible for resistance, metastasis and secondary tumor appearance identifies these populations as novel obligatory targets for the treatment of cancer. CSCs, like their normal tissue-specific stem cell counterparts, are multipotent, partially differentiated, self-sustaining, yet transformed cells. To date, most studies on CSC biology have relied on the use of murine models and primary human material. In spite of much progress, the use of primary material presents several limitations that limit our understanding of the mechanisms underlying CSC formation, the similarities between normal stem cells and CSCs and ultimately, the possibility for developing targeted therapies. Recently, different strategies for controlling cell fate have been applied to the modeling of human cancer initiation and for the generation of human CSC models. Here we will summarize recent developments in the establishment and application of reprogramming strategies for the modeling of human cancer initiation and CSC formation. 相似文献
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Gambelli F Sasdelli F Manini I Gambarana C Oliveri G Miracco C Sorrentino V 《Cell biology international》2012,36(1):29-38
CD133 can be a marker of tumorigenic CSCs (cancer stem cells) in human GBM (glioblastoma multiforme), although tumorigenic CD133-negative CSCs have been also isolated. Additional evidence indicates that CSCs from GBM exhibit different phenotypes, with increasing interest in the potential significance of the different CSCs with respect to diagnosis, prognosis and the development of novel targets for treatment. We have analysed the expression of CD133 in freshly isolated cells from 15 human GBM specimens. Only 4 of them contained cells positive for AC133 by FACS analysis, and all of them yielded distinct CSC lines, whereas only 6 CSC lines were obtained from the other 11 GBMs. Of these 10 CSCs lines, we further characterized 6 CSC lines. Three CSCs grew as fast-growing neurospheres with higher clonogenic ability, whereas the remaining 3 grew as slow-growing semi-adherent spheres of lower clonogenicity. In addition, the former CSC lines displayed better differentiation capabilities than the latter ones. PCR and Western blot analysis showed that all 6 GBM CSC lines expressed CD133/prominin-1, suggesting that cells negative by FACS analysis may actually represent cells expressing low levels of CD133 undetected by FACS. Nevertheless, all the 6 CSC lines were tumorigenic in nude mice. In conclusion, CSCs from human primary GBMs show different phenotypes and variable levels of CD133 expression, but these parameters did not directly correlate with the tumorigenic potential. 相似文献
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Ovarian cancer is the deadliest gynecological malignancy. It is typically diagnosed at advanced stages of the disease, with metastatic sites disseminated widely within the abdominal cavity. Ovarian cancer treatment is challenging due to high disease recurrence and further complicated pursuant to acquired chemoresistance. Cancer stem cell(CSC) theory proposes that both tumor development and progression are driven by undifferentiated stem cells capable of self-renewal and tumor-initiation. The most recent evidence revealed that CSCs in terms of ovarian cancer are not only responsible for primary tumor growth, metastasis and relapse of disease, but also for the development of chemoresistance. As the elimination of this cell population is critical for increasing treatment success, a deeper understanding of ovarian CSCs pathobiology, including epithelial-mesenchymal transition, signaling pathways and tumor microenvironment, is needed. Finally, before introducing new therapeutic agents for ovarian cancer, targeting CSCs, accurate identification of different ovarian stem cell subpopulations, including the very small embryoniclike stem cells suggested as progenitors, is necessary. To these ends, reliable markers of ovarian CSCs should be identified. In this review, we present the current knowledge and a critical discussion concerning ovarian CSCs and their clinical role. 相似文献
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Elsa N Garza-Trevi?o Salvador L Said-Fernández Herminia G Martínez-Rodríguez 《Cancer cell international》2015,15(1)
An area of research that has been recently gaining attention is the relationship between cancer stem cell (CSC) biology and chemo-resistance in colon cancer patients. It is well recognized that tumor initiation, growth, invasion and metastasis are promoted by CSCs. An important reason for the widespread interest in the CSC model is that it can comprehensibly explain essential and poorly understood clinical events, such as therapy resistance, minimal residual disease, and tumor recurrence. This review discusses the recent advances in colon cancer stem cell research, the genes responsible for CSC chemoresistance, and new therapies against CSCs. 相似文献
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肿瘤干细胞模型是关于肿瘤形成及生物学特征的一种重要观点。该模型认为肿瘤发生的核心是一群类似于成体干细胞的肿瘤细胞, 具有自我增殖和分化潜能, 称为肿瘤干细胞(Cancer stem cells, CSCs)。目前在多种肿瘤中都发现了CSCs, 其不仅能导致肿瘤发生, 还是引起肿瘤转移、复发、抗药的关键原因。因此, 研究CSC的调控机制具有重要意义。近年来的研究发现, 除了基础的遗传学因素外, 表观遗传学在CSCs的调控中同样具有重要作用。目前主要的表观遗传学机制包括DNA甲基化、组蛋白修饰、染色质重塑及miRNA等, 能有效调节基因表达及细胞表型, 也是肿瘤研究的新热点。文章主要围绕近几年CSCs的特性研究及表观遗传学线索, 阐述表观遗传学机制调控CSCs的最新进展。 相似文献
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Hend M. Nawara PhD Said M. Afify PhD Ghmkin Hassan MSc Maram H. Zahra PhD Marwa N. Atallah PhD Akimasa Seno PhD Masaharu Seno PhD 《Cell biology international》2021,45(4):749-756
Angiogenesis is generally involved in tumor growth and metastasis. Cancer stem cells (CSCs) are considered to facilitate the angiogenesis. Therefore, CSCs could be the effective targets to stop angiogenesis. Recently, our group successfully generated CSC models from induced pluripotent stem cells (iPSCs) in the presence of conditioned medium derived from cancer derived cells. These novel model CSCs has been characterized by highly tumorigenic, angiogenic and metastatic potentials in vivo. The angiogenic potential of CSCs has been explained by the expression of both angiogenic factors and their receptors implying the angiogenesis in autocrine manner. In this protocol we optimized the method to evaluate tumor angiogenesis with the CSC model, which was described effective to assess sorafenib as an antiangiogenic drug, on chick chorioallantoic membrane (CAM) assay. Our results demonstrate that CSCs developed from iPSCs and CAM assay are a robust and cost-effective tool to evaluate tumor angiogenesis with CSCs. Collectively, CSCs in CAM assay could serve as a very useful model for the screening of potential therapeutic agents targeting tumor angiogenesis. 相似文献
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It has been proposed that the selective elimination of cancer stem cells (CSCs) using targeted therapy could greatly reduce tumor growth, recurrence, and metastasis. To develop effective therapeutic targets for CSC elimination, we aimed to define the properties of CSC mitochondria, and identify CSC-mitochondria-specific targets in colon cancer. We found that colon CSCs utilize mitochondrial oxidative phosphorylation (OXPHOS) to produce ATP. We also found that forkhead box protein 1 (FOXM1)-induced peroxiredoxin 3 (PRDX3) maintains the mitochondrial function, and the FOXM1/PRDX3 mitochondrial pathway maintains survival of colon CSCs. Furthermore, FOXM1 induces CD133 (PROM1/prominin 1) expression, which maintains the stemness of colon CSCs. Together, our findings indicate that FOXM1, PRDX3, and CD133 are potential therapeutic targets for the elimination of CSCs in colon cancer. [BMB Reports 2015; 48(10): 539-540] 相似文献
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Dae Kyoung Kim Min Hee Ham Seo Yul Lee Min Joo Shin Ye Eun Kim Parkyong Song Dong-Soo Suh Jae Ho Kim 《BMB reports》2020,53(12):622
Cancer stem cells (CSCs) or tumor-initiating cells are thought to play critical roles in tumorigenesis, metastasis, drug resistance, and tumor recurrence. For the diagnosis and targeted therapy of CSCs, the molecular identity of biomarkers or therapeutic targets for CSCs needs to be clarified. In this study, we identified CD166 as a novel marker expressed in the sphere-forming CSC population of A2780 epithelial ovarian cancer cells and primary ovarian cancer cells. The CD166+ cells isolated from A2780 cells and primary ovarian cancer cells highly expressed CSC markers, including ALDH1a1, OCT4, and SOX2, and ABC transporters, which are implicated in the drug resistance of CSCs. The CD166+ cells exhibited enhanced CSC-like properties, such as increased sphere-forming ability, cell migration and adhesion abilities, resistance to conventional anti-cancer drugs, and high tumorigenic potential in a xenograft mouse model. Knockdown of CD166 expression in the sphere-forming ovarian CSCs abrogated their CSC-like properties. Moreover, silencing of CD166 expression in the sphere-forming CSCs suppressed the phosphorylation of focal adhesion kinase, paxillin, and SRC. These results suggest that CD166 plays a key role in the regulation of CSC-like properties and focal adhesion kinase signaling in ovarian cancer. 相似文献