HIV-1TransInfection of CD4+T Cells by Professional Antigen Presenting Cells

Since the 1990s we have known of the fascinating ability of a complex set of professional antigen presenting cells (APCs; dendritic cells, monocytes/macrophages, and B lymphocytes) to mediate HIV-1transinfection of CD4+T cells. This results in a burst of virus replication in the T cells that is much greater than that resulting from direct,cisinfection of either APC or T cells, ortransinfection between T cells. Such APC-to-T celltransinfection first involves a complex set of virus subtype, attachment, entry, and replication patterns that have many similarities among APC, as well as distinct differences related to virus receptors, intracellular trafficking, and productive and nonproductive replication pathways. The end result is that HIV-1 can sequester within the APC for several days and be transmitted via membrane extensions intracellularly and extracellularly to T cells across the virologic synapse. Virus replication requires activated T cells that can develop concurrently with the events of virus transmission. Further research is essential to fill the many gaps in our understanding of thesetransinfection processes and their role in natural HIV-1 infection.

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IMMU-41. RNA-MODIFIED T CELLS AS PROFESSIONAL ANTIGEN PRESENTING CELLS

Neuro-Oncology ◽

10.1093/neuonc/noz175.533 ◽

2019 ◽

Vol 21 (Supplement_6) ◽

pp. vi127-vi128

Author(s):

Fernanda Pohl-Guimarães ◽

Duane Mitchell

Keyword(s):

T Cells ◽

Tumor Antigen ◽

Messenger Rna ◽

Cellular Proliferation ◽

Tumor Antigens ◽

Genetically Modified ◽

Antigen Presenting Cells ◽

Activated T Cells ◽

Antigen Presenting

Abstract INTRODUCTION With the lack of antigen presenting cells (APCs) in the central nervous system (CNS), anti-tumor immune responses from intracranial tumors are believed to be initiated in the peripheral lymph nodes. Recently, studies have shown that intratumoral dendritic cells (DCs), a well-known professional APC, play a crucial role at inducing anti-tumor immunity. Although DCs have been tested in cancer immunotherapy clinical trials for two decades, DC delivery strategies have limited access to the CNS, mainly due to the blood brain barrier (BBB). To bypass the limitations of the lack of intracranial APCs, we investigate the HYPOTHESIS that RNA-modified T cells can express and cross-present single tumor antigens locally within the CNS tumor microenvironment. Since activated T cells have an inherent ability to cross the BBB and can be genetically modified, this strategy makes them an attractive professional antigen presenting cells for cancer cell therapy. METHODS Using electroporation to deliver messenger RNA (mRNA) encoding a model tumor antigen to T cells, we evaluated the expression and cross-presentation capability of RNA-modified T cells. RESULTS We demonstrated that activated T cells can be genetically modified to express tumor antigens in vitro while retaining their inherent effector functions. Compared to unmodified T cells, T cells modified with tumor antigen encoding RNA showed high expression of inflammatory cytokines, including IFN gamma and TNF alpha and enhanced cellular proliferation and IL-2 secretion. Tumor antigen RNA-modified T cells demonstrated potent antigen presentation in vitro and importantly were significantly superior to RNA-loaded DCs in antigen presenting capacity. CONCLUSIONS This study strongly supports the implementation of a non-invasive and efficacious strategy to deliver “APC-like” T cell locally to brain tumors, thereby bypassing the lack of APCs within CNS malignancies.

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Robust Expansion of Cytomegalovirus (CMV) Antigen-Specific CD4+ and CD8+ T Cells Using Gene-Modified Activated T Cells as Antigen Presenting Cells.

Blood ◽

10.1182/blood.v106.11.2384.2384 ◽

2005 ◽

Vol 106 (11) ◽

pp. 2384-2384

Author(s):

J. Joseph Melenhorst ◽

Scott R. Solomon ◽

Stephan Mielke ◽

Nancy F. Hensel ◽

Austin J. Barrett

Keyword(s):

T Cells ◽

T Cell ◽

Cd8 T Cells ◽

Antigen Presenting Cells ◽

Cd8 T Cell ◽

Fold Change ◽

Antigen Specificity ◽

Activated T Cells ◽

Cell Numbers ◽

Antigen Presenting

Abstract CMV reactivation after stem cell transplantation can be treated with CMV-specific T cells but current in vitro techniques using dendritic cells as antigen-presenting cells are time-consuming and expensive. To simplify the production of clinical grade CMV specific T cells, we evaluated gene-modified activated T cells (T-APC) as a reliable and easily produced source of APC to boost CD4 and CD8 T cell responses against the immunodominant CMV antigen pp65. Peripheral blood mononuclear cells from CMV seropositive donors were activated for 2–3 days in complete medium (IMDM, AB serum, glutamine, and antibiotics) supplemented with 0.8 mg/ml phytohaemagglutinin and 100 IU IL-2/ml. The cells were transduced with Phoenix-A derived recombinant virus encoding pp65 in retronectin-coated 6-well plates, and further expanded in anti-CD3 plus CD28-coated flasks for 3–7 more days. Cultured cells expressed high levels of HLA-DR, and the costimulatory molecules CD80 and CD86. Autologous PBMC (0.5 – 1.0 x 106 cells) were stimulated with 106 irradiated (25 Gy) transduced T-APC in a 24-well plate. After 1–3 days IL-2 and IL-7 were added to a final concentration of 20 IU/ml and 10 ng/ml, respectively. Two weeks later the T cell lines were tested for antigen specificity using the flow cytometric intracellular detection of interferon-gamma following stimulation for 6 hours with a pp65 peptide library of 15-mers, overlapping by 11 amino acids. This technique induced a 135-fold (median; range, 20–120,000) and a 255-fold (median; range, 17–20,000) expansion of pp65-specific CD4 and CD8 responder cells, respectively, in 10/10 seropositive donors (figure). To further improve proliferation, CD25-expressing T regulatory cells were removed from the PBMC at the start of the culture by immunomagnetic depletion (Miltenyi). In 7/10 donors, CD25 depletion resulted in increased CD4 and/or CD8 responder numbers (p>0.05; Mann Whitney paired t-test). Median increase in responder cell numbers was 4.25-fold (range, 1.4–6) for CD4+ T cells, and 4.2-fold (range, 3–7.5) for CD8+ T cells. These data indicate that T-APC efficiently boost pp65-specific CD4 and CD8 T cell numbers to clinically useful levels and that removal of CD25-expressing cells can further augment the total yield of antigen-specific T cells in most donors. The approach has the advantage of using a single leukocyte collection from the donor to generate large numbers of CMV-specific T cells within a total 3 week culture period using only one stimulation of antigen. Fold-change in the total number of pp-65 specific CD4 and CD8 T cells from PBMC Fold-change in the total number of pp-65 specific CD4 and CD8 T cells from PBMC

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T Cells Can Use Either T Cell Receptor or Cd28 Receptors to Absorb and Internalize Cell Surface Molecules Derived from Antigen-Presenting Cells

Journal of Experimental Medicine ◽

10.1084/jem.191.7.1137 ◽

2000 ◽

Vol 191 (7) ◽

pp. 1137-1148 ◽

Cited By ~ 175

Author(s):

Inkyu Hwang ◽

Jing-Feng Huang ◽

Hidehiro Kishimoto ◽

Anders Brunmark ◽

Per A. Peterson ◽

...

Keyword(s):

T Cells ◽

T Cell ◽

T Cell Receptor ◽

Biological Significance ◽

Antigen Presenting Cells ◽

Cell Receptor ◽

Cell Uptake ◽

Lymphocyte Function ◽

Activated T Cells ◽

Antigen Presenting

At the site of contact between T cells and antigen-presenting cells (APCs), T cell receptor (TCR)–peptide–major histocompatibility complex (MHC) interaction is intensified by interactions between other molecules, notably by CD28 and lymphocyte function-associated antigen 1 (LFA-1) on T cells interacting with B7 (B7-1 and B7-2), and intracellular adhesion molecule 1 (ICAM-1), respectively, on APCs. Here, we show that during T cell–APC interaction, T cells rapidly absorb various molecules from APCs onto the cell membrane and then internalize these molecules. This process is dictated by at least two receptors on T cells, namely CD28 and TCR molecules. The biological significance of T cell uptake of molecules from APCs is unclear. One possibility is that this process may allow activated T cells to move freely from one APC to another and eventually gain entry into the circulation.

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