Project description:Intro: Spheroid culture especially on MCF-7 cell has been used as in vitro CSC model for anti-CSC drug discovery. Methods: Tumour spheroid of MCF-7 was generated and characterised for the biological features and CSCs characteristic comparing to the monolayer parental MCF-7 cells. Differential expression of miRNA between the spheroid and parental cells was evaluated using miRNA microarray expressions.

Project description:cancer spheroid has been widely used as in vitro model of cancer stem cells (CSCs), yet little is known about their phenotypic characteristics and microRNAs (miRNAs) expression profiles. The objectives of this research were to evaluate the phenotypic characteristics of MDA-MB-231 spheroid-enriched cells for their CSCs properties and also to determine their miRNAs expression profile. Similar to our previously published MCF-7 spheroid, MDA-MB-231 spheroid also showed typical CSCs characteristics namely self-renewability, expression of putative CSCs-related surface markers and enhancement of drug resistance. From the miRNA profile, miR-15b, miR-34a, miR-148a, miR-628 and miR-196b were shown to be involved in CSCs-associated signalling pathways in both models of spheroids which highlights the involvement of these miRNAs in maintaining the CSCs features. In addition, unique clusters of miRNAs namely miR-205, miR-181a and miR-204 were found in basal-like spheroid whereas miR-125, miR-760, miR-30c and miR-136 were identified in luminal-like spheroid. Our results highlight the roles of miRNAs as well as providing novel perspectives of the relevant pathways underlying spheroid-enriched CSCs in breast cancer. Keywords: Breast

Project description:Most studies of cancer stem cells (CSC) involve the inoculation of cells from human tumors into immunosuppressed mice, preventing an assessment on the immunologic interactions and effects of CSCs. In this study, the investigators examined the vaccination effects produced by CSC-enriched populations from histologically distinct murine tumors after their inoculation into different syngeneic immunocompetent hosts. Enriched CSCs were immunogenic and more effective as an antigen source than unselected tumor cells in inducing protective antitumor immunity.Immune sera from CSC-vaccinated hosts contained high levels of IgG which bound to CSCs, resulting in CSC lysis in the presence of complement.CTLs generated from peripheral blood mononuclear cells or splenocytes harvested from CSC-vaccinated hosts were capable of killing CSCs in vitro. Mechanistic investigations established that CSC-primed antibodies and T cells were capable of selective targeting CSCs and conferring anti-tumor immunity.

Project description:Although cancer stem cells (CSCs) are thought to be responsible for tumor recurrence and resistance to chemotherapy, CSC-related research and drug development have been hampered by the limited supply of patient-derived diverse CSCs. Here, we developed a functional polymer thin film (PTF) platform that promotes conversion of human cancer cell lines to highly tumorigenic spheroids without the use of biochemical or genetic manipulations. Culturing various human cancer cells on the specific PTF, poly(2,4,6,8-tetravinyl-2,4,6,8-tetramethyl cyclotetrasiloxane) (pV4D4), gave rise to numerous multicellular spheroids within 24 hours, with high efficiency and reproducibility. Cancer cells in the resulting spheroids showed an enormous increase in the expression of CSC-associated genes and acquired dramatically increased drug resistance compared with monolayer-cultured controls. These spheroids also showed greatly enhanced xenograft tumor-forming ability and metastasis capacity in nude mice. By enabling the generation of tumorigenic spheroids as a patient-derived CSC substitute, the surface platform described here will likely contribute to CSC-related basic research and drug development.

Project description:Cancer stem-like cells (CSCs) are considered as a tempting target due to their role in tumor progression. Although recent studies attempted to obtain and analyze patient-derived CSCs ex vivo, there are limitations in supplying diverse and large quantity of CSCs. Previously, functional polymer thin film (PTF) platform which induces cancer cells transformation into tumorigenic CSCs was invented. Here, we verified the functionality of polymer X, new PTF with a streamlined production process. Polymer X induced tumor spheroid formation and the spheroids showed increase in the expression of CSC-related genes. STAT3 phosphorylation was upregulated by fibronectin-integrin 5α-JAK2 axis and maintained by the cytosolic LMO2/LBD1 complex. In addition, STAT3 signaling was critical in spheroid formation on polymer X. By allowing the generation of CSCs from cancer cells, the PTF platform will enable to overcome the previous limitation of patient-derived CSC.

Project description:Triple negative breast cancer (TNBC) is an aggressive breast cancer subtype that promotes higher risk of metastasis and cancer reoccurrence, subsequently reduces survival rate of cancer patients. Cisplatin is one of the potential anticancer drugs for treating TNBC. However, occurrence of cisplatin resistance still remains as one of the challenges to fully eradicate TNBC. Since presence of cancer stem cells (CSCs) often known as one of the contributors of drug resistance, investigation has been conducted, suggesting sorted CSC-like subpopulation to be more resistant to cisplatin as compared to parental cells, alongside with higher self-renewability. On the other hand, plethora evidences showed the transmission of exosomal-miRNAs are capable of promoting drug resistance in breast cancers. In this study, we aim to elucidate the differential expression of exosomal-microRNAs profile and reveal the potential target genes in correlation to cisplatin resistance associated with CSC-like subpopulation by using TNBC cell line (MDA-MB-231). Utilizing next generation sequencing and Nanostring techniques, cisplatin-induced dysregulation of exosomal-miRNAs were evaluated in maximal for CSC-like subpopulation as compared to parental cells. Intriguingly, cisplatin induced a relatively oncogenic exosomal-miRNAs profile derived from treated CSC-like subpopulation as compared to treated parental cells, which may correlate to enhancement of drug resistance and maintenance of CSCs. Among the detected exosomal-miRNA profile in treated CSC-like subpopulation, unique clusters of miRNAs namely miR-221-3p, miR-196a-5p, miR-17-5p and miR-126-3p were predicted to target on six genes (ATXN1, LATS1, GSK3β, ITGA6, JAG1 and MYC), aligned with previous finding which demonstrated dysregulation of these genes in treated CSC-like subpopulation. Our results highlight the potential correlation of exosomal-miRNAs and their target genes as well as novel perspectives of the corresponding pathways that may be essential to contribute to the attenuated cytotoxicity of cisplatin in CSC-like subpopulation.

Project description:Triple negative breast cancer (TNBC) is an aggressive breast cancer subtype that promotes higher risk of metastasis and cancer reoccurrence, subsequently reduces survival rate of cancer patients. Cisplatin is one of the potential anticancer drugs for treating TNBC. However, occurrence of cisplatin resistance still remains as one of the challenges to fully eradicate TNBC. Since presence of cancer stem cells (CSCs) often known as one of the contributors of drug resistance, investigation has been conducted, suggesting sorted CSC-like subpopulation to be more resistant to cisplatin as compared to parental cells, alongside with higher self-renewability. On the other hand, plethora evidences showed the transmission of exosomal-miRNAs are capable of promoting drug resistance in breast cancers. In this study, we aim to elucidate the differential expression of exosomal-microRNAs profile and reveal the potential target genes in correlation to cisplatin resistance associated with CSC-like subpopulation by using TNBC cell line (MDA-MB-231). Utilizing next generation sequencing and Nanostring techniques, cisplatin-induced dysregulation of exosomal-miRNAs were evaluated in maximal for CSC-like subpopulation as compared to parental cells. Intriguingly, cisplatin induced a relatively oncogenic exosomal-miRNAs profile derived from treated CSC-like subpopulation as compared to treated parental cells, which may correlate to enhancement of drug resistance and maintenance of CSCs. Among the detected exosomal-miRNA profile in treated CSC-like subpopulation, unique clusters of miRNAs namely miR-221-3p, miR-196a-5p, miR-17-5p and miR-126-3p were predicted to target on six genes (ATXN1, LATS1, GSK3β, ITGA6, JAG1 and MYC), aligned with previous finding which demonstrated dysregulation of these genes in treated CSC-like subpopulation. Our results highlight the potential correlation of exosomal-miRNAs and their target genes as well as novel perspectives of the corresponding pathways that may be essential to contribute to the attenuated cytotoxicity of cisplatin in CSC-like subpopulation.

Project description:Triple negative breast cancer (TNBC) is an aggressive breast cancer subtype that promotes higher risk of metastasis and cancer reoccurrence, subsequently reduces survival rate of cancer patients. Cisplatin is one of the potential anticancer drugs for treating TNBC. However, occurrence of cisplatin resistance still remains as one of the challenges to fully eradicate TNBC. Since presence of cancer stem cells (CSCs) often known as one of the contributors of drug resistance, investigation has been conducted, suggesting sorted CSC-like subpopulation to be more resistant to cisplatin as compared to parental cells, alongside with higher self-renewability. On the other hand, plethora evidences showed the transmission of exosomal-miRNAs are capable of promoting drug resistance in breast cancers. In this study, we aim to elucidate the differential expression of exosomal-microRNAs profile and reveal the potential target genes in correlation to cisplatin resistance associated with CSC-like subpopulation by using TNBC cell line (MDA-MB-231). Utilizing next generation sequencing and Nanostring techniques, cisplatin-induced dysregulation of exosomal-miRNAs were evaluated in maximal for CSC-like subpopulation as compared to parental cells. Intriguingly, cisplatin induced a relatively oncogenic exosomal-miRNAs profile derived from treated CSC-like subpopulation as compared to treated parental cells, which may correlate to enhancement of drug resistance and maintenance of CSCs. Among the detected exosomal-miRNA profile in treated CSC-like subpopulation, unique clusters of miRNAs namely miR-221-3p, miR-196a-5p, miR-17-5p and miR-126-3p were predicted to target on six genes (ATXN1, LATS1, GSK3β, ITGA6, JAG1 and MYC), aligned with previous finding which demonstrated dysregulation of these genes in treated CSC-like subpopulation. Our results highlight the potential correlation of exosomal-miRNAs and their target genes as well as novel perspectives of the corresponding pathways that may be essential to contribute to the attenuated cytotoxicity of cisplatin in CSC-like subpopulation.

Project description:Cancer stem cells (CSCs) are considered to play a central role in the cancer progression, metastasis and the development of drug resistance. MicroRNAs (miRNAs) have important roles in regulating CSC properties and are considered to be potential therapeutic targets. Diverse aberrantly expressed miRNAs have been reported in ovarian cancer cells. However, there have been few reports about miRNAs that were associated with stemness and progression of ovarian cancer. In this study, we enriched ovarian CSCs by using sphere culture of two ovarian cancer cell lines Kuramochi and SKOV3, and screened crucial miRNAs associated with characteristics and maintenance of CSCs by using miRNA nanoString nCounter assay.

Project description:Current approaches to the preclinical investigation for novel cancer therapies rely heavily on the use of traditional cancer cell lines maintained in serum-containing conditions. The discrepancy between promising preclinical efficacy and clinical outcome of most novel anticancer agents emphasizes a need for developing predictive preclinical models that preserve the integrity of original patient tumors, including cancer stem cell (CSC) compartment. In this study, we isolate and characterize CSCs from a non-small cell lung cancer cell line, NCI-H1299, by selectively propagating the cells in a stem-cell culture condition. Isolated CSCs proliferated as nonadherent spheroids, displayed capacity to differentiate and self-renew and exhibited higher tumorigenic potential compared to the parental cells. The gene expression profiles of NCI-H1299 parental cells (serum-containing medium), CSCs (stem-cell medium), and xenograft tumor derived from both cell types were studied by Affymetrix array analysis