MAGE-A4, NY-ESO-1 and SAGE mRNA expression rates and co-expression relationships in solid tumours

Abstract Background: Cancer testis (CT) antigens are promising targets for cancer immunotherapies such as cancer vaccines and genetically modified adoptive T cell therapy. In this study, we evaluated the expression of three CT antigens, melanoma-associated antigen A4 (MAGE-A4), New York oesophageal squamous cell carcinoma 1 (NY-ESO-1) and sarcoma antigen gene (SAGE). Methods: MAGE-A4, NY-ESO-1 and/or SAGE antigen expression in tumour samples was evaluated by quantitative real-time polymerase chain reaction (qRT-PCR). Informed consent was obtained from individuals prior to study enrolment. Results: In total, 585 samples in 21 tumour types were evaluated between June 2009 and March 2018. The positive expression rates of these CT antigens were as follows: MAGE-A4, 34.6% (range, 30.7-38.7); NY-ESO-1, 21.0% (range, 17.2-25.1); and SAGE, 21.8% (range, 18.5-25.4). The MAGE-A4 antigen was expressed in 54.9% of oesophageal cancers, 37.5% of head and neck cancers, 35.0% of gastric cancers and 34.2% of ovarian cancers; the NY-ESO-1 antigen was expressed in 28.6% of lung cancers, 25.3% of oesophageal cancers and 22.6% of ovarian cancers; and the SAGE antigen was expressed in 35.3% of prostate cancers, 32.9% of oesophageal cancers and 26.3% of ovarian cancers. The most common tumour type in this study was oesophageal cancer. MAGE-A4, NY-ESO-1 and SAGE antigen expression were assessed in 214 oesophageal cancer samples, among which 24 (11.2%) were triple-positive, 58 (27.1%) were positive for any two, 59 (27.6%) were positive for any one, and 73 (34.1%) were triple negative. Conclusions: Oesophageal cancer exhibited a relatively high rate of CT antigen mRNA expression positivity.

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MAGE-A4, NY-ESO-1 and SAGE expression rates and co-expression relationships in solid tumours

10.21203/rs.3.rs-16368/v1 ◽

2020 ◽

Author(s):

Mikiya Ishihara ◽

Shinichi Kageyama ◽

Yoshihiro Miyahara ◽

Takeshi Ishikawa ◽

Shugo Ueda ◽

...

Keyword(s):

New York ◽

Oesophageal Cancer ◽

Antigen Expression ◽

Immune Monitoring ◽

High Rate ◽

Adoptive T Cell Therapy ◽

T Cell Therapy ◽

Ovarian Cancers ◽

Ct Antigen ◽

Ct Antigens

Abstract Background Cancer testis (CT) antigens are promising targets for cancer immunotherapies such as cancer vaccines and genetically modified adoptive T cell therapy. In this study, we evaluated the expression of three CT antigens, melanoma-associated antigen A4 (MAGE-A4), New York oesophageal squamous cell carcinoma 1 (NY-ESO-1) and sarcoma antigen gene (SAGE). Methods MAGE-A4, NY-ESO-1 and/or SAGE antigen expression in tumour samples was evaluated by quantitative real-time polymerase chain reaction (qRT-PCR). Informed consent was obtained from individuals prior to study enrolment. Results In total, 585 samples in 21 tumour types were evaluated between June 2009 and March 2018. The positive expression rates of these CT antigens were as follows: MAGE-A4, 34.6% (range, 30.7-38.7); NY-ESO-1, 21.0% (range, 17.2-25.1); and SAGE, 21.8% (range, 18.5-25.4). The MAGE-A4 antigen was expressed in 54.9% of oesophageal cancers, 37.5% of head and neck cancers, 35.0% of gastric cancers and 34.2% of ovarian cancers; the NY-ESO-1 antigen was expressed in 28.6% of lung cancers, 25.3% of oesophageal cancers and 22.6% of ovarian cancers; and the SAGE antigen was expressed in 35.3% of prostate cancers, 32.9% of oesophageal cancers and 26.3% of ovarian cancers. The most common tumour type was oesophageal cancer in this study. MAGE-A4, NY-ESO-1 and SAGE antigen expression were assessed in 214 oesophageal cancer samples, among which 24 (11.2%) were triple-positive, 58 (27.1%) were positive for any two, 59 (27.6%) were positive for any one, and 73 (34.1%) were triple-negative. Conclusions Oesophageal cancer exhibited a relatively high rate of CT antigen positivity. Our data indicate that oesophageal cancer is a promising candidate tumour for CT antigen-targeting immunotherapy and immune monitoring.

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Adoptive T Cell Therapy in Patients With Recurrent Ovarian Cancer

Case Medical Research ◽

10.31525/ct1-nct04072263 ◽

2019 ◽

Author(s):

Keyword(s):

Ovarian Cancer ◽

T Cell ◽

Cell Therapy ◽

Recurrent Ovarian Cancer ◽

Adoptive T Cell Therapy ◽

T Cell Therapy

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Enhanced Sensitivity of Lymphoid Cells to Ethanol ADH Acetaldehyde Toxicity; Implications for GDEPT and Adoptive T Cell Therapy

Current Pharmacogenomics and Personalized Medicine ◽

10.2174/1875692116666180703151538 ◽

2018 ◽

Vol 16 (2) ◽

pp. 118-123

Author(s):

Philip Savage ◽

Claire Horlock ◽

Bryony Stott ◽

Justin Stebbing

Keyword(s):

T Cell ◽

Cell Therapy ◽

Lymphoid Cells ◽

Adoptive T Cell Therapy ◽

T Cell Therapy ◽

Enhanced Sensitivity

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'Off-the-shelf’ allogeneic antigen-specific adoptive T-cell therapy for the treatment of multiple EBV-associated malignancies

Journal for ImmunoTherapy of Cancer ◽

10.1136/jitc-2020-001608 ◽

2021 ◽

Vol 9 (2) ◽

pp. e001608

Author(s):

Debottam Sinha ◽

Sriganesh Srihari ◽

Kirrliee Beckett ◽

Laetitia Le Texier ◽

Matthew Solomon ◽

...

Keyword(s):

T Cell ◽

Cell Therapy ◽

Adoptive T Cell Therapy ◽

Nuclear Antigen ◽

T Cell Therapy ◽

In Vivo Models ◽

Hla Alleles ◽

Cell Therapies ◽

Wide Range

BackgroundEpstein-Barr virus (EBV), an oncogenic human gammaherpesvirus, is associated with a wide range of human malignancies of epithelial and B-cell origin. Recent studies have demonstrated promising safety and clinical efficacy of allogeneic ‘off-the-shelf’ virus-specific T-cell therapies for post-transplant viral complications.MethodsTaking a clue from these studies, we developed a highly efficient EBV-specific T-cell expansion process using a replication-deficient AdE1-LMPpoly vector that specifically targets EBV-encoded nuclear antigen 1 (EBNA1) and latent membrane proteins 1 and 2 (LMP1 and LMP2), expressed in latency II malignancies.ResultsThese allogeneic EBV-specific T cells efficiently recognized human leukocyte antigen (HLA)-matched EBNA1-expressing and/or LMP1 and LMP2-expressing malignant cells and demonstrated therapeutic potential in a number of in vivo models, including EBV lymphomas that emerged spontaneously in humanized mice following EBV infection. Interestingly, we were able to override resistance to T-cell therapy in vivo using a ‘restriction-switching’ approach, through sequential infusion of two different allogeneic T-cell therapies restricted through different HLA alleles. Furthermore, we have shown that inhibition of the programmed cell death protein-1/programmed death-ligand 1 axis in combination with EBV-specific T-cell therapy significantly improved overall survival of tumor-bearing mice when compared with monotherapy.ConclusionThese findings suggest that restriction switching by sequential infusion of allogeneic T-cell therapies that target EBV through distinct HLA alleles may improve clinical response.

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A modular and controllable T cell therapy platform for acute myeloid leukemia

Leukemia ◽

10.1038/s41375-020-01109-w ◽

2021 ◽

Author(s):

Mohamed-Reda Benmebarek ◽

Bruno L. Cadilha ◽

Monika Herrmann ◽

Stefanie Lesch ◽

Saskia Schmitt ◽

...

Keyword(s):

T Cells ◽

Acute Myeloid Leukemia ◽

T Cell ◽

Cell Therapy ◽

Myeloid Leukemia ◽

Tumor Antigens ◽

Adoptive T Cell Therapy ◽

Single Chain ◽

T Cell Therapy ◽

Acute Myeloid

AbstractTargeted T cell therapy is highly effective in disease settings where tumor antigens are uniformly expressed on malignant cells and where off-tumor on-target-associated toxicity is manageable. Although acute myeloid leukemia (AML) has in principle been shown to be a T cell-sensitive disease by the graft-versus-leukemia activity of allogeneic stem cell transplantation, T cell therapy has so far failed in this setting. This is largely due to the lack of target structures both sufficiently selective and uniformly expressed on AML, causing unacceptable myeloid cell toxicity. To address this, we developed a modular and controllable MHC-unrestricted adoptive T cell therapy platform tailored to AML. This platform combines synthetic agonistic receptor (SAR) -transduced T cells with AML-targeting tandem single chain variable fragment (scFv) constructs. Construct exchange allows SAR T cells to be redirected toward alternative targets, a process enabled by the short half-life and controllability of these antibody fragments. Combining SAR-transduced T cells with the scFv constructs resulted in selective killing of CD33+ and CD123+ AML cell lines, as well as of patient-derived AML blasts. Durable responses and persistence of SAR-transduced T cells could also be demonstrated in AML xenograft models. Together these results warrant further translation of this novel platform for AML treatment.

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IMMU-31. QUANTITATIVE EVALUATION OF ROUTES OF ADMINISTRATION OF IMMUNOTHERAPEUTIC T CELLS TO ORTHOTOPIC GLIOMA

Neuro-Oncology ◽

10.1093/neuonc/noaa215.461 ◽

2020 ◽

Vol 22 (Supplement_2) ◽

pp. ii111-ii111

Author(s):

Lan Hoang-Minh ◽

Angelie Rivera-Rodriguez ◽

Fernanda Pohl-Guimarães ◽

Seth Currlin ◽

Christina Von Roemeling ◽

...

Keyword(s):

T Cells ◽

T Cell ◽

Tumor Growth ◽

Ex Vivo ◽

Adoptive T Cell Therapy ◽

Whole Body ◽

T Cell Therapy ◽

Clinical Responses

Abstract SIGNIFICANCE Adoptive T cell therapy (ACT) has emerged as the most effective treatment against advanced malignant melanoma, eliciting remarkable objective clinical responses in up to 75% of patients with refractory metastatic disease, including within the central nervous system. Immunologic surrogate endpoints correlating with treatment outcome have been identified in these patients, with clinical responses being dependent on the migration of transferred T cells to sites of tumor growth. OBJECTIVE We investigated the biodistribution of intravenously or intraventricularly administered T cells in a murine model of glioblastoma at whole body, organ, and cellular levels. METHODS gp100-specific T cells were isolated from the spleens of pmel DsRed transgenic C57BL/6 mice and injected intravenously or intraventricularly, after in vitro expansion and activation, in murine KR158B-Luc-gp100 glioma-bearing mice. To determine transferred T cell spatial distribution, the brain, lymph nodes, heart, lungs, spleen, liver, and kidneys of mice were processed for 3D imaging using light-sheet and multiphoton imaging. ACT T cell quantification in various organs was performed ex vivo using flow cytometry, 2D optical imaging (IVIS), and magnetic particle imaging (MPI) after ferucarbotran nanoparticle transfection of T cells. T cell biodistribution was also assessed in vivo using MPI. RESULTS Following T cell intravenous injection, the spleen, liver, and lungs accounted for more than 90% of transferred T cells; the proportion of DsRed T cells in the brains was found to be very low, hovering below 1%. In contrast, most ACT T cells persisted in the tumor-bearing brains following intraventricular injections. ACT T cells mostly concentrated at the periphery of tumor masses and in proximity to blood vessels. CONCLUSIONS The success of ACT immunotherapy for brain tumors requires optimization of delivery route, dosing regimen, and enhancement of tumor-specific lymphocyte trafficking and effector functions to achieve maximal penetration and persistence at sites of invasive tumor growth.

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