Your search keyword '"Mineno, Junichi"' showing total 12 results

1. NY-ESO-1-specific redirected T cells with endogenous TCR knockdown mediate tumor response and cytokine release syndrome.

Author

Ishihara M, Kitano S, Kageyama S, Miyahara Y, Yamamoto N, Kato H, Mishima H, Hattori H, Funakoshi T, Kojima T, Sasada T, Sato E, Okamoto S, Tomura D, Nukaya I, Chono H, Mineno J, Kairi MF, Diem Hoang Nguyen P, Simoni Y, Nardin A, Newell E, Fehlings M, Ikeda H, Watanabe T, and Shiku H

Subjects

Antigens, Neoplasm, Cyclophosphamide, Cytokines metabolism, Humans, Membrane Proteins, Cytokine Release Syndrome therapy, Immunotherapy, Neoplasms immunology, Neoplasms therapy, Receptors, Antigen, T-Cell genetics, T-Lymphocytes immunology

Abstract

Background: Because of the shortage of ideal cell surface antigens, the development of T-cell receptor (TCR)-engineered T cells (TCR-T) that target intracellular antigens such as NY-ESO-1 is a promising approach for treating patients with solid tumors. However, endogenous TCRs in vector-transduced T cells have been suggested to impair cell-surface expression of transduced TCR while generating mispaired TCRs that can become self-reactive., Methods: We conducted a first-in-human phase I clinical trial with the TCR-transduced T-cell product (TBI-1301) in patients with NY-ESO-1-expressing solid tumors. In manufacturing TCR-T cells, we used a novel affinity-enhanced NY-ESO-1-specific TCR that was transduced by a retroviral vector that enables siRNA (small interfering RNA)-mediated silencing of endogenous TCR. The patients were divided into two cohorts. Cohort 1 was given a dose of 5×10 8 cells (whole cells including TCR-T cells) preconditioned with 1500 mg/m 2 cyclophosphamide. Cohort 2 was given 5× 10 9 cells preconditioned with 1500 mg/m 2 cyclophosphamide., Results: In vitro study showed that both the CD8 + and CD4 + T fractions of TCR-T cells exhibited cytotoxic effects against NY-ESO-1-expressing tumor cells. Three patients and six patients were allocated to cohort 1 and cohort 2, respectively. Three of the six patients who received 5×10 9 cells showed tumor response, while three patients developed early-onset cytokine release syndrome (CRS). One of the patients developed a grade 3 lung injury associated with the infiltration of the TCR-T cells. No siRNA-related adverse events other than CRS were observed. Cytokines including interleukin 6 I and monocyte chemotactic protein-1/chemokine (C-C motif) ligand (CCL2)increased in the sera of patients with CRS. In vitro analysis showed these cytokines were not secreted from the T cells infused. A significant fraction of the manufactured T cells in patients with CRS was found to express either CD244, CD39, or both at high levels., Conclusions: The trial showed that endogenous TCR-silenced and affinity-enhanced NY-ESO-1 TCR-T cells were safely administered except for grade 3 lung injury. The TCR-T cell infusion exhibited significant tumor response and early-onset CRS in patients with tumors that express NY-ESO-1 at high levels. The differentiation properties of the manufactured T cells may be prognostic for TCR-T-related CRS., Trial Registration Number: NCT02366546., Competing Interests: Competing interests: SO, DT, IN, HC, and JM are employees of Takara Bio. The Department of Immuno-Gene Therapy, Mie University Graduate School of Medicine, to which SKa, YM, TW, and HS belonged, was funded by Takara Bio. MFK, PDHN, YS, AN, EN, and MF are employees or consultants of ImmunoScape. MI received honoraria from Chugai, Eisai, MSD, Ono Pharmaceutical, Daiichi Sankyo, and Eli Lilly. As a potential conflict of interest, SKi and NY received research grants from Takara Bio., (© Author(s) (or their employer(s)) 2022. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2022

2. Phase I clinical trial of autologous NK cell therapy using novel expansion method in patients with advanced digestive cancer.

Author

Sakamoto N, Ishikawa T, Kokura S, Okayama T, Oka K, Ideno M, Sakai F, Kato A, Tanabe M, Enoki T, Mineno J, Naito Y, Itoh Y, and Yoshikawa T

Subjects

Aged, Female, Humans, Immunophenotyping, Killer Cells, Natural immunology, Male, Middle Aged, Gastrointestinal Neoplasms therapy, Immunotherapy, Killer Cells, Natural cytology

Abstract

Background: NK cells can destroy tumor cells without prior sensitization or immunization. Tumors often lose expression of MHC molecules and/or antigens. However, NK cells can lyse tumor cells in a non-MHC-restricted manner and independent of the expression of tumor-associated antigens. NK cells are therefore considered ideal for adoptive cancer immunotherapy; however the difficulty of obtaining large numbers of fully functional NK cells that are safe to administer deters its clinical use. This phase I clinical trial seeks to address this obstacle by first developing a novel system that expands large numbers of highly activated clinical grade NK cells, and second, determining if these cells are safe in a mono-treatment so they can be combined with other reagents in the next round of clinical trials., Methods: Patients with unresectable, locally advanced and/or metastatic digestive cancer who did not succeed with standard therapy were enrolled. NK cells were expanded ex vivo by stimulating PBMCs with OK432, IL-2, and modified FN-CH296 induced T cells. Patients were administered autologous natural killer cell three times weekly via intravenous infusions in a dose-escalating manner (dose 0.5 × 10(9), 1.0 × 10(9), 2.0 × 10(9) cells/injection, three patients/one cohort)., Results: Total cell population had a median expansion of 586-fold (range 95-1102), with a significantly pure (90.96 %) NK cell population. Consequently, NK cells were expanded to approximately 4720-fold (range 1372-14,116) with cells being highly lytic in vitro and strongly expressing functional markers such as NKG2D and CD16. This NK cell therapy was very well tolerated with no severe adverse events. Although no clinical responses were observed, cytotoxicity of peripheral blood was elevated approximately twofolds up to 4 weeks post the last transfer., Conclusion: We successfully generated large numbers of activated NK cells from small quantities of blood without prior purification of the cells. We also determined that the expanded cells were safe to administer in a monotherapy and are suitable for the next round of clinical trials where their efficacy will be tested combined with other reagents., Trial Registration: UMIN UMIN000007527.

Published

2015

3. Aurora kinase A-specific T-cell receptor gene transfer redirects T lymphocytes to display effective antileukemia reactivity.

Author

Nagai K, Ochi T, Fujiwara H, An J, Shirakata T, Mineno J, Kuzushima K, Shiku H, Melenhorst JJ, Gostick E, Price DA, Ishii E, and Yasukawa M

Subjects

Animals, Aurora Kinase A, Aurora Kinases, Blotting, Western, Case-Control Studies, Feasibility Studies, Flow Cytometry, HLA-A2 Antigen immunology, Humans, Leukemia genetics, Leukemia immunology, Luciferases metabolism, Mice, Mice, Inbred NOD, Mice, SCID, RNA, Messenger genetics, Real-Time Polymerase Chain Reaction, Receptors, Interleukin-2 physiology, T-Cell Antigen Receptor Specificity, T-Lymphocytes, Cytotoxic immunology, Transduction, Genetic, Tumor Cells, Cultured, Genes, T-Cell Receptor genetics, Genetic Therapy, Immunotherapy, Leukemia therapy, Protein Serine-Threonine Kinases genetics, Protein Serine-Threonine Kinases immunology, T-Lymphocytes immunology

Abstract

Aurora kinase A (AURKA) is overexpressed in leukemias. Previously, we demonstrated that AURKA-specific CD8(+) T cells specifically and selectively lysed leukemia cells, indicating that AURKA is an excellent target for immunotherapy. In this study, we examined the feasibility of adoptive therapy using redirected T cells expressing an HLA-A*0201-restricted AURKA(207-215)-specific T-cell receptor (TCR). Retrovirally transduced T cells recognized relevant peptide-pulsed but not control target cells. Furthermore, TCR-redirected CD8(+) T cells lysed AURKA-overexpressing human leukemic cells in an HLA-A*0201-restricted manner, but did not kill HLA-A*0201(+) normal cells, including hematopoietic progenitors. In addition, AURKA(207-215)-specific TCR-transduced CD4(+) T cells displayed target-responsive Th1 cytokine production. Finally, AURKA(207-215)-specific TCR-transduced CD8(+) T cells displayed antileukemia efficacy in a xenograft mouse model. Collectively, these data demonstrate the feasibility of redirected T cell-based AURKA-specific immunotherapy for the treatment of human leukemia.

Published

2012

4. CAR-Modified Vγ9Vδ2 T Cells Propagated Using a Novel Bisphosphonate Prodrug for Allogeneic Adoptive Immunotherapy.

Author

Wang, Yizheng, Wang, Linan, Seo, Naohiro, Okumura, Satoshi, Hayashi, Tae, Akahori, Yasushi, Fujiwara, Hiroshi, Amaishi, Yasunori, Okamoto, Sachiko, Mineno, Junichi, Tanaka, Yoshimasa, Kato, Takuma, and Shiku, Hiroshi

Subjects

T cells, TUMOR antigens, IMMUNOTHERAPY

Abstract

The benefits of CAR-T therapy could be expanded to the treatment of solid tumors through the use of derived autologous αβ T cell, but clinical trials of CAR-T therapy for patients with solid tumors have so far been disappointing. CAR-T therapy also faces hurdles due to the time and cost intensive preparation of CAR-T cell products derived from patients as such CAR-T cells are often poor in quality and low in quantity. These inadequacies may be mitigated through the use of third-party donor derived CAR-T cell products which have a potent anti-tumor function but a constrained GVHD property. Vγ9Vδ2 TCR have been shown to exhibit potent antitumor activity but not alloreactivity. Therefore, in this study, CAR-T cells were prepared from Vγ9Vδ2 T (CAR-γδ T) cells which were expanded by using a novel prodrug PTA. CAR-γδ T cells suppressed tumor growth in an antigen specific manner but only during a limited time window. Provision of GITR co-stimulation enhanced anti-tumor function of CAR-γδ T cells. Our present results indicate that, while further optimization of CAR-γδ T cells is necessary, the present results demonstrate that Vγ9Vδ2 T cells are potential source of 'off-the-shelf' CAR-T cell products for successful allogeneic adoptive immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2023

5. Tumor Growth Suppression of Pancreatic Cancer Orthotopic Xenograft Model by CEA-Targeting CAR-T Cells.

Author

Sato, Osamu, Tsuchikawa, Takahiro, Kato, Takuma, Amaishi, Yasunori, Okamoto, Sachiko, Mineno, Junichi, Takeuchi, Yuta, Sasaki, Katsunori, Nakamura, Toru, Umemoto, Kazufumi, Suzuki, Tomohiro, Wang, Linan, Wang, Yizheng, Hatanaka, Kanako C., Mitsuhashi, Tomoko, Hatanaka, Yutaka, Shiku, Hiroshi, and Hirano, Satoshi

Subjects

PANCREATIC tumors, ADENOCARCINOMA, FLOW cytometry, BIOMARKERS, ANIMAL experimentation, CELL membranes, ANTINEOPLASTIC agents, CELL receptors, RETROSPECTIVE studies, DUCTAL carcinoma, GENE expression, IMMUNOASSAY, GENETIC engineering, TUMOR suppressor genes, T cells, CELL lines, IMMUNOTHERAPY, MICE, PHARMACODYNAMICS

Abstract

Simple Summary: Pancreatic ductal adenocarcinoma is one of the most lethal malignancies, and there are vast unmet medical needs. In this study, we hypothesized that chimeric antigen receptor engineered T cell (CAR-T) targeting carcinoembryonic antigen (CEA) would be effective in the treatment of pancreatic ductal adenocarcinoma. In vivo experiments in a more clinically similar environment were considered necessary; we examined the antitumor effects of adoptive anti-CEA-CAR-T, using orthotopic xenograft mouse models of pancreatic ductal adenocarcinoma. As result, the therapeutic effect of anti-CEA-CAR-T therapy was related to the CEA expression level. Furthermore, the retrospective analysis of pathological findings from pancreatic ductal adenocarcinoma patients showed a correlation between the intensity of CEA immunostaining and tumor heterogeneity. These findings show that anti-CEA-CAR-T therapy can be useful for pancreatic ductal adenocarcinoma; furthermore, the pathological findings of CEA can be clinically used as biomarkers to select cases for anti-CEA-CAR-T therapy. Chimeric antigen receptor engineered T cell (CAR-T) therapy has high therapeutic efficacy against blood cancers, but it has not shown satisfactory results in solid tumors. Therefore, we examined the therapeutic effect of CAR-T therapy targeting carcinoembryonic antigen (CEA) in pancreatic adenocarcinoma (PDAC). CEA expression levels on the cell membranes of various PDAC cell lines were evaluated using flow cytometry and the cells were divided into high, medium, and low expression groups. The relationship between CEA expression level and the antitumor effect of anti-CEA-CAR-T was evaluated using a functional assay for various PDAC cell lines; a significant correlation was observed between CEA expression level and the antitumor effect. We created orthotopic PDAC xenograft mouse models and injected with anti-CEA-CAR-T; only the cell line with high CEA expression exhibited a significant therapeutic effect. Thus, the therapeutic effect of CAR-T therapy was related to the target antigen expression level, and the further retrospective analysis of pathological findings from PDAC patients showed a correlation between the intensity of CEA immunostaining and tumor heterogeneity. Therefore, CEA expression levels in biopsies or surgical specimens can be clinically used as biomarkers to select PDAC patients for anti-CAR-T therapy. [ABSTRACT FROM AUTHOR]

Published

2023

6. A Functionally Superior Second-Generation Vector Expressing an Aurora Kinase-A-Specific T-Cell Receptor for Anti-Leukaemia Adoptive Immunotherapy.

Author

Casey, Nicholas Paul, Fujiwara, Hiroshi, Tanimoto, Kazushi, Okamoto, Sachiko, Mineno, Junichi, Kuzushima, Kiyotaka, Shiku, Hiroshi, and Yasukawa, Masaki

Subjects

LEUKEMIA treatment, LEUKEMIA genetics, AURORA kinases, T-cell receptor genes, IMMUNOTHERAPY, GENETIC transformation

Abstract

Aurora Kinase A is a cancer-associated protein normally involved in the regulation of mitosis. Being over-expressed in a range of cancers, it is a suitable target for cell-based immunotherapy. Gene transfer of T-cell receptor sequences cognisant of HLA-A*0201-restricted Aurora Kinase A antigen has previously been shown to transfer specific immunoreactivity against the target peptide in a Human Lymphocyte Antigen-restricted manner. While T cell receptor gene-transfer has great potential in overcoming the difficulties of isolating and expanding tumour-reactive lymphocytes from a patient’s own cells, one hurdle is potential mispairing and competition between exogenous and endogenous T cell receptor chains. We have used a retroviral vector design bearing a short-interfering RNA that downregulates endogenous T cell receptor chains, without affecting expression of the transgenic T cell receptor sequences. The T cell receptor expression cassette also includes a 2A self-cleaving peptide, resulting in equimolar expression of the T cell receptor alpha and beta chains, further enhancing formation of the desired T cell receptor. Via a simple, modular cloning method, we have cloned the alpha and beta chains of the anti-Aurora Kinase A-reactive T cell receptor into this ‘siTCR’ vector. We then compared the activity of this vector against the original, ‘conventional’ vector across a panel of assays. T cell receptors expressed from the siTCR-vector retained the cytotoxic functionality of the original vector, with evidence of reduced off-target reactivity. The rate of expression of correctly-formed T cell receptors was superior using the siTCR design, and this was achieved at lower vector copy numbers. Maintaining T cell receptor efficacy with a reduced vector copy number reduces the risk of genotoxicity. The siTCR design also reduces the risk of mispairing and cross-reactivity, while increasing the functional titre. Such improvements in the safety of T cell receptor gene-transfer will be crucial for clinical applications of this technology. [ABSTRACT FROM AUTHOR]

Published

2016

7. Systemic CD8+ T Cell-Mediated Tumoricidal Effects by Intratumoral Treatment of Oncolytic Herpes Simplex Virus with the Agonistic Monoclonal Antibody for Murine Glucocorticoid-Induced Tumor Necrosis Factor Receptor.

Author

Ishihara, Mikiya, Seo, Naohiro, Mitsui, Jun, Muraoka, Daisuke, Tanaka, Maki, Mineno, Junichi, Ikeda, Hiroaki, and Shiku, Hiroshi

Subjects

CD8 antigen, T cells, TUMOR necrosis factor receptors, CANCER cells, HERPES simplex virus, MONOCLONAL antibodies, GLUCOCORTICOIDS, PHYSIOLOGY

Abstract

Oncolytic virotherapy combined with immunomodulators is a novel noninvasive strategy for cancer treatment. In this study, we examined the tumoricidal effects of oncolytic HF10, a naturally occurring mutant of herpes simplex virus type-1, combined with an agonistic DTA-1 monoclonal antibody specific for the glucocorticoid-induced tumor necrosis factor receptor. Two murine tumor models were used to evaluate the therapeutic efficacies of HF10 virotherapy combined with DTA-1. The kinetics and immunological mechanisms of DTA-1 in HF10 infection were examined using flow cytometry and immunohistochemistry. Intratumoral administration of HF10 in combination with DTA-1 at a low dose resulted in a more vigorous attenuation of growth of the untreated contralateral as well as the treated tumors than treatment with either HF10 or DTA-1 alone. An accumulation of CD8+ T cells, including tumor- and herpes simplex virus type-1-specific populations, and a decrease in the number of CD4+ Foxp3+ T regulatory cells were seen in both HF10- and DTA-1-treated tumors. Studies using Fc-digested DTA-1 and Fcγ receptor knockout mice demonstrated the direct participation of DTA-1 in regulatory T cell depletion by antibody-dependent cellular cytotoxicity primarily via macrophages. These results indicated the potential therapeutic efficacy of a glucocorticoid-induced tumor necrosis factor receptor-specific monoclonal antibody in oncolytic virotherapy at local tumor sites. [ABSTRACT FROM AUTHOR]

Published

2014

8. An Efficient Large-Scale Retroviral Transduction Method Involving Preloading the Vector into a RetroNectin-Coated Bag with Low-Temperature Shaking.

Author

Dodo, Katsuyuki, Chono, Hideto, Saito, Naoki, Tanaka, Yoshinori, Tahara, Kenichi, Nukaya, Ikuei, and Mineno, Junichi

Subjects

LOW temperatures, RETROVIRUS diseases, CELL lines, FIBRONECTINS, GENE therapy, T cell receptors, TISSUE engineering

Abstract

In retroviral vector-mediated gene transfer, transduction efficiency can be hampered by inhibitory molecules derived from the culture fluid of virus producer cell lines. To remove these inhibitory molecules to enable better gene transduction, we had previously developed a transduction method using a fibronectin fragment-coated vessel (i.e., the RetroNectin-bound virus transduction method). In the present study, we developed a method that combined RetroNectin-bound virus transduction with low-temperature shaking and applied this method in manufacturing autologous retroviral-engineered T cells for adoptive transfer gene therapy in a large-scale closed system. Retroviral vector was preloaded into a RetroNectin-coated bag and incubated at 4°C for 16 h on a reciprocating shaker at 50 rounds per minute. After the supernatant was removed, activated T cells were added to the bag. The bag transduction method has the advantage of increasing transduction efficiency, as simply flipping over the bag during gene transduction facilitates more efficient utilization of the retroviral vector adsorbed on the top and bottom surfaces of the bag. Finally, we performed validation runs of endoribonuclease MazF-modified CD4+ T cell manufacturing for HIV-1 gene therapy and T cell receptor-modified T cell manufacturing for MAGE-A4 antigen-expressing cancer gene therapy and achieved over 200-fold (≥1010) and 100-fold (≥5×109) expansion, respectively. In conclusion, we demonstrated that the large-scale closed transduction system is highly efficient for retroviral vector-based T cell manufacturing for adoptive transfer gene therapy, and this technology is expected to be amenable to automation and improve current clinical gene therapy protocols. [ABSTRACT FROM AUTHOR]

Published

2014

9. Phase I Clinical Trial of Fibronectin CH296-Stimulated T Cell Therapy in Patients with Advanced Cancer.

Author

Ishikawa, Takeshi, Kokura, Satoshi, Enoki, Tatsuji, Sakamoto, Naoyuki, Okayama, Tetsuya, Ideno, Mitsuko, Mineno, Junichi, Uno, Kazuko, Yoshida, Naohisa, Kamada, Kazuhiro, Katada, Kazuhiro, Uchiyama, Kazuhiko, Handa, Osamu, Takagi, Tomohisa, Konishi, Hideyuki, Yagi, Nobuaki, Naito, Yuji, Itoh, Yoshito, and Yoshikawa, Toshikazu

Subjects

CLINICAL trials, FIBRONECTINS, CELLULAR therapy, CANCER patients, T cell differentiation, CELL culture, GENETIC transformation

Abstract

Background: Previous studies have demonstrated that less-differentiated T cells are ideal for adoptive T cell transfer therapy (ACT) and that fibronectin CH296 (FN-CH296) together with anti-CD3 resulted in cultured cells that contain higher amounts of less-differentiated T cells. In this phase I clinical trial, we build on these prior results by assessing the safety and efficacy of FN-CH296 stimulated T cell therapy in patients with advanced cancer. Methods: Patients underwent fibronectin CH296-stimulated T cell therapy up to six times every two weeks and the safety and antitumor activity of the ACT were assessed. In order to determine immune function, whole blood cytokine levels and the number of peripheral regulatory T cells were analyzed prior to ACT and during the follow up. Results: Transferred cells contained numerous less-differentiated T cells greatly represented by CD27+CD45RA+ or CD28+CD45RA+ cell, which accounted for approximately 65% and 70% of the total, respectively. No ACT related severe or unexpected toxicities were observed. The response rate among patients was 22.2% and the disease control rate was 66.7%. Conclusions: The results obtained in this phase I trial, indicate that FN-CH296 stimulated T cell therapy was very well tolerated with a level of efficacy that is quite promising. We also surmise that expanding T cell using CH296 is a method that can be applied to other T- cell-based therapies. Trial Registration: UMIN UMIN000001835 [ABSTRACT FROM AUTHOR]

Published

2014

10. Co-Introduced Functional CCR2 Potentiates In Vivo Anti-Lung Cancer Functionality Mediated by T Cells Double Gene-Modified to Express WT1-Specific T-Cell Receptor.

Author

Asai, Hiroaki, Fujiwara, Hiroshi, An, Jun, Ochi, Toshiki, Miyazaki, Yukihiro, Nagai, Kozo, Okamoto, Sachiko, Mineno, Junichi, Kuzushima, Kiyotaka, Shiku, Hiroshi, Inoue, Hirofumi, and Yasukawa, Masaki

Subjects

ANTINEOPLASTIC agents, T cell receptors, CHEMOKINES, CANCER immunotherapy, LUNG cancer, GENE expression, LUCIFERASES, EPITOPES

Abstract

Background and Purpose: Although gene-modification of T cells to express tumor-related antigen-specific T-cell receptor (TCR) or chimeric antigen receptor (CAR) has clinically proved promise, there still remains room to improve the clinical efficacy of re-directed T-cell based antitumor adoptive therapy. In order to achieve more objective clinical responses using ex vivo-expanded tumor-responsive T cells, the infused T cells need to show adequate localized infiltration into the tumor. Methodology/Principal Findings: Human lung cancer cells variously express a tumor antigen, Wilms' Tumor gene product 1 (WT1), and an inflammatory chemokine, CCL2. However, CCR2, the relevant receptor for CCL2, is rarely expressed on activated T-lymphocytes. A HLA-A2402+ human lung cancer cell line, LK79, which expresses high amounts of both CCL2 and WT1 mRNA, was employed as a target. Normal CD8+ T cells were retrovirally gene-modified to express both CCR2 and HLA-A*2402-restricted and WT1235–243 nonapeptide-specific TCR as an effector. Anti-tumor functionality mediated by these effector cells against LK79 cells was assessed both in vitro and in vivo. Finally the impact of CCL2 on WT1 epitope-responsive TCR signaling mediated by the effector cells was studied. Introduced CCR2 was functionally validated using gene-modified Jurkat cells and human CD3+ T cells both in vitro and in vivo. Double gene-modified CD3+ T cells successfully demonstrated both CCL2-tropic tumor trafficking and cytocidal reactivity against LK79 cells in vitro and in vivo. CCL2 augmented the WT1 epitope-responsive TCR signaling shown by relevant luciferase production in double gene-modified Jurkat/MA cells to express luciferase and WT1-specific TCR, and CCL2 also dose-dependently augmented WT1 epitope-responsive IFN-γ production and CD107a expression mediated by these double gene-modifiedCD3+ T cells. Conclusion/Significance: Introduction of the CCL2/CCR2 axis successfully potentiated in vivo anti-lung cancer reactivity mediated by CD8+ T cells double gene-modified to express WT1-specific TCR and CCR2 not only via CCL2-tropic tumor trafficking, but also CCL2-enhanced WT1-responsiveness. [ABSTRACT FROM AUTHOR]

Published

2013

11. Novel adoptive T-cell immunotherapy using a WT1-specific TCR vector encoding silencers for endogenous TCRs shows marked antileukemia reactivity and safety.

Author

Ochi, Toshiki, Fujiwara, Hiroshi, Okamoto, Sachiko, An, Jun, Nagai, Kozo, Shirakata, Toshiaki, Mineno, Junichi, Kuzushima, Kiyotaka, Shiku, Hiroshi, and Yasukawa, Masaki

Subjects

*INTERLEUKIN-5, *T-cell receptor genes, *RETROVIRUS diseases, *GENE therapy, *TUMOR treatment, *IMMUNOTHERAPY, *HEMATOPOIESIS, *LEUKEMIA treatment

Abstract

Adoptive T-cell therapy for malignancies using redirected T cells genetically engineered by tumor antigen-specific T-cell receptor (TCR) gene transfer is associated with mispairing between introduced and endogenous TCR chains with unknown specificity. Therefore, deterioration of antitumor reactivity and serious autoimmune reactivity are major concerns. To address this problem, we have recently established a novel retroviral vector system encoding siRNAs for endogenous TCR genes (siTCR vector). In this study, to test the clinical application of siTCR gene therapy for human leukemia, we examined in detail the efficacy and safety of WT1-siTCR-transduced T cells. Compared with conventional WT1-TCR (WT1-coTCR) gene-transduced T cells, these cells showed significant enhancement of antileukemia reactivity resulting from stronger expression of the introduced WT1-specific TCR with inhibition of endogenous TCRs. Notably, WT1-siTCR gene-transduced T cells were remarkably expandable after repetitive stimulation with WT1 peptide in vitro, without any deterioration of antigen specificity. WT1-siTCR gene-transduced T cells from leukemia patients successfully lysed autologous leukemia cells, but not normal hematopoietic progenitor cells. In a mouse xenograft model, adoptively transferred WT1-siTCR gene-transduced T cells exerted distinct antileukemia efficacy but did not inhibit human hematopoiesis. Our results suggest that gene-immunotherapy for leukemia using this WT1-siTCR system holds considerable promise. [ABSTRACT FROM AUTHOR]

Published

2011

12. Manipulation of human early T lymphopoiesis by coculture on human bone marrow stromal cells: Potential utility for adoptive immunotherapy

Author

Liu, Bing, Ohishi, Kohshi, Orito, Yuki, Nakamori, Yoshiki, Nishikawa, Hiroyoshi, Ino, Kazuko, Suzuki, Kei, Matsumoto, Takeshi, Masuya, Masahiro, Hamada, Hirofumi, Mineno, Junichi, Ono, Ryoichi, Nosaka, Tetsuya, Shiku, Hiroshi, and Katayama, Naoyuki

Subjects

*T cell receptors, *MESENCHYMAL stem cells, *IMMUNOTHERAPY, *CELLULAR control mechanisms, *THROMBOPOIETIN, *INTERLEUKIN-3

Abstract

T cell precursors are an attractive target for adoptive immunotherapy. We examined the regulation of human early T lymphopoiesis by human bone marrow stromal cells to explore in vitro manipulation of human T cell precursors in a human-only coculture system. The generation of CD7+CD56−cyCD3− proT cells from human hematopoietic progenitors on telomerized human bone marrow stromal cells was enhanced by stem cell factor, flt3 ligand, and thrombopoietin, but these stimulatory effects were suppressed by interleukin 3. Expression of Notch ligands Delta-1 and -4 on stromal cells additively promoted T cell differentiation into the CD7+cyCD3+ pre–T cell stage, while cell growth was strongly inhibited. By combining these coculture systems, we found that initial coculture with telomerized stromal cells in the presence of stem cell factor, flt3 ligand, and thrombopoietin, followed by coculture on Delta-1– and -4–coexpressing stromal cells led to a higher percentage and number of pre–T cells. Adoptive immunotherapy using peripheral blood T cells transduced with a tumor antigen-specific T cell receptor (TCR) is a promising strategy but has several limitations, such as the risk of forming a chimeric TCR with the endogenous TCR. We demonstrated that incubation of TCR-transduced hematopoietic progenitors with the combination of coculture systems gave rise to CD7+TCR+CD3+CD1a− T cell precursors that rapidly proliferated and differentiated under the culture condition to induce mature T cell differentiation. These data show the regulatory mechanism of early T lymphopoiesis on human stromal cells and the potential utility of engineered human stromal cells to manipulate early T cell development for clinical application. [ABSTRACT FROM AUTHOR]

Published

2013