Project description:The generation of highly-reactive T lymphocytes against tumor-associated antigens remains an obstacle for effective adoptive immunotherapy of cancer. Recently, we found that microRNA-181a (miR-181a) acts as an intrinsic modulator of T cell antigen sensitivity in a transgenic T cell line in vitro. This molecule is part of a growing family of evolutionarily selected small interfering RNA that control gene expression at the posttranscriptional level by targeting messenger RNA (mRNA) for degradation or translational repression. Here, we explored the use of miR-181a to improve anti-tumor T cell responsiveness against weakly immunogenic tumor-associated antigens. We found that genetic engineering of T lymphocytes with miR-181a dramatically augmented the function of poorly responsive human tumor-infiltrating lymphocytes and TCR-engineered peripheral blood lymphocytes, resulting in potent anti-tumor reactivity. Furthermore, in a mouse model, miR-181a increased the function of self/tumor-specific CD8+ T cells enabling effective tumor destruction in the absence of vaccination or exogenous cytokines that were otherwise essential requirements and thus represents a significant advance over previous approaches. Although miRNAs have been previously shown to play critical functional roles in the development and function of vertebrate immune systems and pathogenesis of cancer, this report comprises the first use of a miRNA gene as tool in the treatment of disease. Keywords: cellular modification design For the 6 mouse samples the Operon Array-Ready Oligo Set (AROS™) V 4.0 contains 35,852 longmer probes representing 25,000 genes and about 38,000 gene transcripts and also includes 380 controls platform was used and each sample was hybridized in duplicate. For the 6 human samples, the human cDNA microarray platform was used which consist of 17 k cDNA array included a combination from a RG_HsKG_031901 7 k clone set and 10,000 clones from the RG_Hs_seq_ver_070700 40 k clone set (Research Genetics, Huntsville, AL). The cDNA clones include 12,072 uniquely named genes, 875 duplicates of named genes.

Project description:The generation of highly-reactive T lymphocytes against tumor-associated antigens remains an obstacle for effective adoptive immunotherapy of cancer. Recently, we found that microRNA-181a (miR-181a) acts as an intrinsic modulator of T cell antigen sensitivity in a transgenic T cell line in vitro. This molecule is part of a growing family of evolutionarily selected small interfering RNA that control gene expression at the posttranscriptional level by targeting messenger RNA (mRNA) for degradation or translational repression. Here, we explored the use of miR-181a to improve anti-tumor T cell responsiveness against weakly immunogenic tumor-associated antigens. We found that genetic engineering of T lymphocytes with miR-181a dramatically augmented the function of poorly responsive human tumor-infiltrating lymphocytes and TCR-engineered peripheral blood lymphocytes, resulting in potent anti-tumor reactivity. Furthermore, in a mouse model, miR-181a increased the function of self/tumor-specific CD8+ T cells enabling effective tumor destruction in the absence of vaccination or exogenous cytokines that were otherwise essential requirements and thus represents a significant advance over previous approaches. Although miRNAs have been previously shown to play critical functional roles in the development and function of vertebrate immune systems and pathogenesis of cancer, this report comprises the first use of a miRNA gene as tool in the treatment of disease. Keywords: cellular modification design

Project description:IL-2 and IL-21 are closely related cytokines that might have arisen by gene duplication. Both cytokines promote the function of effector CD8+ T cells, but their distinct effects on antigen-driven differentiation of naïve CD8+ T cells into effector CD8+ T cells are not clearly understood. We found that antigen-induced expression of eomesodermin and maturation of naïve CD8+ T cells into granzyme B and CD44 expressing effector CD8+ T cells was enhanced by IL-2, but, unexpectedly, suppressed by IL-21. Furthermore, IL-21 repressed expression of IL-2Ra and inhibited IL-2-mediated acquisition of a cytolytic CD8+ T cell phenotype. Despite its inhibitory effects, IL-21 did not induce anergy, but instead potently enhanced the capacity of cells to mediate tumor regression upon adoptive transfer. In contrast, IL-2, surprisingly, impaired the subsequent anti-tumor function of transferred cells. Gene expression studies revealed a distinct IL-21-program that was characterized phenotypically by increased expression of L-selectin and functionally by enhanced anti-tumor immunity that was not reversed by secondary in vitro stimulation with antigen and IL-2. Thus, the efficacy of CD8+ T cells for adoptive immunotherapy can be influenced by opposing differentiation programs conferred by IL-2 and IL-21, a finding with important implications for the development of cellular cancer therapies. Two-condition experiment: Cytokine-exposed t-cells subsequentially restimulated without cytokine vs. control t-cells without cytokine subsquentially restimulated without cytokine. 3 independent experiments - 1 with experimental RNA labeled with Cy5, control with Cy3, and 2 with dyes-swapped Keywords: Cytokine exposure comparison Comparitive analysis of cytokine effects on lymphocyte gene expression. GSM265712.gpr (S89_1_IL2_0.gpr): Cy3 - control, Cy5 - experimental GSM265713.gpr (S90_1_IL15_0.gpr): Cy3 - control, Cy5 - experimental GSM265714.gpr (S91_1_IL21_0.gpr): Cy3 - control, Cy5 - experimental GSM265715.gpr (S27_2_0_IL2.gpr): Cy3 - experimental, Cy5 - control GSM265716.gpr (S29_2_0_IL15.gpr): Cy3 - experimental, Cy5 - control GSM265717.gpr (S30_2_0_IL21.gpr): Cy3 - experimental, Cy5 - control GSM265718.gpr (S31_3_0_IL2.gpr): Cy3 - experimental, Cy5 - control GSM265719.gpr (S33_3_0_IL15.gpr): Cy3 - experimental, Cy5 - control

Project description:Overexpression of miR-181a in AML blasts: DNA Microarray was performed to compare overall gene expression profiles of KG-1 Anti-miR-CT and U937 Anti-miR-CT cells compared respectively to KG-1 Anti-miR-181a and U937 Anti-miR-181a.

Project description:This series consists of samples taken from two groups of K562 cells(miR-181a transfected group and control group ) and harvested 48 hours later. We used Agilent human 1A oligo microarray identified the changes in gene expression profile of K562 cells after miR-181a transfection experiment. Further studies aimed to find target mRNA of miR-181a in mammalian cells and its biological function. Keywords = miR-181a Keywords = microarray Keywords = K562 Keywords: microRNA transfection analysis

Project description:microRNAs are small (22-24 nucleotide), non-coding RNA transcripts that play a role in RNA silencing and post transcriptional regulation of gene expression. They have been implicated to have profound roles in many cancers. The role of microRNAs in chondrosarcoma progression is not well understood. Our lab has identified miR-181a to be up-regulated in chondrosarcoma. miR-181a modulates CXCR4 signaling by targeting RGS-16, leading to increased levels of VEGF and MMP-1, major factors in tumor invasion. In an effort to identify other targets of miR-181a apart from RGS-16, we carried out a gene array to compare gene expression between untreated/control CS-1(chondrosarcoma cell line) cells and CS-1 cells transduced with a lenti virus expression construct with anti-miR-181a sequence.

Project description:We have identified a single miRNA, miR-181a, that can modulate TGF-β signaling to induce and maintain EMT, and effect further downstream events of tumour cell survival, altered response to chemotherapy, migration, invasion and dissemination in vivo. Our present study provides an understanding of how enhanced expression of miR-181a can confer malignant and invasive traits through the modulation of a canonical signaling pathway and a consequent maintenance of a mesenchymal state. Furthermore, inhibition of miR-181a led to a reversion of EMT and subsequent events through decreased TGF-β signaling. Our data confirmed Smad7 as a functional target through which TGF-β-mediated EMT occurs; re-expression of Smad7 lacking its 3'UTR was able to rescue miR-181a-mediated phenotypes, deeming Smad7 as a critical mediator of miR-181a-induced EMT. Other recent studies support the crucial role(s) that miRNAs play in mediating EMT and consequent aggressive disease traits. For example, the miR-106b-25 cluster has also been shown to target Smad7 and mediate TGF-β-induced EMT downstream to Six1 in breast cancer34. miR-9 directly targets E-cadherin and inhibition of miR-9 had led to an inhibition of metastasis35. Conversely, the miR-200 and -205 family was shown to target transcriptional repressors of E-cadherin, ZEB1 and SIP1, and re-expression of these miRNAs led to a mesenchymal-to-epithelial transition and prevented TGF-β -induced EMT36. A2780 ovarian cancer cell lines stably expressing either pBABE (control vector), p181a#1( clone 1 expressing miR-181a) or p181a#2( clone 2 expressing miR-181a)

Project description:Generation of highly proliferative rejuvenated cytotoxic T cell clones through pluripotency reprogramming for adoptive immunotherapy

Project description:Peripheral blood mononuclear cells (PBMC) were collected from ficoll gradients of whole blood and immediately processed for total RNA and stored at -80oC until use. Blood was from allergic patients at different timepoints pre or post immunotherapy (RIT). Gene expression was compared for the different timepoints. Blood samples were collected from allergic patients before or after rush immunotherapy (RIT), total RNA was prepared and gene expression assessed by Illumina. Samples were collected pre-rush or at 1 week, 7 weeks, 4 months (and for one patient 5 months) after beginning rush immunotherapy. Blood was taken at each timepoint prior to the patient receiving immunotherapy at each timepoint.

Project description:Adoptive immunotherapy has emerged as a powerful approach to cure cancer and chronic infections. Currently, the generation of a massive number of T cells that provide long-lasting immunity is challenged by exhaustion and differentiation-associated senescence, which inevitably arise during in vitro cloning and expansion. To circumvent these problems, several studies have proposed an induced pluripotent stem cell (iPSC)-mediated rejuvenation strategy to revitalize the exhausted/senescent T-cell clones. Because iPSC-derived cytotoxic T lymphocytes (iPSC-CTLs) generated via commonly used monolayer systems have unfavorable innate-like features such as aberrant natural killer (NK) activity and limited replication potential, we modified the redifferentiation culture to generate CD8ab+CD5+CCR7+CD45RA+CD56- adaptive iPSC-CTLs. The modified iPSC-CTLs exhibited early memory phenotype, including high replicative capacity and the ability to give rise to potent effector cells. In expansion culture with an optimized cytokine cocktail, iPSC-CTLs proliferated more than 10^15-fold in a feeder-free condition. Our redifferentiation and expansion package of early memory iPSC-CTLs could supply memory and effector T cells for both autologous and allogeneic immunotherapies.