scholarly journals Human Autologous In Vitro Models of Glioma Immunogene Therapy Using B7-2, GM-CSF, and IL12

2002 ◽  
Vol 29 (3) ◽  
pp. 267-275 ◽  
Author(s):  
Ian F. Parney ◽  
Maxine A. Farr-Jones ◽  
Kevin Kane ◽  
Lung-Ji Chang ◽  
Kenneth C. Petruk
Keyword(s):  
Tumor Cells ◽  
Peripheral Blood Mononuclear Cells ◽  
Peripheral Blood ◽  
Mononuclear Cells ◽  
Wild Type ◽  
Peripheral Blood Mononuclear ◽  
Gm Csf ◽  
Blood Mononuclear Cells ◽  
Immunogene Therapy ◽  
Tumor Cytotoxicity

Background:Cancer immunogene therapy is based on vaccination with radiated, autologous tumor cells transduced with immunostimulatory genes. To help determine an optimal glioma immunogene therapy strategy, we stimulated lymphocytes with autologous human glioma cells transduced with B7-2 (CD86), granulocyte-macrophage colony-stimulating factor (GM-CSF), and/or interleukin-12 (IL12).Methods:A human glioma-derived cell culture (Ed147.BT) was transduced with B7-2, GM-CSF, and/or IL12 using retroviral vectors. Autologous peripheral blood mononuclear cells (PBMC) were co-cultured with irradiated gene-transduced tumor alone or a combination of radiated wild type and gene-transduced cells. Peripheral blood mononuclear cells proliferation was determined by serial cell counts. Peripheral blood mononuclear cells phenotype was assessed by flow cytometry for CD4, CD8, and CD16. Anti-tumor cytotoxicity was determined by chromium-51 (51Cr) release assay.Results:Peripheral blood mononuclear cells cell numbers all decreased during primary stimulation but tumor cells expressing B7-2 or GM-CSF consistently caused secondary proliferation. Tumors expressing B7-2 and GM-CSF or B7-2, GM-CSF, and IL12 consistently increased PBMC CD8+ (cytotoxic T) and CD16+ (natural killer) percentages. Interestingly, anti-tumor cytotoxicity only exceeded that of PBMC stimulated with wild type tumor alone when peripheral blood mononuclear cells were stimulated with both wild type tumor and B7-2/GM-CSF- (but not IL12) transduced cells.Conclusion:PBMC proliferation and phenotype is altered as expected by exposure to immunostimulatory gene-transduced tumor. However, transduced tumor cells alone do not stimulate greater anti-tumor cytotoxicity than wild type tumor. Only B7-2/GM-CSF-transduced cells combined with wild type produced increased cytotoxicity. This may reflect selection of tumor subclones with limited antigenic spectra during retrovirus-mediated gene transfer.

IMMUNE CHARACTERIZATION OF PERIPHERAL BLOOD MONONUCLEAR CELLS OF THE DOGS RESTORED FROM INOCULATION OF CANINE TRANSMISSIBLE VENEREAL TUMOR CELLS

2014 ◽  
Vol 40 (04) ◽  
pp. 181-190
Author(s):  
Shiow-Chen Lin ◽  
Tien-Fu Chuang ◽  
Chen-Shi Lin ◽  
Dah-Sheng Lin ◽  
Albert Taiching Liao
Keyword(s):  
Tumor Cells ◽  
Peripheral Blood Mononuclear Cells ◽  
Peripheral Blood ◽  
Mononuclear Cells ◽  
Host Immune System ◽  
Peripheral Blood Mononuclear ◽  
Significant Difference ◽  
Blood Mononuclear Cells ◽  
Ifn Γ ◽  
Lymphocyte Phenotypes

Canine transmissible venereal tumor (CTVT) is a tumor which can be transmitted naturally through mucosa contact between dogs. When CTVT cells are experimentally inoculated on dogs, they will grow rapidly (Progressive/P phase) and then regress (Regressive/R phase) spontaneously. Therefore, it is a good model to investigate the interactions between tumor cells and host immune system. Previous studies have shown that CTVT cells cannot grow in the dogs restored from CTVT inoculation. To investigate the possible mechanism, this study characterized the CTVT-specific immune response of the peripheral blood mononuclear cells (PBMCs) which isolated from the blood of "naïve" or "CTVT-restored" dogs. The phenotypes (CD3, CD4, CD8, or CD21) of PBMCs were examined by flowcytometry. In response to CTVT stimulation, proliferation, IFN-γ secretion, and cytotoxicity of PBMCs were analyzed. Expression level of proinflammatory cytokines (TNF-α, IL-1β, IL-6, TGF-β), Th1 (IL-2, IFN-γ), and Th2 cytokines (IL-4, IL-10) and cytotoxic proteins (Granzyme B, Perforin) in PBMCs was also evaluated by real-time RT-PCR. The results indicated that there is no significant difference between two groups on lymphocyte phenotypes. Proliferation, IFN-γ secretion, and cytotoxicity of PBMCs between two groups showed no significant difference, except naïve PBMCs present higher proliferation after Con-A stimulation. Production of IL-1β and IL-6 in naïve PBMCs was higher than that in CTVT-restored PBMCs (p < 0.05). The production difference of IL-1β and IL-6 between two groups might be the reason why CTVT cannot be reinoculated on CTVT-restored dog. However, further investigations are necessary to explore the exact role of these cytokines in CTVT growth.

scholarly journals Immune Characterization Of Metastatic Colorectal Cancer Patients Post Reovirus Administration

2020 ◽  
Author(s):  
Ruwan Parakrama ◽  
Elisha Fogel ◽  
Carol Chandy ◽  
Titto Augustine ◽  
Matt Coffey ◽  
...  
Keyword(s):  
Colorectal Cancer ◽  
Flow Cytometry ◽  
Cancer Patients ◽  
Tumor Cells ◽  
Peripheral Blood Mononuclear Cells ◽  
Peripheral Blood ◽  
Mononuclear Cells ◽  
Sequencing Analysis ◽  
Peripheral Blood Mononuclear ◽  
Blood Mononuclear Cells

Abstract Background KRAS mutations are prevalent in 40-45% of patients with colorectal cancer (CRC) and targeting this gene has remained elusive. Viruses are well known immune sensitizing agents. The therapeutic efficacy of oncolytic reovirus in combination with chemotherapy is underway in a phase 1 study of metastatic CRC. This study evaluates the nature of immune response by determining the cytokine expression pattern in peripheral circulation along with the distribution of antigen presenting cells (APCs) and activated T lymphocytes. Further the study evaluates the alterations in exosomal and cellular microRNA levels along with the effect of reovirus on leukocyte transcriptome.Methods Reovirus was administered as a 60-minute intravenous infusion for 5 consecutive days every 28 days, at a tissue culture infective dose (TCID50) of 3x1010. Peripheral blood mononuclear cells (PBMC) were isolated from whole blood prior to reovirus administration and post-reovirus on days 2, 8, and 15. The expression profile of 25 cytokines in plasma was assessed (post PBMC isolation) on an EMD Millipore multiplex Luminex platform. Exosome and cellular levels of miR-29a-3p was determined in pre and post reovirus treated samples. Peripheral blood mononuclear cells were stained with fluorophore labelled antibodies against CD4, CD8, CD56, CD70, and CD123, fixed and evaluated by flow cytometry. The expression of granzyme B was determined on core biopsy of one patient. Finally, Clariom D Assay, was used to determine the expression of 847 immune-related genes when compared to pre reovirus treatment by RNA sequencing analysis. A change was considered if the expression level either doubled or halved and the significance was determined at a p value of 0.001. Results Cytokine assay indicated upregulation at day 8 for IL-12p40 (2.95; p=0.05); day 15 for GM-CSF (3.56; p=0.009), IFN-Ƴ (1.86; p=0.0004) and IL-12p70 (2.42; p=0.02). An overall reduction in IL-8, VEGF and RANTES/CCL5 was observed over the 15-day period. Statistically significant reductions were observed at Day 15 for IL-8 (0.457-fold, 53.3% reduction; p=0.03) and RANTES/CC5 (0.524-fold, 47.6% reduction; p=0.003). An overall increase in IL-6 was observed, with statistical significance at day 8 (1.98-fold; 98% increase, p=0.00007). APCs were stimulated within 48 hours and activated (CD8+ CD70+) T cells within 168 hours as determine by flow cytometry. Sustained reductions in exosomal and cellular levels of miR-29a-3p (a microRNA upregulated in CRC and associated with decreased expression of the tumor suppressor WWOX gene) was documented. Reovirus administration further resulted in increases in KRAS (33x) , IFNAR1 (20x), STAT3(5x), and TAP1 (4x) genes after 2 days; FGCR2A (23x) and CD244 (3x) after 8 days; KLRD1 (14x), TAP1 (2x) and CD244(2x) after 15 days. Reductions (>0.5x) were observed in VEGFA (2x) after 2 days; CXCR2 (2x), ITGAM (3x) after 15 days.Conclusions Reovirus has profound immunomodulatory properties that span the genomic, protein and immune cell distribution levels. This is the first study with reovirus in cancer patients that demonstrates these multi-layered effects, demonstrating how reovirus can function as an immune stimulant (augmenting the efficacy of immuno-chemo-therapeutic drugs), and an oncolytic agent. Reovirus thus functions bimodally as an oncolytic agent causing lysis of tumor cells, and facilitator of immune-mediated recognition and destruction of tumor cells.

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