• BMB Reports
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• 제30권6호
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• pp.415-420
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• 1997

Although $CD4^+$ T cell responses to protein-derived antigen have well been understood, the epitopes recognized by hapten-specific $CD4^+$ T cells have not been fully defined. In this study, we characterized the response of a T cell hybridoma (5Di0.1B8) which is specific for a hapten. N-hydroxysuccinimidyl-4-azidobenzoate (HSAB) restricted by MHC class II $I-A^d$. Using three different antigen presenting cells (APCs) expressing $I-A^d$, the role of class II MHC proteins in haptenic antigen presentation and subsequent activation of 5D10.1B8 has been examined. Activation of 5D10.1B8 T cells by HSAB analogs was also performed. Our results show that each APC activated T cells differentially and that interleukin-2 (IL-2) augmented antigen-presenting ability of all the APCs, suggesting that increased expression of class II MHC protein by IL-2 played an important role in HSAB presentation and T cell activation. Finally, early T cell receptor-dependent signals induced by HSAB or its analogs were examined by phosphotyrosine immunoblot analysis, and showed that tyrosine phosphorylation level of a 18-20 kD protein increased upon stimulation.

• IMMUNE NETWORK
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• 제22권1호
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• pp.6.1-6.19
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• 2022

Chimeric antigen receptor (CAR) T cells, which express a synthetic receptor engineered to target specific antigens, have demonstrated remarkable potential to treat haematological malignancies. However, their transition beyond haematological malignancy has so far been unsatisfactory. Here, we discuss recent challenges and improvements for CAR T cell therapy against solid tumors: Antigen heterogeneity which provides an effective escape mechanism against conventional mono-antigen-specific CAR T cells; and the immunosuppressive tumor microenvironment which provides physical and molecular barriers that respectively prevent T cell infiltration and drive T cell dysfunction and hypoproliferation. Further, we discuss the application of CAR T cells in infectious disease and autoimmunity.

• Clinical and Experimental Pediatrics
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• 제53권2호
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• pp.136-145
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• 2010

Natural killer T (NKT) cell is a special type of T lymphocytes that has both receptor of natural killer (NK) cell (NK1.1, CD161c) and T cell (TCR) and express a conserved or invariant T cell receptor called $V{\alpha}14J{\alpha}18$ in mice or Va24 in humans. Invariant NKT (iNKT) cell recognizes lipid antigen presented by CD1d molecules. Marine-sponge-derived glycolipid, ${\alpha}-galactosylceremide$ (${\alpha}-GalCer$), binds CD1d at the cell surface of antigen-presenting cells and is presented to iNKT cells. Within hours, iNKT cells become activated and start to secrete Interleukin-4 and $interferon-{\gamma}$. NKT cell prevents autoimmune diseases, such as type 1 diabetes, experimental allergic encephalomyelitis, systemic lupus erythematous, inflammatory colitis, and Graves' thyroiditis, by activation with ${\alpha}-GalCer$. In addition, NKT cell is associated with infectious diseases by mycobacteria, leshmania, and virus. Moreover NKT cell is associated with asthma, especially CD4+ iNKT cells. In this review, I will discuss the characteristics of NKT cell and the association with inflammatory diseases, especially asthma.

• Molecules and Cells
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• 제44권5호
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• pp.328-334
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• 2021

The advent of the major histocompatibility complex (MHC) multimer technology has led to a breakthrough in the quantification and analysis of antigen-specific T cells. In particular, this technology has dramatically advanced the measurement and analysis of CD8 T cells and is being applied more widely. In addition, the scope of application of MHC multimer technology is gradually expanding to other T cells such as CD4 T cells, natural killer T cells, and mucosal-associated invariant T cells. MHC multimer technology acts by complementing the T-cell receptor-MHC/peptide complex affinity, which is relatively low compared to antigen-antibody affinity, through a multivalent interaction. The application of MHC multimer technology has expanded to include various functions such as quantification and analysis of antigen-specific T cells, cell sorting, depletion, stimulation to replace antigen-presenting cells, and single-cell classification through DNA barcodes. This review aims to provide the latest knowledge of MHC multimer technology, which is constantly evolving, broaden understanding of this technology, and promote its widespread use.

• The Korean Journal of Physiology and Pharmacology
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• 제27권3호
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• pp.241-256
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• 2023

Although chimeric antigen receptor T cell (CAR-T) is a promising immunotherapy in hematological malignancies, there remain many obstacles to CART cell therapy for solid tumors. Identifying appropriate tumor-associated antigens (TAAs) is especially critical for success. Using a bioinformatics approach, we identified common potential TAAs for CAR-T cell immunotherapy in solid tumors. We used the GEO database as a training dataset to find differentially expressed genes (DEGs) and verified candidates using the TCGA database, obtaining seven common DEGs (HM13, SDC1, MST1R, HMMR, MIF, CD24, and PDIA4). Then, we used MERAV to analyze the expression of six genes in normal tissues to determine the ideal target genes. Finally, we analyzed tumor microenvironment factors. The results of major microenvironment factor analyses showed that MDSCs, CXCL1, CXCL12, CXCL5, CCL2, CCL5, TGF- β, CTLA-4, and IFN-γ were significantly overexpressed in breast cancer. The expression of MST1R was positively correlated with TGF- β, CTLA-4, and IFN-γ. In lung adenocarcinoma, MDSCs, Tregs, CXCL12, CXCL5, CCL2, PD-L1, CTLA-4, and IFN-γ were significantly overexpressed in tumor tissues. The expression of MST1R was positively correlated with TGF- β, CTLA-4, and IFN-γ. In bladder cancer, CXCL12, CCL2, and CXCL5 were significantly overexpressed in tumor tissues. MST1R expression was positively correlated with TGF- β. Our results demonstrate that MST1R has the potential as a new target antigen for treating breast cancer, lung adenocarcinoma, and bladder cancer and may be used as a progression indicator for bladder cancer.

• 한국식품영양과학회지
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• 제33권7호
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• pp.1085-1091
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• 2004

먼저 OVA항원에 대해 특이적으로 증식반응을 나타내는 T세포주를 수립하였고, 수림된 세포주는 세포 표면 단백질이 CD4$^{＋}$CD8$^{-}$이며 IL-2와 IFN-${\gamma}$를 분비하는 Type I에 속하는 보조 T세포(Thl)인 것을 확인하였다. 보중익기탕의 total 분획은 OVA항원에 대해 특이적으로 반응하는 Thl세포의 증식반응을 증가시키는 효과를 나타내지 않았으며 고농도에서 오히려 증식반응을 억제하였다. 그러나, 보중익기탕의 polysaccharide 분획은 전반적 인 농도에서 T세포의 증식반응을 유의하게 증가시키는 효과가 있는 것으로 나타났다. 보중익기탕의 polysaccharide 분획을 첨가하였을 때 T세포의 IL-2 분비량은 대조군보다 약간 적었지만, IFN-${\gamma}$ 분비량은 대조군보다 증가하였다. 그리고, 분비된 IL-2와 결합하는 T세포의 IL-3 수용체 발현양도 증가하는 것으로 나타났다. 또한, 항원제시세포의 MHC class II의 발현양도 증가시켰다. 이상의 결과로 보중익기탕의 polysaccharide분획은 T세포의 IL-2수용체 발현양을 증가시키고, 항원제시세포의 MHC classs II의 발현양을 증가시켜서 T세포의 증식반응을 증가시키는것으로 생각된다 그리고 보중익기탕이 생체 면역반응에 미치는 보다 정확한 효과를 평가하기 위해서는 직접 살아있는 실험동물에 투여하는 in vivo 실험이 필요하다.

• 대한약리학회지
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• 제23권1호
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• pp.45-49
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• 1987

Cytolytic T cell(CTL)에서는 표현되나 다른 세포에서는 표현되지 않는 유전자를 검색하여 최근 저자는 3종의 CTL 특이 cDNA를 cloning하였다. CTL 특이 cDNA의 기능을 규명하기 위하여 CTL L3 cell을 항원수용체를 통하여 혹은 interleukin 2(IL-2)로 자극하여 활성화시킨 후 RNA blot analysis로 각 cDNA clone의 상응전사체 표현양상을 관찰, CTL활성화과정과의 연관성을 실험하였다. 이중 2종의 cDNA상응전사체표현은 항원수용체자극에 의해 현저히 증가된 반면 IL-2는 전혀 영향을 미치지 않았으며 이 같은 전사체표현증가는 cyclosporin A 처리로 완전히 억제되었다. 이상의 결과는 항원수용체자극으로 활성화되는 유전자가 IL-2에 의해 활성화되는 유전자와는 상이함을 보여주는 것이며 또한 2종의 cDNA clone이 IL-2에 의해 활성화되지 않으나 항원수용체를 통하여 중개되며 cyclosporin A에 예민하게 반응하는 CTL활성화과정의 특정경로에 관여하는 것으로 사료된다.

• Biomolecules & Therapeutics
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• 제30권4호
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• pp.299-308
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• 2022

T cells are attractive targets for the development of immunotherapy to treat cancer due to their biological features, capacity of cytotoxicity, and antigen-specific binding of receptors. Novel strategies that can modulate T cell functions or receptor reactivity provide effective therapies, including checkpoint inhibitor, bispecific antibody, and adoptive transfer of T cells transduced with tumor antigen-specific receptors. T cell-based therapies have presented successful pre-clinical/clinical outcomes despite their common immune-related adverse effects. Ongoing studies will allow us to advance current T cell therapies and develop innovative personalized T cell therapies. This review summarizes immunotherapeutic approaches with a focus on T cells. Anti-cancer T cell therapies are also discussed regarding their biological perspectives, efficacy, toxicity, challenges, and opportunities.

• IMMUNE NETWORK
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• 제22권1호
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• pp.4.1-4.22
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• 2022

In the era of immunotherapeutic control of cancers, many advances in biotechnology, especially in Ab engineering, have provided multiple new candidates as therapeutic immuno-oncology modalities. Bispecific Abs (BsAbs) that recognize 2 different antigens in one molecule are promising drug candidates and have inspired an upsurge in research in both academia and the pharmaceutical industry. Among several BsAbs, T cell engaging BsAb (TCEB), a new class of therapeutic agents designed to simultaneously bind to T cells and tumor cells via tumor cell specific antigens in immunotherapy, is the most promising BsAb. Herein, we are providing an overview of the current status of the development of TCEBs. The diverse formats and characteristics of TCEBs, in addition to the functional mechanisms of BsAbs are discussed. Several aspects of a new TCEB-Blinatumomab-are reviewed, including the current clinical data, challenges of patient treatment, drawbacks regarding toxicities, and resistance of TCEB therapy. Development of the next generation of TCEBs is also discussed in addition to the comparison of TCEB with current chimeric antigen receptor-T therapy.

• International Journal of Control, Automation, and Systems
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• 제1권4호
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• pp.453-458
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• 2003

The anomaly-detection algorithm based on negative selection of T cells is representative model among self-recognition methods and it has been applied to computer immune systems in recent years. In immune systems, T cells are produced through both positive and negative selection. Positive selection is the process used to determine a MHC receptor that recognizes self-molecules. Negative selection is the process used to determine an antigen receptor that recognizes antigen, or the nonself cell. In this paper, we propose a novel self-recognition algorithm based on the positive selection of T cells. We indicate the effectiveness of the proposed algorithm by change-detection simulation of some infected data obtained from cell changes and string changes in the self-file. We also compare the self-recognition algorithm based on positive selection with the anomaly-detection algorithm.