Sandra J. Yokota scite author profile

The tumor microenvironment of human non-small cell lung cancer (NSCLC) is composed largely of stromal cells, including fibroblasts, yet these cells have been the focus of few studies. In this study, we established stromal cell cultures from primary NSCLC through isolation of adherent cells. Characterization of these cells by flow cytometry demonstrated a population which expressed a human fibroblast-specific 112-kDa surface molecule, Thy1, α-smooth muscle actin, and fibroblast activation protein, but failed to express CD45 and CD11b, a phenotype consistent with that of an activated myofibroblast. A subset of the tumor-associated fibroblasts (TAF) was found to express B7H1 (PD-L1) and B7DC (PD-L2) constitutively, and this expression was up-regulated by IFN-γ. Production of cytokines and chemokines, including IFN-γ, monokine induced by IFN-γ, IFN-γ-inducible protein-10, RANTES, and TGF-β1 was also demonstrated in these cells. Together, these characteristics provide multiple opportunities for the TAF to influence cellular interactions within the tumor microenvironment. To evaluate the ability of TAF to modulate tumor-associated T cell (TAT) activation, we conducted coculture experiments between autologous TAF and TAT. In five of eight tumors, TAF elicited a contact-dependent enhancement of TAT activation, even in the presence of a TGF-β1-mediated suppressive effect. In the three other tumors, TAF had a net suppressive effect upon TAT activation, and, in one of these cases, blockade of B7H1 or B7DC was able to completely abrogate the TAF-mediated suppression. We conclude that TAF in human NSCLC are functionally and phenotypically heterogeneous and provide multiple complex regulatory signals that have the potential to enhance or suppress TAT function in the tumor microenvironment.

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Humanized Mouse Model of Ovarian Cancer Recapitulates Patient Solid Tumor Progression, Ascites Formation, and Metastasis

Bankert

et al. 2011

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Ovarian cancer is the most common cause of death from gynecological cancer. Understanding the biology of this disease, particularly how tumor-associated lymphocytes and fibroblasts contribute to the progression and metastasis of the tumor, has been impeded by the lack of a suitable tumor xenograft model. We report a simple and reproducible system in which the tumor and tumor stroma are successfully engrafted into NOD-scid IL2Rγnull (NSG) mice. This is achieved by injecting tumor cell aggregates derived from fresh ovarian tumor biopsy tissues (including tumor cells, and tumor-associated lymphocytes and fibroblasts) i.p. into NSG mice. Tumor progression in these mice closely parallels many of the events that are observed in ovarian cancer patients. Tumors establish in the omentum, ovaries, liver, spleen, uterus, and pancreas. Tumor growth is initially very slow and progressive within the peritoneal cavity with an ultimate development of tumor ascites, spontaneous metastasis to the lung, increasing serum and ascites levels of CA125, and the retention of tumor-associated human fibroblasts and lymphocytes that remain functional and responsive to cytokines for prolonged periods. With this model one will be able to determine how fibroblasts and lymphocytes within the tumor microenvironment may contribute to tumor growth and metastasis, and will make it possible to evaluate the efficacy of therapies that are designed to target these cells in the tumor stroma.

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Long-Term Engraftment and Expansion of Tumor-Derived Memory T Cells Following the Implantation of Non-Disrupted Pieces of Human Lung Tumor into NOD-scid IL2Rγnull Mice

Simpson-Abelson

Sonnenberg

Takita³

et al. 2008

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Non-disrupted pieces of primary human lung tumor implanted into NOD-scid IL2Rγnull mice consistently result in successful xenografts in which tissue architecture, including tumor-associated leukocytes, stromal fibroblasts, and tumor cells are preserved for prolonged periods with limited host-vs-graft interference. Human CD45+ tumor-associated leukocytes within the xenograft are predominantly CD3+ T cells with fewer CD138+ plasma cells. The effector memory T cells that had been shown to be quiescent in human lung tumor microenvironments can be activated in situ as determined by the production of human IFN-γ in response to exogenous IL-12. Plasma cells remain functional as evidenced by production of human Ig. Significant levels of human IFN-γ and Ig were detected in sera from xenograft-bearing mice for up to 9 wk postengraftment. Tumor-associated T cells were found to migrate from the microenvironment of the xenograft to the lung, liver, and primarily the spleen. At 8 wk postengraftment, a significant portion of cells isolated from the mouse spleens were found to be human CD45+ cells. The majority of CD45+ cells were CD3+ and expressed a phenotype consistent with an effector memory T cell, consisting of CD4+ or CD8+ T cells that were CD45RO+, CD44+, CD62L−, and CD25−. Following adoptive transfer into non-tumor bearing NOD-scid IL2Rγnull mice, these human T cells were found to expand in the spleen, produce IFN-γ, and maintain an effector memory phenotype. We conclude that the NOD-scid IL2Rγnull tumor xenograft model provides an opportunity to study tumor and tumor-stromal cell interactions in situ for prolonged periods.

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Human CD4+ Effector Memory T Cells Persisting in the Microenvironment of Lung Cancer Xenografts Are Activated by Local Delivery of IL-12 to Proliferate, Produce IFN-γ, and Eradicate Tumor Cells

Broderick

Yokota

Reineke

et al. 2005

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The implantation of small pieces of human primary lung tumor biopsy tissue into SCID mice results in a viable s.c. xenograft in which the tissue architecture, including tumor-associated leukocytes, tumor cells, and stromal cells, is preserved in a functional state. By monitoring changes in tumor volume, gene expression patterns, cell depletion analysis, and the use of function-blocking Abs, we previously established in this xenograft model that exogenous IL-12 mobilizes human tumor-associated leukocytes to kill tumor cells in situ by indirect mechanisms that are dependent upon IFN-γ. In this study immunohistochemistry and FACS characterize the early cellular events in the tumor microenvironment induced by IL-12. By 5 days post-IL-12 treatment, the constitutively present human CD45+ leukocytes have expanded and infiltrated into tumor-rich areas of the xenograft. Two weeks post-treatment, there is expansion of the human leukocytes and complete effacement of the tumor compared with tumor progression and gradual loss of most human leukocytes in control-treated xenografts. Immunohistochemical analyses reveal that the responding human leukocytes are primarily activated or memory T cells, with smaller populations of B cells, macrophages, plasma cells, and plasmacytoid dendritic cells capable of producing IFN-α. The predominant cell population was also characterized by FACS and was shown to have a phenotype consistent with a CD4+ effector memory T cell. We conclude that quiescent CD4+ effector memory T cells are present within the tumor microenvironment of human lung tumors and can be reactivated by the local and sustained release of IL-12 to proliferate and secrete IFN-γ, leading to tumor cell eradication.

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Sandra J. Yokota

Characterization of Human Lung Tumor-Associated Fibroblasts and Their Ability to Modulate the Activation of Tumor-Associated T Cells

Humanized Mouse Model of Ovarian Cancer Recapitulates Patient Solid Tumor Progression, Ascites Formation, and Metastasis

Long-Term Engraftment and Expansion of Tumor-Derived Memory T Cells Following the Implantation of Non-Disrupted Pieces of Human Lung Tumor into NOD-scid IL2Rγnull Mice

Human CD4+ Effector Memory T Cells Persisting in the Microenvironment of Lung Cancer Xenografts Are Activated by Local Delivery of IL-12 to Proliferate, Produce IFN-γ, and Eradicate Tumor Cells

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