干细胞3D支架的研究进展

干细胞是一类具有无限增殖潜能,可自我更新的细胞,不同的培养或诱导条件下能够分化成为不同的细胞类型。目前,随着医学治疗手段及干细胞研究的不断发展,发现干细胞可应用于很多疾病的治疗,干细胞临床应用日益广泛,逐渐成为科研工作者研究的热点。然而干细胞移植进入生物体后繁殖效率很低,无法达到需求的量,因此如何对干细胞在生物体外进行大量培养扩增、在生物体内如何更稳定地增殖分化成为迫切需要解决的难题。当前干细胞最主要的培养方法仍是2D培养,2D培养无法模拟体内的3D微环境,繁殖效率较低,正是由于2D培养局限性太多,促使国内外学者对3D培养技术和3D支架材料进行深入探索,并取得了大量成果。对3D培养技术在干细胞中的发展与应用进行概述和展望。     

Isolation of Mammary Epithelial Cells from Three-dimensional Mixed-cell Spheroid Co-culture

While enormous efforts have gone into identifying signaling pathways and molecules involved in normal and malignant cell behaviors^1-2, much of this work has been done using classical two-dimensional cell culture models, which allow for easy cell manipulation. It has become clear that intracellular signaling pathways are affected by extracellular forces, including dimensionality and cell surface tension^3-4. Multiple approaches have been taken to develop three-dimensional models that more accurately represent biologic tissue architecture³. While these models incorporate multi-dimensionality and architectural stresses, study of the consequent effects on cells is less facile than in two-dimensional tissue culture due to the limitations of the models and the difficulty in extracting cells for subsequent analysis.The important role of the microenvironment around tumors in tumorigenesis and tumor behavior is becoming increasingly recognized⁴. Tumor stroma is composed of multiple cell types and extracellular molecules. During tumor development there are bidirectional signals between tumor cells and stromal cells⁵. Although some factors participating in tumor-stroma co-evolution have been identified, there is still a need to develop simple techniques to systematically identify and study the full array of these signals⁶. Fibroblasts are the most abundant cell type in normal or tumor-associated stromal tissues, and contribute to deposition and maintenance of basement membrane and paracrine growth factors⁷.Many groups have used three dimensional culture systems to study the role of fibroblasts on various cellular functions, including tumor response to therapies, recruitment of immune cells, signaling molecules, proliferation, apoptosis, angiogenesis, and invasion^8-15. We have optimized a simple method for assessing the effects of mammary fibroblasts on mammary epithelial cells using a commercially available extracellular matrix model to create three-dimensional cultures of mixed cell populations (co-cultures)^16-22. With continued co-culture the cells form spheroids with the fibroblasts clustering in the interior and the epithelial cells largely on the exterior of the spheroids and forming multi-cellular projections into the matrix. Manipulation of the fibroblasts that leads to altered epithelial cell invasiveness can be readily quantified by changes in numbers and length of epithelial projections²³. Furthermore, we have devised a method for isolating epithelial cells out of three-dimensional co-culture that facilitates analysis of the effects of fibroblast exposure on epithelial behavior. We have found that the effects of co-culture persist for weeks after epithelial cell isolation, permitting ample time to perform multiple assays. This method is adaptable to cells of varying malignant potential and requires no specialized equipment. This technique allows for rapid evaluation of in vitro cell models under multiple conditions, and the corresponding results can be compared to in vivo animal tissue models as well as human tissue samples.     

Three-dimensional co-culture of hepatocytes and stellate cells

Hepatocytes self-assemble in culture to form compacted spherical aggregates, or spheroids, that mimic the structure of the liver by forming tight junctions and bile canalicular channels. Hepatocyte spheroids thus resemble the liver to a great extent. However, liver tissue contains other cell types and has bile ducts and sinusoids formed by endothelial cells. Reproducing 3-D co-culture in vitro could provide a means to develop a more complex tissue-like structure. Stellate cells participate in revascularization after liver injury by excreting between hepatocytes a laminin trail that endothelial cells follow to form sinusoids. In this study we investigated co-culture of rat hepatocytes and a rat hepatic stellate cell line, HSC-T6. HSC-T6, which does not grow in serum-free spheroid medium, was able to grow under co-culture conditions. Using a three-dimensional cell tracking technique, the interactions of HSC-T6 and hepatocyte spheroids were visualized. The two cell types formed heterospheroids in culture, and HSC-T6 cell invasion into hepatocyte spheroids and subsequent retraction was observed. RT-PCR revealed that albumin and cytochrome P450 2B1/2 expression were better maintained in co-culture conditions. These three-dimensional heterospheroids provide an attractive system for in vitro studies of hepatocyte-stellate cell interactions.     

Comparison of three culture media for the establishment of melanoma cell lines

Melanoma cell lines are useful tools for the analysis of tumor-specific lymphocytes which are injected to patients treated by adoptive immunotherapy. So they have been established previously (with an efficacy of 47%) in Roswell Park Memorial Institute (RPMI) medium enriched with fetal calf serum (FCS). In order to improve the probability of establishing melanoma cell lines, we compared two FCS-free media with the original FCS medium. Ten melanoma-invaded lymph nodes were tested for their ability to grow in three different culture media: RPMI with FCS; RPMI with human serum (HS); serum-free X-vivo 15 (X15). For each medium, we compared the following criteria: percentage of lines obtained; period of establishment; cell morphology; expression of melanoma-associated antigens and surface molecules. More cell lines were obtained with HS and X15 media compared to FCS medium (7/10, 5/10 and 4/10, respectively). The time period to establish a stable line was similar for the three media. No morphological differences were observed in cells derived from the same tumor sample in the different media. With the X15 medium, cells generally expressed lower levels of melanocytic differentiation antigens and surface molecules. The growth of melanoma cell lines in FCS-free culture media appears possible and advantageous, with an increased probability of obtaining autologous tumor cell lines. Furthermore the cells obtained could be used as multiple antigenic sources in active or adoptive immunotherapy protocols.     

胃癌的肿瘤微环境研究进展

肿瘤微环境是决定肿瘤细胞行为的主要影响因素,有别于正常细胞与其周围组织所形成的微环境,组织缺氧和酸中毒、间质高压形成、大量生长因子和蛋白水解酶的产生及免疫炎性反应等构成了肿瘤组织代谢环境的生物学特征,这种特性在肿瘤的发生、进展、转移中扮演重要的角色。胃癌早期症状不典型、转移迅速、死亡率高,是消化系统最常见的恶性肿瘤,目前,关于肿瘤微环境的研究尚处于起步阶段,对胃癌肿瘤微环境的研究有助于我们进一步认识胃癌发生发展的机制,并为临床诊断、治疗胃癌提供依据。因此,本文就近年来在胃癌肿瘤微环境方面的研究进展作一综述。