SummaryMany tumors are hierarchically organized with a minority cell population that has stem-like properties and enhanced ability to initiate tumorigenesis and drive therapeutic relapse. These cancer stem cells (CSCs) are typically identified by complex combinations of cell-surface markers that differ among tumor types. Here, we developed a flexible lentiviral-based reporter system that allows direct visualization of CSCs based on functional properties. The reporter responds to the core stem cell transcription factors OCT4 and SOX2, with further selectivity and kinetic resolution coming from use of a proteasome-targeting degron. Cancer cells marked by this reporter have the expected properties of self-renewal, generation of heterogeneous offspring, high tumor- and metastasis-initiating activity, and resistance to chemotherapeutics. With this approach, the spatial distribution of CSCs can be assessed in settings that retain microenvironmental and structural cues, and CSC plasticity and response to therapeutics can be monitored in real time.
The role of myeloid derived suppressor cells (MDSCs) in promoting tumorigenesis is well-established, and significant effort is being made to further characterize surface markers on MDSCs both for better diagnosis and as potential targets for therapy. Here we show that the B cell receptor adaptor molecule CD79a is unexpectedly expressed on immature bone marrow myeloid cells, and is upregulated on MDSCs generated in multiple different mouse models of metastatic but not non-metastatic cancer. CD79a on MDSCs is upregulated and activated in response to soluble factors secreted by tumor cells. Activation of CD79a on mouse MDSCs, by crosslinking with a specific antibody, maintained their immature phenotype (CD11b+Gr1+), enhanced their migration, increased their suppressive effect on T cell proliferation, and increased secretion of pro-tumorigenic cytokines such as IL-6 and CCL22. Furthermore, crosslinking CD79a on myeloid cells activated signaling through Syk, BLNK, ERK and STAT3 phosphorylation. In vivo, CD79+ myeloid cells showed enhanced ability to promote primary tumor growth and metastasis. Finally we demonstrate that CD79a is upregulated on circulating myeloid cells from lung cancer patients, and that CD79a+ myeloid cells infiltrate human breast tumors. We propose that CD79a plays a functional role in the tumor promoting effects of myeloid cells, and may represent a novel target for cancer therapy.
Many tumors consist of a hierarchy of cells with different proliferative and developmental potentials. A small number of cancer stem cells (CSCs) give rise to a larger population of highly proliferative, committed progenitor cells, which may then undergo limited differentiation. Importantly CSCs are uniquely capable of initiating and sustaining tumorigenesis, and they have been implicated in driving disease recurrence after cancer therapy. In order to be able to assess stem cell behavior in real-time at a single cell rather than a population level, we have developed and validated a novel lentiviral-based reporter system for direct visualization, quantitation and isolation of cells with CSC properties. The construct consists of a tandemly-repeated composite SOX2-OCT4 response element (“SORE6”) driving expression of a destabilized green fluorescent protein reporter. Using the human MCF10CA1h breast cancer cell line, we have shown that SORE6-GFP+ cells within the cell population are relatively undifferentiated and enriched for stem cell markers. These cells can self-renew and regenerate SORE6-GFP- cells, show enhanced asymmetric division, and are enriched for tumorigenesis and resistance to chemotherapeutics in vivo. We and others have previously suggested that TGF-β can regulate the CSC population with stimulatory or inhibitory effects depending on model. In the MCF10Ca1h breast cancer model, which retains tumor suppressor responses to TGF-β, we hypothesized that endogenous TGF-β suppresses tumorigenesis by direct effects on the CSCs. Using our reporter, we show TGF-β reduces the size of the CSC population and the frequency of asymmetric self-renewing divisions in the MCF10Ca1h model. Although TGF-β had relatively little effect on invasion and migration of the bulk MCF10Ca1h population, it clearly inhibited migration and invasion of the CSCs, suggesting that biological responses to TGF-β can vary depending on the position of the cell in the differentiation hierarchy. Combining our stem cell reporter with a TGF-β pathway reporter, we show that CSCs have higher endogenous activation of the TGF-β pathway than do the bulk cells, and by time-lapse video microscopy we find that CSCs with active TGF-β signaling are relatively quiescent. Furthermore, neutralization of TGF-β in vivo, leads to an increased representation of CSCs in the MCF10Ca1h tumors. Thus our preliminary results suggest that in breast cancer models where TGF-β acts as a tumor suppressor, TGF-β signaling is preferentially activated in the CSC compartment and may keep a subpopulation of CSCs in a proliferatively quiescent and stationary state. Citation Format: Binwu Tang, Asaf Raviv, Dominic Esposito, Catherine Daniel, Kathleen C. Flanders, Yu-an Yang, Lalage M. Wakefield. Transforming Growth Factor-beta (TGF-β) directly regulates breast cancer stem cell dynamics in vitro and in vivo. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 2221. doi:10.1158/1538-7445.AM2015-2221
Many tumors consist of a hierarchy of cells with different proliferative and developmental potential. A small number of cancer stem cells (CSCs) give rise to a larger population of highly proliferative, committed progenitor cells, which may then undergo limited differentiation. Importantly, CSCs are uniquely capable of initiating and sustaining tumorigenesis, and they have been implicated in driving disease recurrence after cancer therapy. Thus understanding CSC biology will be critical to the development of more effective therapies. CSCs are most commonly identified by FACS analysis but the optimal marker combinations are very dependent on the tissue and specific cell-of-origin of the tumor, and they cannot be used to monitor the CSCs in situ, with all the microenvironmental cues intact. Such markers cannot readily be used for real-time assessment of stem cell behavior at a single cell rather than a population level. To address this problem, we have developed and validated a novel lentiviral-based reporter system for direct visualization, quantitation and isolation of the cells with CSC properties. The construct consists of a tandemly repeated composite Sox2-Oct4 response element (SORE6) driving expression of a destabilized green fluorescent protein reporter. The reporter responds to the presence of the core stem cell transcription factors Oct4 and Sox2, with further stem cell selectivity and kinetic resolution coming from the use of a proteosome-targeting degron on the fluorescent protein. Using the human MCF10CA1h breast cancer cell line, we have shown that SORE6-GFP+ cells within the cell population are undifferentiated and enriched for stem cell markers. These cells can self-renew and regenerate GFP- cells, show enhanced asymmetric division, and are enriched for tumorsphere formation in vitro. Most importantly the SORE6-GFP+ cells are enriched for tumor-initiating and metastasis-initiating ability in vivo and they are relatively resistant to chemotherapeutics both in vitro and in vivo. Thus by a number of criteria, the reporter is marking a cell population that is substantially enriched for CSCs. The reporter works in primary human breast cancer cultures and patient-derived xenografts in addition to established cell line models. Our novel imaging approach opens up the possibility of assessing the spatial distribution of CSCs and temporal changes in CSC properties in experimental settings that retain the complex microenvironmental and structural cues of the tumor bed. Citation Format: Binwu Tang, Asaf Raviv, Dominic Esposito, Catherine Daniel, Bao Tram Nghiem, Susan Garfield, Langston Lim, Poonam Mannan, Ana Robles, William Smith, Joshua Zimmerberg, Rea Ravin, Lalage Wakefield. A novel reporter system with potential for in situ assessment of tumor microenvironmental effects on cancer stem cells. [abstract]. In: Abstracts: AACR Special Conference on Cellular Heterogeneity in the Tumor Microenvironment; 2014 Feb 26-Mar 1; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2015;75(1 Suppl):Abstract nr B45. doi:10.1158/1538-7445.CHTME14-B45
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