Does Diffusely Infiltrating Lobular Carcinoma of the Breast Arise from Epithelial-Mesenchymal Hybrid Cells?

Classic diffusely infiltrating lobular carcinoma has imaging features divergent from the breast cancers originating from the terminal ductal lobular units and from the major lactiferous ducts. Although the term "invasive lobular carcinoma" implies a site of origin within the breast lobular epithelium, we were unable to find evidence supporting this assumption. Exceptional excess of fibrous connective tissue and the unique cell architecture combined with the aberrant features at breast imaging suggest that this breast malignancy has not originated from cells lining the breast ducts and lobules. The only remaining relevant component of the fibroglandular tissue is the mesenchyme. The cells freshly isolated and cultured from diffusely infiltrating lobular carcinoma cases contained epithelial-mesenchymal hybrid cells with both epithelial and mesenchymal properties. The radiologic and histopathologic features of the tumours and expression of the mesenchymal stem cell positive markers CD73, CD90, and CD105 all suggest development in the direction of mesenchymal transition. These hybrid cells have tumour-initiating potential and have been shown to have poor prognosis and resistance to therapy targeted for malignancies of breast epithelial origin. Our work emphasizes the need for new approaches to the diagnosis and therapy of this highly fatal breast cancer subtype.

mTOR Signaling Combined with Cancer Stem Cell Markers as a Survival Predictor in Stage II Colorectal Cancer.

PURPOSE: Wnt and mammalian target of rapamycin (mTOR) are major molecular signaling pathways associated with the development and progression of tumor, as well as the maintenance and proliferation of cancer stem cells (CSCs), in colorectal cancer (CRC). Identifying patients at risk of poor prognosis is important to determining whether to add adjuvant treatment in stage II CRC and thus improve survival. In the present study, we evaluated the prognostic value of Wnt, mTOR, and CSC markers as survival predictors in stage II CRC. MATERIALS AND METHODS: We identified 148 cases of stage II CRC and acquired their tumor tissue. Tissue microarrays for immunohistochemical staining were constructed, and the expressions of CD166, CD44, EphB2, ß-catenin, pS6 were evaluated using immunohistochemical staining. RESULTS: The expressions of CD166 (p=0.045) and pS6 (p=0.045) and co-expression of pS6/CD166 (p=0.005), pS6/CD44 (p=0.042), and pS6/CD44/CD166 (p=0.013) were negatively correlated with cancer-specific survival. Cox proportional hazard analysis showed the combination of CD166/pS6 [hazard ratio, 9.42; 95% confidence interval, 2.36-37.59; p=0.002] to be the most significant predictor related with decreased cancer-specific survival. In addition, co-expression of CD44/CD166 (p=0.017), CD166/ß-catenin (p=0.036), CD44/ß-catenin (p=0.001), and CD44/CD166/ß-catenin (p=0.001) were significant factors associated with liver metastasis. CONCLUSION: Specific combinations of CSC markers and ß-catenin/mTOR signaling could be a significant predictor of poor survival in stage II CRC.

Cancer stem cells in Epstein-Barr virus-associated gastric carcinoma.

Cancer stem cells (CSCs) play a decisive role in the development and progression of cancer. To investigate CSCs in Epstein-Barr virus (EBV)-associated carcinoma (EBVaGC), we screened previously reported stem cell markers of gastric cancer in EBV-infected gastric cancer cell lines (TMK1 and NUGC3) and identified CD44v6v9 double positive cells as candidate CSCs. CD44v6/v9+/+ cells were sorted from EBVaGC cell line (SNU719) cells and EBV-infected TMK1 cells and these cell populations showed high spheroid-forming ability and tumor formation in SCID mice compared with the respective CD44v6/v9-/- cells. Sphere-forming ability was dependent on the nuclear factor-κB (NF-κB) signaling pathway, which was confirmed by decrease of sphere formation ability under BAY 11-7082. Small interfering RNA knockdown of latent membrane protein 2A (LMP2A), one of the latent gene products of EBV infection, decreased spheroid formation in SNU719 cells. Transfection of the LMP2A gene increased the sphere-forming ability of TMK1 cells, which was mediated through NF-κB signaling. Together, these results indicate that CD44v6v9+/+ cells are CSCs in EBVaGC that are maintained through the LMP2A/NF-κB pathway. Future studies should investigate CD44v6/v9+/+ cells in normal and neoplastic gastric epithelium to prevent and treat this specific subtype of gastric cancer infected with EBV.

BMP4 induces asymmetric cell division in human glioma stem-like cells.

Glioblastoma (GBM) is a malignant tumor with a high recurrence rate and has very poor prognosis in humans. The median survival is still <2 years. Therefore, a new treatment strategy should be established. Recently, this cancer has been thought to be heterogeneous, consisting of cancer stem cells (CSCs) that are self-renewable, multipotent, and treatment resistant. So various strategies targeting glioma stem-like cells (GSCs) have been investigated. This study focused on strategies targeting GSCs through the induction of differentiation using bone morphogenetic protein 4 (BMP4). The expression of CD133, a cancer stem cell marker, under BMP4 treatment in GSCs was examined using flow cytometry, western blotting, and quantitative PCR. Immunofluorescent staining of GSCs was also performed to examine the type of cell division: asymmetric cell division (ACD) or symmetric cell division (SCD). We obtained the following results. The BMP4 treatment caused downregulation of CD133 expression. Moreover, it induced ACD in GSCs. While the ACD ratio was 23% without BMP4 treatment, it was 38% with BMP4 treatment (P=0.004). Furthermore, the tumor sphere assay demonstrated that BMP4 suppresses self-renewal ability. In conclusion, these findings may provide a new perspective on how BMP4 treatment reduces the tumorigenicity of GSCs.

Microenvironmental Regulation of Long Noncoding RNA LINC01133 Promotes Cancer Stem Cell-Like Phenotypic Traits in Triple-Negative Breast Cancers.

The fibrotic tumor microenvironment is a critical player in the pathogenesis of triple-negative breast cancers (TNBCs), with the presence of fibroblastic infiltrates particularly correlating with tumors that are clinically advanced. On this front, we previously demonstrated that TNBCs are highly enriched in fibroblastic stromal progenitor cells called mesenchymal stem/stromal cells (MSCs) and that such cells play critical roles in promoting TNBC initiation and progression. How TNBC cells respond to MSC stimulation, however, is not fully understood, and stands to reveal contextual signals used by TNBC cells during tumor development and provide biomarkers and therapeutic targets of pertinence to TNBC management. Here, we report that MSCs strongly induced the long noncoding RNA (lncRNA) LINC01133 in neighboring TNBC cells. Indeed, although lncRNAs have been tightly associated with cancer development, their contributions to breast cancer in general, and to TNBC pathogenesis in particular, have not been fully elucidated, and we set out to determine if LINC01133 regulated malignant traits in TNBC cells. We establish that LINC01133 is sufficient, on its own, in promoting phenotypic and growth characteristics of cancer stem cell-like cells, and that it is a direct mediator of the MSC-triggered miR-199a-FOXP2 pathway in TNBC models. Furthermore, we show that LINC01133 is a critical regulator of the pluripotency-determining gene Kruppel-Like Factor 4 (KLF4), and that it represents a biomarker and prognosticator of disease outcome in the clinic. Collectively, our findings introduce LINC01133 as a novel functional driver of malignancy and a potential theranostic in TNBC. Stem Cells 2019;37:1281-1292.

Concise Review: An (Im)Penetrable Shield: How the Tumor Microenvironment Protects Cancer Stem Cells.

Cancer stem cells (CSCs) are defined by their unlimited self-renewal ability and their capacity to initiate and maintain malignancy, traits that are not found in most cells that comprise the tumor. Although current cancer treatments successfully reduce tumor burden, the tumor will likely recur unless CSCs are effectively eradicated. This challenge is made greater by the protective impact of the tumor microenvironment (TME), consisting of infiltrating immune cells, endothelial cells, extracellular matrix, and signaling molecules. The TME acts as a therapeutic barrier through immunosuppressive, and thereby tumor-promoting, actions. These factors, outside of the cancer cell lineage, work in concert to shelter CSCs from both the body's intrinsic anticancer immunity and pharmaceutical interventions to maintain cancer growth. Emerging therapies aimed at the TME offer a promising new tool in breaking through this shield to target the CSCs, yet definitive treatments remain unrealized. In this review, we summarize the mechanisms by which CSCs are protected by the TME and current efforts to overcome these barriers. Stem Cells 2017;35:1123-1130.

Sorafenib inhibits 5-fluorouracil-resistant gastric cancer cell growth.

BACKGROUND: Sorafenib is a multi-kinase inhibitor used in the treatment of various cancers. This study investigated the inhibitory effect of sorafenib on xenograft models of gastric cancer cells and 5-fluorouracil (5-FU)-resistant cells. METHODS: The half-maximal inhibitory concentration (IC50) of sorafenib in NCI-N87 cells was determined. Xenograft models were established using BALB/c nude mice and were divided into four groups treated with vehicle, sorafenib (20 mg kg-1 day-1), 5-FU (50 mg kg-1 week-1), or a combination of sorafenib (20 mg kg-1 day-1) plus 5-FU (50 mg kg-1 week-1). 5-FU-resistant NCI-N87 cells were established by repeated exposure to 5-FU. RESULTS: Sorafenib inhibited NCI-N87 cell growth in a concentration-dependent manner with a mean IC50 of 16.345 ± 5.391 µM. Phosphorylation levels of mitogen-activated protein kinase kinase and extracellular signal-regulated kinase in these cells decreased in a dose-dependent manner after exposure to sorafenib. Sorafenib induced the activation of caspase-3, and its combination with 5-FU more effectively inhibited the growth of xenograft tumors than either sorafenib or 5-FU alone (p < 0.05). Sorafenib markedly inhibited 5-FU-resistant NCI-N87 cell growth as well as sphere formation in both parental and 5-FU-resistant NCI-N87 cells. CONCLUSIONS: The sorafenib and 5-FU combination exhibited enhanced antitumor effects in a gastric cancer xenograft model and inhibited 5-FU-resistant cell proliferation and sphere formation. These findings suggest that sorafenib is useful in overcoming gastric cancer resistance to conventional chemotherapy.

HIF-1α@Fe3O4 labeled pancreatic cancer PANC1 cells under hypoxia and its MRI detection / 中华胰腺病杂志

Objective To explore the feasibility of novel nano-particle HIF-1 α@Fe3 O4 labeled pancreatic cancer PANC1 cells as well as the changes of signal intensity in 3.0T MRI scan.Methods Pancreatic cancer PANC1 cells were cultured in hypoxia condition,and hypoxia-inducible-factor-1 α(HIF-1 α) and stem cell markers CD133,Oct-4,Sox-2 were detected by Western blot assay.Cells cultured under hypoxia for 24 h were collected and then co-incubated with 5,15 and 45 μg/ml HIF-1α@Fe3O4 for 24 h.The number of HIF-1 α@Fe3O4 labeled PANC1 cells and cell survival rate were detected,and the signal intensity of T2 WI image for PANC1 cells was measured by a 3.0T MRI system.Results In hypoxia condition,HIF-1 α level was obviously increased compared with that of normoxic culture,which was further increased with the increase of hypoxia time(all P ＜ 0.05).Stem-cell markers CD133,Oct-4 and Sox-2 was positively correlated with HIF-1α level.Co-cultured with different concentrations of HIF-1α@Fe3O4 for 24 h,blue-stained iron particles in cytoplasm of PANC1 cells was dosage-dependently increased,and the peak was at the concentration of 45 μg/ml,which could reach 100％.The survival rate of the PANC1 cells cultured in normoxic condition,the unlabeled and labeled in hypoxic condition group were(87.0 ± 2.1) ％,(84.7 ± 2.7) ％ and (85 ± 3.8) ％,respectively,and the difference was not statistically significant (P ＞ 0.05).In 3.0T MRI scan,T2 WI signal intensity in unlabeled group and 5,15 and 45 μg/ml labeled group was 1.017 ± 0.046,0.793 ± 0.041,0.447 ± 0.032 and 0.240 ± 0.031,and the difference was not statistically significant (F =80.0,P ＞ 0.05).Conclusions Hypoxia condition could promote and maintain the stemness in PANC1 cells.HIF-1α@Fe3O4 probe could successfully label HIF-1α highly expressed PANC1 cells during hypoxia condition,and a significant decrease in T2WI signal intensity can be detected by a 3.0T MRI system.

Characterization of sphere-forming HCT116 clones by whole RNA sequencing.

PURPOSE: To determine CD133(+) cells defined as cancer stem cells (CSCs) in colon cancer, we examined whether CD133(+) clones in HCT116 demonstrate known features of CSCs like sphere-forming ability, chemodrug-resistance, and metastatic potential. METHODS: Magnetic cell isolation and cell separation demonstrated that <1% of HCT116 cells expressed CD133, with the remaining cells being CD133(-) clones. In colon cancer cells, radioresistance is also considered a CSC characteristic. We performed clonogenic assay using 0.4 Gy γ-irradiation. RESULTS: Interestingly, there were no differences between HCT116 parental and HCT116 CD133(+) clones when the cells comprised 0.5% of the total cells, and CD133(-) clone demonstrated radiosensitive changes compared with parental and CD133(+) clones. Comparing gene expression profiles between sphere-forming and nonforming culture conditions of HCT116 subclones by whole RNA sequencing failed to obtain specific genes expressed in CD133(+) clones. CONCLUSION: Despite no differences of gene expression profiles in monolayer attached culture conditions of each clone, sphere-forming conditions of whole HCT116 subclones, parental, CD133(+), and CD133(-) increased 1,761 coding genes and downregulated 1,384 genes related to CSCs self-renewal and survival. Thus, spheroid cultures of HCT116 cells could be useful to expand colorectal CSCs rather than clonal expansion depending on CD133 expressions.

Phosphorylation Regulates Id2 Degradation and Mediates the Proliferation of Neural Precursor Cells.

Inhibitor of DNA binding proteins (Id1-Id4) function to inhibit differentiation and promote proliferation of many different cell types. Among the Id family members, Id2 has been most extensively studied in the central nervous system (CNS). Id2 contributes to cultured neural precursor cell (NPC) proliferation as well as to the proliferation of CNS tumors such as glioblastoma that are likely to arise from NPC-like cells. We identified three phosphorylation sites near the N-terminus of Id2 in NPCs. To interrogate the importance of Id2 phosphorylation, Id2(-/-) NPCs were modified to express wild type (WT) Id2 or an Id2 mutant protein that could not be phosphorylated at the identified sites. We observed that NPCs expressing this mutant lacking phosphorylation near the N-terminus had higher steady-state levels of Id2 when compared to NPCs expressing WT Id2. This elevated level was the result of a longer half-life and reduced proteasome-mediated degradation. Moreover, NPCs expressing constitutively de-phosphorylated Id2 proliferated more rapidly than NPCs expressing WT Id2, a finding consistent with the well-characterized function of Id2 in driving proliferation. Observing that phosphorylation of Id2 modulates the degradation of this important cell-cycle regulator, we sought to identify a phosphatase that would stabilize Id2 enhancing its activity in NPCs and extended our analysis to include human glioblastoma-derived stem cells (GSCs). We found that expression of the phosphatase PP2A altered Id2 levels. Our findings suggest that inhibition of PP2A may be a novel strategy to regulate the proliferation of normal NPCs and malignant GSCs by decreasing Id2 levels. Stem Cells 2016;34:1321-1331.

Characterization of sphere-forming HCT116 clones by whole RNA sequencing

PURPOSE: To determine CD133+ cells defined as cancer stem cells (CSCs) in colon cancer, we examined whether CD133+ clones in HCT116 demonstrate known features of CSCs like sphere-forming ability, chemodrug-resistance, and metastatic potential. METHODS: Magnetic cell isolation and cell separation demonstrated that <1% of HCT116 cells expressed CD133, with the remaining cells being CD133- clones. In colon cancer cells, radioresistance is also considered a CSC characteristic. We performed clonogenic assay using 0.4 Gy γ-irradiation. RESULTS: Interestingly, there were no differences between HCT116 parental and HCT116 CD133+ clones when the cells comprised 0.5% of the total cells, and CD133- clone demonstrated radiosensitive changes compared with parental and CD133+ clones. Comparing gene expression profiles between sphere-forming and nonforming culture conditions of HCT116 subclones by whole RNA sequencing failed to obtain specific genes expressed in CD133+ clones. CONCLUSION: Despite no differences of gene expression profiles in monolayer attached culture conditions of each clone, sphere-forming conditions of whole HCT116 subclones, parental, CD133+, and CD133- increased 1,761 coding genes and downregulated 1,384 genes related to CSCs self-renewal and survival. Thus, spheroid cultures of HCT116 cells could be useful to expand colorectal CSCs rather than clonal expansion depending on CD133 expressions.

Biological characteristics of drug induced tumor cells and its medicine prevention and treatment / 药学学报

Recently, the incidence and mortality of cancer has raised. More and more cytotoxic drugs and molecular targeted medicines have been used in clinic. However, most drugs just display a short-term anti-tumor effect. If patients received treatment for a long time, it would arise resistance to chemotherapy frequently. One of its important reasons is the accumulation of drug induced cancer cells. Thus, this paper emphasizes on biological character of drug induced cells, including cell biological phenotype, the change of gene and protein, variation of metabolism, dynamic change of signal transduction pathway and so on. Meanwhile, according to the characteristics of drug induced cells, we propose some strategies to inhibit drug induced cells, which would provide the foundation of clinical therapy and novel anti-tumor drug research and development.

Study on the biological characteristics of human breast cancer cell mammospheres / 重庆医学

Objective To study the biological characteristics of the human breast cancer cell mammospheres (MSs) ,and con‐struct breast cancer stem cell experiment model .Methods MCF‐7 cells were cultured in the serum‐free media supplemented with growth factors (the MCF‐7 group) ,and the MSs was collected (the MSs group) .The migration ,invasive and animal tumor forma‐tion abilities of MSs were detected by wound healing ,transwell invasive assay and animal tumor formation test .Results The wound line of MSs healed after 48 hours ,but the line of MCF‐7cells could not heal after 48 h .The number of the cells going through the membrane in MSs group was (76 .24 ± 0 .35) ,and the number in MCF‐7cells was (17 .38 ± 0 .18)(P<0 .05) .MSs had stronger ani‐mal tumor formation ability than MCF‐7 cells .Conclusion MSs have stronger abilities in migration ,invasive and animal tumor for‐mation ,and could be used in the studies of breast cancer stem cell as experimental model .

Differentiation therapy for solid tumors.

Differentiation therapy for tumors refers to treating malignant tumors via the induction of cell differentiation. The best characterized clinical application of differentiation therapy is the use of all-trans retinoic acid in the treatment of acute promyelocytic leukemia (APL), which markedly improved the outcome of this disease. Unlike the situation with APL, the development of differentiation therapy for solid tumors is far from satisfactory. To date, no differentiation-inducing agents have been demonstrated to exert a curative effect on solid tumors. However, over the past decade progress in understanding the differentiation pathways and the development of differentiation-inducing agents might shed new light on the differentiation therapy for solid tumors.

The Role of ATF3 Expression and Calcineurin Inhibition in the Putative Cancer Stem Cell Fraction of Human Cutaneous Squamous Cell Carcinoma / 대한피부과학회지

BACKGROUND: A previous study reported that calcineurin inhibition by cyclosporin A (CsA) showed tumor-enhancing effects through the induction of the ATF3 transcription factor and the associated suppression of p53. The development and aggressiveness of cutaneous squamous cell carcinoma (SCC) may be determined by cancer stem cell populations, which have self-renewing potential. OBJECTIVE: To determine the role of ATF3 and calcineurin inhibition in the proliferation of SCC and evaluate the existence of putative SCC stem cells. METHODS: We performed real-time PCR, fluorescence activated cell sorting, and clonogenicity assays in SCC13 cells under conditions of calcineurin inhibition by CsA or ATF3 and p53 overexpression. The relationships amongst calcineurin inhibition, p53, and ATF3 were demonstrated by western blot analysis and transient transfection assays in SCC13 cells. RESULTS: In putative stem cell populations of SCC13 cells enriched in self-renewal potential, p53 expression was lower than that in differentiated SCC13 cells. CsA treatment or ATF3 overexpression caused an expansion of stem cell populations. Additionally, p53 overexpression inhibited cellular proliferation and reduced clonogenicity in SCC13 cells. CsA treatment led to a decrease in p53 expression and an increase in ATF3 in SCC13 cells on western blots. SCC13 cells with CsA and small interfering RNA against ATF3 demonstrated lower cell viability than SCC13 cells with CsA only and SCC13 cells with CsA and small interfering control RNA after 14 days. CONCLUSION: Putative cancer stem cell populations and differentiated cell populations in SCCs are positively regulated by ATF3 and p53, respectively.

Radiobiological characteristics of cancer stem cells from esophageal cancer cell lines.

AIM: To study the cancer stem cell population in esophageal cancer cell lines KYSE-150 and TE-1 and identify whether the resulting stem-like spheroid cells display cancer stem cells and radiation resistance characteristics. METHODS: A serum-free medium (SFM) suspension was used to culture esophageal cancer stem cell lines and enrich the esophageal stem-like spheres. A reverse transcription polymerase chain reaction assay was used to detect stem cell gene expression in the spheroid cells. Radiosensitivity of stem-like spheres and parental cells were evaluated by clonogenic assays. Furthermore, different cells after different doses of irradiation were tested to evaluate the change in sphere formation, cell cycle and CD44(+)CD271(+) expression of tumor stem-like spheroid cells using flow cytometry before and after irradiation. RESULTS: The cells were observed to generate an increased number of spheres in SFM with increasing cell passage. Radiation increased the rate of generation of stem-like spheres in both types of cells. The average survival fraction (SF2) of the cultured KYSE-150 compared with TE-1 stem-like spheres after 2 Gy of radiation was 0.81 ± 0.03 vs 0.87 ± 0.01 (P < 0.05), while the average SF2 of KYSE-150 compared with TE-1 parental cells was 0.69 ± 0.04 vs 0.80 ± 0.03, P < 0.05. In the esophageal parental cells, irradiation dose-dependently induced G2 arrest. Stem-like esophageal spheres were resistant to irradiation-induced G2 arrest without significant changes in the percentage population of irradiated stem-like cells. Under irradiation at 0, 4, and 8 Gy, the CD44(+)CD271(+) cell percentage for KYSE150 parental cells was 1.08% ± 0.03% vs 1.29% ± 0.07% vs 1.11% ± 0.09%, respectively; the CD44(+)CD271(+) cell percentage for TE1 parental cells was 1.16% ± 0.11% vs 0.97% ± 0.08% vs 1.45% ± 0.35%, respectively. The differences were not statistically significant. Under irradiation at 0, 4, and 8 Gy, the CD44(+)CD271(+) cell percentage for KYSE-150 stem-like spheres was 35.83% ± 1.23% vs 44.9% ± 1.67% vs 57.77% ± 1.88%, respectively; the CD44(+)CD271(+) cell percentage for TE1 stem-like spheres was 16.07% ± 0.91% vs 22.67% ± 1.12%, 16.07% ± 0.91% vs 33.27% ± 1.07%, respectively. The 4 and 8 Gy irradiated KYSE-150 and TE-1 stem-like spheres were compared with the 0 Gy irradiated group, and the differences were statistically significant (P < 0.05). CONCLUSION: The KYSE-150 and TE-1 stem-like spheres are more radioresistant than their parental cells which may suggest that cancer stem cells are related to radioresistance.

Gene signatures distinguish stage-specific prostate cancer stem cells isolated from transgenic adenocarcinoma of the mouse prostate lesions and predict the malignancy of human tumors.

The relevant social and economic impact of prostate adenocarcinoma, one of the leading causes of death in men, urges critical improvements in knowledge of the pathogenesis and cure of this disease. These can also be achieved by implementing in vitro and in vivo preclinical models by taking advantage of prostate cancer stem cells (PCSCs). The best-characterized mouse model of prostate cancer is the transgenic adenocarcinoma of the mouse prostate (TRAMP) model. TRAMP mice develop a progressive lesion called prostatic intraepithelial neoplasia that evolves into adenocarcinoma (AD) between 24 and 30 weeks of age. ADs often metastasize to lymph nodes, lung, bones, and kidneys. Eventually, approximately 5% of the mice develop an androgen-independent neuroendocrine adenocarcinoma. Here we report the establishment of long-term self-renewing PCSC lines from the different stages of TRAMP progression by application of the neurosphere assay. Stage-specific prostate cell lines were endowed with the critical features expected from malignant bona fide cancer stem cells, namely, self-renewal, multipotency, and tumorigenicity. Notably, transcriptome analysis of stage-specific PCSCs resulted in the generation of well-defined, meaningful gene signatures, which identify distinct stages of human tumor progression. As such, TRAMP-derived PCSCs represent a novel and valuable preclinical model for elucidating the pathogenetic mechanisms leading to prostate adenocarcinoma and for the identification of molecular mediators to be pursued as therapeutic targets.

The application and limitation of suspension culture in the study of neoplastic stem cells / 肿瘤

Neoplastic stem cells are generally recognized as a key factor in carcinogenesis and progression and metastasis of cancer. Recently, many studies have been focused on neoplastic stem cells. However, in consideration of lack of specific biological marker and unclear information about the allocation and morphology of neoplastic stem cells, it is difficult to separate them from tumor cells directly. The difference in function between neoplastic stem cells and the tumor cells was commonly used to distinguish them. Suspension culture is one of the most widely used methods to identify, enrich and purify neoplastic stem cells. It can conveniently demonstrate the capabilities of self-renewal and proliferation at the single-cell level. However, the neoplastic stem cells harvested from suspension culture are different from the original neoplastic stem cells, and not all of the cells sharing the features of neoplastic stem cells can survive in the suspension culture. Thus, the limitation of application of suspension culture in the study of neoplastic stem cells should be emphasized, and which is reviewed in this paper. Copyright © 2012 by TUMOR.