A novel co-culture assay to assess anti-tumor CD8+ T cell cytotoxicity via luminescence and multicolor flow cytometry

The antigenic diversity of Orientia tsutsugamushi as well as the interstrain difference(s) associated with virulence in mice impose the necessity to dissect the host immune response. In this study we compared the host response in lethal and non-lethal murine models of O. tsutsugamushi infection using the two strains, Karp (New Guinea) and Woods (Australia). The models included the lethal model: Karp intraperitoneal (IP) challenge; and the nonlethal models: Karp intradermal (ID), Woods IP, and Woods ID challenges. We monitored bacterial trafficking to the liver, lung, spleen, kidney, heart, and blood, and seroconversion during the 21-day challenge. Bacterial trafficking to all organs was observed in both the lethal and nonlethal models of infection, with significant increases in average bacterial loads observed in the livers and hearts of the lethal model. Multicolor flow cytometry was utilized to analyze the CD4+ and CD8+ T cell populations and their intracellular production of the cytokines IFNγ, TNF, and IL2 (single, double, and triple combinations) associated with both the lethal and nonlethal murine models of infection. The lethal model was defined by a cytokine signature of double- (IFNγ-IL2) and triple-producing (IL2-TNF-IFNγ) CD4+ T-cell populations; no multifunctional signature was identified in the CD8+ T-cell populations associated with the lethal model. In the nonlethal model, the cytokine signature was predominated by CD4+ and CD8+ T-cell populations associated with single (IL2) and/or double (IL2-TNF) populations of producers. The cytokine signatures associated with our lethal model will become depletion targets in future experiments; those signatures associated with our nonlethal model are hypothesized to be related to the protective nature of the nonlethal challenges.

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Ganglioside Inhibition of CD8+T Cell Cytotoxicity: Interference with Lytic Granule Trafficking and Exocytosis

The Journal of Immunology ◽

10.4049/jimmunol.1201256 ◽

2012 ◽

Vol 189 (7) ◽

pp. 3521-3527 ◽

Cited By ~ 15

Author(s):

Hee Chul Lee ◽

Assefa Wondimu ◽

Yihui Liu ◽

Jennifer S. Y. Ma ◽

Saša Radoja ◽

...

Keyword(s):

T Cell ◽

Cd8 T Cell ◽

Cell Cytotoxicity ◽

Lytic Granule ◽

T Cell Cytotoxicity

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A flow cytometry-based method to screen for modulators of tumor-specific T cell cytotoxicity

Methods in Enzymology - Tumor Immunology and Immunotherapy – Cellular Methods Part A ◽

10.1016/bs.mie.2019.02.040 ◽

2020 ◽

pp. 467-482

Author(s):

Javier Santos ◽

Jesús Ogando ◽

Rosa Ana Lacalle ◽

Santos Mañes

Keyword(s):

Flow Cytometry ◽

T Cell ◽

Cell Cytotoxicity ◽

T Cell Cytotoxicity

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Design and Synthesis of A PD-1 Binding Peptide and Evaluation of Its Anti-Tumor Activity

International Journal of Molecular Sciences ◽

10.3390/ijms20030572 ◽

2019 ◽

Vol 20 (3) ◽

pp. 572 ◽

Cited By ~ 4

Author(s):

Abdul Abbas ◽

Bingjing Lin ◽

Chen Liu ◽

Arwa Morshed ◽

Jialiang Hu ◽

...

Keyword(s):

Flow Cytometry ◽

T Cell ◽

Inflammatory Responses ◽

Cell Activity ◽

Cell Cytotoxicity ◽

Molecular Weights ◽

Design And Synthesis ◽

Anti Tumor Activity ◽

Peptide Treatment ◽

T Cell Cytotoxicity

Immune-checkpoint blockades, suchas PD-1 monoclonal antibodies, have shown new promising avenues to treat cancers. Failure responsesof many cancer patients to these agents have led to a massive need for alternative strategies to optimize tumor immunotherapy. Currently, new therapeutic developments involve peptide blocking strategies, as they have high stability and low immunogenicity. Here, we have designed and synthesized a new peptide FITC-YT-16 to target PD-1. We have studied FITC-YT-16 by various experiments, including Molecular Operating Environment MOE modeling, purification testing by HPLC and LC mass, peptide/PD-1 conjugation and affinity by microscale thermophoresis (MST), and T cell immune-fluorescence imaging by fluorescence microscopy and flow cytometry. The peptide was tested for its ability to enhanceT cell activity against tumor cell lines, including TE-13, A549, and MDA-MB-231. Lastly, we assessed T cell cytotoxicity under peptide treatment. YT-16–PD-1 interaction showed a high binding affinity as a low energy complex that was confirmed by MOE. Furthermore, the peptide purity and molecular weights were 90.96% and 2344.66, respectively. MST revealed that FITC-YT-16 interacted with PD-1 at a Kd value of 17.8 ± 2.6 nM. T cell imaging and flow cytometry revealed high affinity of FITC-YT-16 to PD-1. Interestingly, FITC-YT-16 efficiently blocked PD-1 signaling pathways and promoted T cell inflammatory responses by elevating IL-2 and INF-γ levels. Moreover, FITC-YT-16 has the ability to activate T cell cytotoxicity. Therefore, FITC-YT-16 significantly enhanced T cell anti-tumor activity by blocking PD-1–PD-L1 interactions.

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Blood Gene Signatures of Chagas Cardiomyopathy With or Without Ventricular Dysfunction

The Journal of Infectious Diseases ◽

10.1093/infdis/jiw540 ◽

2016 ◽

Vol 215 (3) ◽

pp. 387-395 ◽

Cited By ~ 13

Author(s):

Ludmila Rodrigues Pinto Ferreira ◽

Frederico Moraes Ferreira ◽

Helder Imoto Nakaya ◽

Xutao Deng ◽

Darlan da Silva Cândido ◽

...

Keyword(s):

T Cell ◽

Disease Progression ◽

Chagas Disease ◽

Latin American ◽

Cd8 T Cell ◽

Left Ventricular ◽

Left Ventricular Ejection ◽

Cell Cytotoxicity ◽

Chagas Cardiomyopathy ◽

T Cell Cytotoxicity

AbstractChagas disease, caused by the protozoan parasite Trypanosoma cruzi, affects 7 million people in Latin American areas of endemicity. About 30% of infected patients will develop chronic Chagas cardiomyopathy (CCC), an inflammatory cardiomyopathy characterized by hypertrophy, fibrosis, and myocarditis. Further studies are necessary to understand the molecular mechanisms of disease progression. Transcriptome analysis has been increasingly used to identify molecular changes associated with disease outcomes. We thus assessed the whole-blood transcriptome of patients with Chagas disease. Microarray analysis was performed on blood samples from 150 subjects, of whom 30 were uninfected control patients and 120 had Chagas disease (1 group had asymptomatic disease, and 2 groups had CCC with either a preserved or reduced left ventricular ejection fraction [LVEF]). Each Chagas disease group displayed distinct gene expression and functional pathway profiles. The most different expression patterns were between CCC groups with a preserved or reduced LVEF. A more stringent analysis indicated that 27 differentially expressed genes, particularly those related to natural killer (NK)/CD8+ T-cell cytotoxicity, separated the 2 groups. NK/CD8+ T-cell cytotoxicity could play a role in determining Chagas disease progression. Understanding genes associated with disease may lead to improved insight into CCC pathogenesis and the identification of prognostic factors for CCC progression.

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