乳腺癌干细胞和乳腺癌

肿瘤干细胞既包含干细胞的特性也包含肿瘤细胞的特性。乳腺癌起源于乳腺癌干细胞的说法能够合理地解释乳腺癌的不均一性及其治疗后的复发,这些变异的干细胞可能作为肿瘤预防策略的靶标。而且,由于乳腺癌干细胞能够抵抗辐射治疗和化学治疗,所以要想更好地治疗乳腺癌就需要寻找针对这些干细胞的靶标。我们综述了乳腺癌干细胞的发现、富集和分离、相关的信号途径,以及在乳腺癌治疗中的应用。     

肿瘤干细胞与肿瘤转移

近年来,肿瘤干细胞(cancer stem cell,CSC)学说研究认为CSC与肿瘤发生、发展、转移和复发关系极为密切。研究还发现CSC具有明显的异质性,即CSC可分为增生、耐药、侵袭和转移等行为不同的亚群细胞,其中具有转移生物学特性的CSC亚群细胞称为肿瘤转移干细胞(migrating cancer stem cell,MCSC)。目前认为,上皮-间质转变、趋化因子和靶器官微环境可能在肿瘤转移过程中起着重要作用。针对MCSC及其相关机制的靶向治疗有望能更有效地遏制肿瘤的转移。     

The stem cell hypothesis in head and neck cancer

Cancer stem cells (CSCs) are tumoral cells which have stem features such as self-renewal, high migration capacity, drug resistance, high proliferation abilities. In the last 10 years the pathological meaning and the existence of CSCs have been matter of discussion and a large number of articles have been published about the role that these cells play in the development and maintenance of the tumors. Head and neck squamous-cell carcinoma (HNSCC) is the sixth most common cancer worldwide: early diagnosis of high-risk premalignant lesions are high priorities for reducing deaths due to head and neck cancer. In the last years the CSCs hypothesis has been faced also for head and neck cancer, with the aim of a better comprehension of the tumor biology and an early diagnosis. The evidence that the development of a tumor comes from a small number of cells with stem-like characteristic, could bring too to the identification of therapies against these cellular target, fundamental for maintenance and progression of the lesion. Here, a literature review has been reported about the detection of supposed CSCs in head and neck cancer.     

Repair and regeneration: opportunities for carcinogenesis from tissue stem cells

This review will discuss the mechanisms of repair and regeneration in various tissue types and how dysregulation of these mechanisms may lead to cancer. Normal tissue homeostasis involves a careful balance between cell loss and cell renewal. Stem and progenitor cells perform these biologic processes as the functional units of regeneration during both tissue homeostasis and repair. The concept of tissue stem cells capable of giving rise to all differentiated cells within a given tissue led to the concept of a cellular hierarchy in tissues and in tumors. Thus, only a few cells may be necessary and sufficient for tissue repair or tumor regeneration. This is known as the hierarchical model of tumorigenesis. This report will compare this model with the stochastic model of tumorigenesis. Under normal circumstances, the processes of tissue regeneration or homeostasis are tightly regulated by several morphogen pathways to prevent excessive or inappropriate cell growth. This review presents the recent evidence that dysregulation of these processes may provide opportunities for carcinogenesis for the long-lived, highly proliferative tissue stem cell population. New findings of cancer initiating tissue stem cells identified in several solid and circulating cancers including breast, brain and hematopoietic tumors will also be reviewed. Finally, this report reviews the cellular biology of cancer and its relevance to the development of more effective cancer treatment protocols.     

癌、干细胞和癌干细胞共同拥有的信号传导通路

干细胞（SC）是具有无限自我更新和分化能力的细胞,随着对SC研究的不断深入,人们发现SC与肿瘤细胞有许多共性,如无限增生能力、迁移能力及在某些条件下能相互转化,故提出了肿瘤起源于SC的学说。探讨癌、SC和癌干细胞（CSC）之间可能存在的共同信号传导通路,以便发现治疗CSC的靶位。     

Using ABCG2-molecule-expressing side population cells to identify cancer stem-like cells in a human ovarian cell line

CSCs (cancer stem cells) are a small subset of cells within a tumour that possesses the characteristics of stem cells and are considered to be responsible for resistance to chemoradiation. Identification of CSCs through stem cell characteristics might have relevant clinical implications. In this study, SP (side population ) cells were sorted from a human ovarian cancer cell line by FACS to determine whether cancer stem cell-like SP cells were present. A very small fraction of SP cells (2.6%) was detected in A2780 cells. SP cells possessed the following characteristics: highly proliferative activity, marked ability for self-renewal in soft agar and culture medium, high expression of ABCG2, drug resistance to vinblastine in vitro, and strong tumourigenic potential in Balb/c nude mice. It is concluded that there exists in the A2780 cell line a small number of SP cells with high expression of ABCG2. The cells have the characteristics of cancer stem-like cells, and identification and cloning of such human SP cells can help in improving therapeutic approaches to ovarian cancer in patients.     

Melanoma‐initiating cells: a compass needed

Most tumours contain a heterogeneous population of cancer cells, which harbour a range of genetic mutations and have probably undergone deregulated differentiation programmes that allow them to adapt to tumour microenvironments. Another explanation for tumour heterogeneity might be that the cells within a tumour are derived from tumour‐initiating cells through diverse differentiation programmes. Tumour‐initiating cells are thought to constitute one or more distinct subpopulations within a tumour and to drive tumour initiation, development and metastasis, as well as to be responsible for their recurrence after therapy. Recent studies have raised crucial questions about the nature, frequency and importance of melanoma‐initiating cells. Here, we discuss our current understanding of melanoma‐initiating cells and outline several approaches that the scientific community might consider to resolve the controversies surrounding these cells.     

呼吸道上皮中的短暂扩充细胞——clara细胞

clara细胞为一类无纤毛、无粘液,而有着丰富分泌颗粒的呼吸道上皮细胞。clara细胞的功能为分泌蛋白、表达细胞色素氧化酶、对外源物的生物转换作用,以及作为呼吸道中的短暂扩充细胞来修复受损的呼吸道上皮。随着对干细胞、肿瘤干细胞及所处壁龛的深入研究,其在呼吸道上皮中的更新、修复及肿瘤发生中的作用也愈来愈受到重视,并为肿瘤的治疗研究带来了前景。     

干细胞的异常分化与肿瘤发生

干细胞是一类具有自我更新和多向分化潜能的细胞群体。越来越多的研究表明,干细胞异常分化可导致肿瘤。并且在肿瘤组织中存在部分细胞,它们具有干细胞的多种特性,被称为肿瘤干细胞(cancer stem cell,CSC)。肿瘤干细胞理论的提出,为肿瘤的治疗与研究提供了新的方向。本文综述了正常干细胞异常分化、肿瘤干细胞的存在和特性、肿瘤干细胞靶向治疗的前景及所面临的问题等方面的研究进展。     

干细胞在胰腺癌中的研究进展

胰腺癌是预后程度极差的恶性肿瘤,已初步证实胰腺干细胞可转化为胰腺癌细胞。成功分离和鉴定了胰腺癌干细胞并对其与转移、耐药的关系和信号通路异常的关系进行了初步研究。深入理解干细胞在胰腺癌中的作用,可能根本改变临床胰腺癌防治的方式。     

隐窝干细胞和结肠癌的发生

肠道上皮细胞系是人体细胞更新最快的组织,更新速率甚至远远超过了肿瘤组织,这种无与伦比的更新速率如同一把双刃剑,一方面可以迅速的更新和修复肠粘膜,另一方面却大大增加了肠道细胞恶化的易感性。Wnt信号、Notch信号、BMP信号都参与了隐窝干细胞增殖分化的平衡,它们中任何一个组分发生突变或异常都将会导致结肠癌的发生。结肠癌的发生很可能是肠隐窝干细胞分化受阻的结果,隐窝干细胞是致瘤起始事件或突变的标靶。     

肿瘤干细胞与表观遗传学调控

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。     

The malignant social network: Cell-cell adhesion and communication in cancer stem cells

Tumors contain a vastly complicated cellular network that relies on local communication to execute malignant programs. The molecular cues that are involved in cell-cell adhesion orchestrate large-scale tumor behaviors such as proliferation and invasion. We have recently begun to appreciate that many tumors contain a high degree of cellular heterogeneity and are organized in a cellular hierarchy, with a cancer stem cell (CSC) population identified at the apex in multiple cancer types. CSCs reside in unique microenvironments or niches that are responsible for directing their behavior through cellular interactions between CSCs and stromal cells, generating a malignant social network. Identifying cell-cell adhesion mechanisms in this network has implications for the basic understanding of tumorigenesis and the development of more effective therapies. In this review, we will discuss our current understanding of cell-cell adhesion mechanisms used by CSCs and how these local interactions have global consequences for tumor biology.     

Distribution of CD133 reveals glioma stem cells self-renew through symmetric and asymmetric cell divisions

Malignant gliomas contain a population of self-renewing tumorigenic stem-like cells; however, it remains unclear how these glioma stem cells (GSCs) self-renew or generate cellular diversity at the single-cell level. Asymmetric cell division is a proposed mechanism to maintain cancer stem cells, yet the modes of cell division that GSCs utilize remain undetermined. Here, we used single-cell analyses to evaluate the cell division behavior of GSCs. Lineage-tracing analysis revealed that the majority of GSCs were generated through expansive symmetric cell division and not through asymmetric cell division. The majority of differentiated progeny was generated through symmetric pro-commitment divisions under expansion conditions and in the absence of growth factors, occurred mainly through asymmetric cell divisions. Mitotic pair analysis detected asymmetric CD133 segregation and not any other GSC marker in a fraction of mitoses, some of which were associated with Numb asymmetry. Under growth factor withdrawal conditions, the proportion of asymmetric CD133 divisions increased, congruent with the increase in asymmetric cell divisions observed in the lineage-tracing studies. Using single-cell-based observation, we provide definitive evidence that GSCs are capable of different modes of cell division and that the generation of cellular diversity occurs mainly through symmetric cell division, not through asymmetric cell division.     

The malignant social network

Tumors contain a vastly complicated cellular network that relies on local communication to execute malignant programs. The molecular cues that are involved in cell-cell adhesion orchestrate large-scale tumor behaviors such as proliferation and invasion. We have recently begun to appreciate that many tumors contain a high degree of cellular heterogeneity and are organized in a cellular hierarchy, with a cancer stem cell (CSC) population identified at the apex in multiple cancer types. CSCs reside in unique microenvironments or niches that are responsible for directing their behavior through cellular interactions between CSCs and stromal cells, generating a malignant social network. Identifying cell-cell adhesion mechanisms in this network has implications for the basic understanding of tumorigenesis and the development of more effective therapies. In this review, we will discuss our current understanding of cell-cell adhesion mechanisms used by CSCs and how these local interactions have global consequences for tumor biology.     

B‐cell acute lymphoblastic leukaemia: towards understanding its cellular origin

B‐cell acute lymphoblastic leukaemia (B‐ALL) is a clonal malignant disease originated in a single cell and characterized by the accumulation of blast cells that are phenotypically reminiscent of normal stages of B‐cell differentiation. B‐ALL origin has been a subject of continuing discussion, given the fact that human disease is diagnosed at late stages and cannot be monitored during its natural evolution from its cell of origin, although most B‐ALLs probably start off with chromosomal changes in haematopoietic stem cells. However, the cells responsible for maintaining the disease appear to differ between the different types of B‐ALLs and this remains an intriguing and exciting topic of research, since these cells have been posited to be responsible for resistance to conventional therapies, recurrence and dissemination. During the last years this problem has been addressed primarily by transplantation of purified subpopulations of human B‐ALL cells into immunodeficient mice. The results from these different reconstitution experiments and their interpretations are compared in this review in the context of normal B‐cell developmental plasticity. While the results from different research groups might appear mutually exclusive, we discuss how they could be reconciled with the biology of normal B‐cells and propose research avenues for addressing these issues in the future.     

癌干细胞研究进展

关于肿瘤发生及发展的机制人们已探索多年,但由于肿瘤病因本身的复杂性、研究技术和知识积累不足等各种原因,研究进展缓慢。近些年来,癌干细胞的发现、确认和特性研究为肿瘤发病机制的揭示,乃至新型高效治疗策略的制定提出了新线索。许多研究成果显示,癌干细胞因具有自我更新和潜在的强增殖能力,在肿瘤发生发展、复发转移中均发挥着很重要的作用;肿瘤化疗的失败与肿瘤组织中癌干细胞的耐药性可能存在密切关系。本文就癌干细胞在这方面的研究进展及存在的问题作一综述。