scholarly journals A therapeutic cancer vaccine delivers antigens and adjuvants to lymphoid tissues using genetically modified T cells

2021 ◽  
Vol 131 (16) ◽  
Author(s):  
Joshua R. Veatch ◽  
Naina Singhi ◽  
Shivani Srivastava ◽  
Julia L. Szeto ◽  
Brenda Jesernig ◽  
...  
Keyword(s):  
T Cells ◽  
Cancer Vaccine ◽  
Genetically Modified ◽  
Lymphoid Tissues ◽  
Therapeutic Cancer Vaccine

A randomized phase II clinical trial of enzalutamide in combination with the therapeutic cancer vaccine, PSA tricom, in metastatic, castration resistant prostate cancer.

2013 ◽  
Vol 31 (15_suppl) ◽  
pp. TPS5104-TPS5104
Author(s):  
Nishith K. Singh ◽  
Joseph W. Kim ◽  
Christopher Ryan Heery ◽  
William L. Dahut ◽  
Anna Couvillon ◽  
...  
Keyword(s):  
Prostate Cancer ◽  
Clinical Trial ◽  
T Cells ◽  
T Cell ◽  
Cancer Vaccine ◽  
Phase Iii ◽  
Cytotoxic T Cell ◽  
Phase 2 ◽  
Therapeutic Cancer Vaccine ◽  
Randomized Phase 2

TPS5104 Background: There is a strong rationale to combine therapeutic cancer vaccines with hormonal abrogation in prostate cancer. Androgen abrogation augments T-cell trafficking to prostate, decreases immune tolerance, increases production of naïve thymic T-cells, enhances cytotoxic T-cell repertoire. PSA TRICOM (PROSTVAC) is a therapeutic, viral-vector based, off-the-shelf, cancer vaccine of PSA & 3 co-stimulatory molecules in phase III testing. This was developed at the NCI in collaboration with Bavarian Nordic Immunotherapeutics. It has demonstrated safety and survival benefit in a randomized phase 2 trial of metastatic castrate resistant prostate cancer (mCRPC). Enzalutamide is a modern androgen receptor inhibitor (ARI) approved for the treatment of mCRPC. Data from the clinical trials with these therapies suggest good individual tolerability without any overlapping toxicities. Analysis of previous trials suggests that vaccines may enhance clinical outcomes with ARI. These data form the scientific basis for a combination approach of a cancer vaccine with ARI to control tumor progression in mCRPC. Methods: A randomized, phase 2, open-label clinical trial at the NCI will enroll 72 chemo-naïve, minimally symptomatic patients with mCRPC. They will be randomized (1:1) to enzalutamide (160 mg daily) alone, or enzalutamide with PSA TRICOM for treatment until radiographic progression. PSA-TRICOM will be administered in a core phase (with day 1, 15 and 29 then 4 additional monthly boosts) followed by continued boosts every 3 months. The primary end point will evaluate time to progression in each arm with secondary endpoints including overall survival and systemic immune responses (lymphocyte subsets, regulatory T-cells, regulatory T-cell function, cytokines, naïve thymic emigrants). If a therapeutic cancer vaccine can enhance the clinical efficacy of a hormonal agent such as enzalutamide, it may help define a new role for vaccines as an adjuvant to standard therapies. We will also evaluate this combination in a second trial in non-metastatic, castration-sensitive patients where this combination may yield its greatest clinical impact.

Effect of the novel therapeutic cancer vaccine formulation DPX-0907 on multifunctional T-cell responses in ovarian, breast, and prostate cancer patients.

2012 ◽  
Vol 30 (15_suppl) ◽  
pp. 2588-2588
Author(s):  
Neil Lorne Berinstein ◽  
Mohan Karkada ◽  
Rita Nigam ◽  
Michael Morse ◽  
John J. Nemunaitis ◽  
...  
Keyword(s):  
Prostate Cancer ◽  
Immune Response ◽  
T Cells ◽  
Immune Responses ◽  
Cancer Patients ◽  
Cancer Vaccine ◽  
Response Rate ◽  
The Novel ◽  
Vaccine Platform ◽  
Therapeutic Cancer Vaccine

2588 Background: To increase the efficacy of peptide cancer vaccines, we developed a novel vaccine platform called DepoVax, an adjuvanted water-free depot formulation with the ability to generate enhanced immune responses. Naturally processed HLA-A2 restricted peptides that are selectively presented by breast, ovarian and prostate cancer cell lines, but not by normal HLA-A2+ cells, were used as antigens with a proprietary adjuvant and a T helper peptide epitope to create a therapeutic cancer vaccine, DPX-0907. Methods: A phase I clinical study was designed to examine the safety and immune activating potential of DPX-0907 in advanced stage breast, ovarian and prostate cancer patients. A total of 23 late stage cancer patients were recruited and were divided into two dose volume cohorts in a three immunization clinical protocol. Results: DPX-0907 proved to be safe with no serious adverse effects related to the vaccine reported. Of those evaluable for immunogenicity, all breast cancer patients (3/3), most of ovarian (5/6) and one third of prostate (3/9) cancer patients demonstrated immune response to one or more of seven antigenic peptides, resulting in a 61% response rate. Immune responses correlated with achievement of CR, PR or SD to last treatment. No difference in immune response rate or magnitude was seen between the two dose groups. DPX-0907 displayed strong immune induction potential, with 73% of immune responders showing responses with just one dose of vaccine. In 83% of responders, immune responses were detected at ≥2 time points post vaccination and 64% had a persistent immune response at one month post last vaccination. Immune monitoring showed peptide-specific CD8 T cells, and these T cells were able to secrete multiple Th1 cytokines indicating their multifunctionality, a feature attributable to cells that mediate protective responses. Conclusions: These data support the ability of DPX-0907 to elicit Th1 dominated, specific immunity and support the rationale for further testing in immunologically competent cancer patients. The novel DepoVax formulation may promote multifunctional memory responses with peptides from other tumor associated antigens.

Selective Generation of Gut-Tropic T Cells in Gut-Associated Lymphoid Tissues: Requirement for GALT Dendritic Cells and Adjuvant

2004 ◽  
Vol 1029 (1) ◽  
pp. 405-407 ◽  
Author(s):  
MARCUS SVENSSON ◽  
BENGT JOHANSSON-LINDBOM ◽  
MARC-ANDRÉ WURBEL ◽  
BERNARD MALISSEN ◽  
GABRIEL MÁRQUEZ ◽  
...  
Keyword(s):  
T Cells ◽  
Dendritic Cells ◽  
Lymphoid Tissues ◽  
Selective Generation

scholarly journals Mechanisms regulating IgA class-specific immunoglobulin production in murine gut-associated lymphoid tissues. II. Terminal differentiation of postswitch sIgA-bearing Peyer's patch B cells.

1983 ◽  
Vol 158 (3) ◽  
pp. 649-669 ◽  
Author(s):  
H Kawanishi ◽  
L Saltzman ◽  
W Strober
Keyword(s):  
T Cells ◽  
T Cell ◽  
B Cells ◽  
Present Report ◽  
Protein A ◽  
Cell Subset ◽  
Terminal Differentiation ◽  
Lymphoid Tissues ◽  
T Cell Subset ◽  
Iga Production

Our previous studies indicated that cloned T cells obtained from Peyer's patches (PP) (Lyt-1+, 2-, Ia+, and H-2K/D+) evoked immunoglobulin (Ig) class switching of PP B cells from sIgM to sIgA cells in vitro; however, these switch T cells could not in themselves provide optimal help for the differentiation of postswitch sIgA-bearing PP B cells to IgA-secreting cells. Thus, in the present report we described studies focused on mechanisms regulating terminal differentiation of the postswitch PP sIgA-bearing B cells. First, to explore the effect of T cell-derived B cell differentiation factor(s) (BCDF) and macrophage factor(s) (MF) on the terminal maturation of PP B cells, LPS-stimulated PP B cells were co-cultured for 7 d with cloned T cells in the presence or absence of the above factors. In the absence of PP cloned T cells the BCDF and MF had only a modest effect on IgA production, whereas in the presence of PP, but not spleen cloned T cells, IgA production was increased. Next, to investigate the effect of T cells derived from a gut-associated lymphoid tissue (GALT), mesenteric lymph nodes (MLN), as well as from spleen on terminal differentiation of postswitch sIgA PP B cells, LPS-driven PP B cells were precultured with the cloned T cells to induce a switch to sIgA, and subsequently cultured with MLN or spleen T cells or a Lyt-2+-depleted T cell subset in the presence of a T-dependent polyclonal mitogen, staphylococcal protein A. Alternatively, in the second culture period BCDF alone was added, instead of T cells and protein A. Here it was found that B cells pre-exposed to switch T cells from PP, but not spleen, were induced to produce greatly increased amounts of IgA in the presence of protein A and T cells or a Lyt-2+-depleted T cell subset as well as in the presence of BCDF alone. Furthermore, in the presence of BCDF alone many B cells expressed cytoplasmic IgA. These observations strongly support the view that the terminal differentiation of postswitch sIgA B cells is governed by helper T cells and macrophages, or factors derived from such cells. Such cells or factors do not affect preswitch B cells.

scholarly journals MAGE-A3 With Cell-Penetrating Domain as an Efficient Therapeutic Cancer Vaccine

JAMA Surgery ◽  
2014 ◽  
Vol 149 (5) ◽  
pp. 451 ◽  
Author(s):  
Ramesh B. Batchu ◽  
Oksana Gruzdyn ◽  
Ravindra B. Potti ◽  
Donald W. Weaver ◽  
Scott A. Gruber
Keyword(s):  
Cancer Vaccine ◽  
Therapeutic Cancer Vaccine ◽  
Cell Penetrating

Parasite species regulates T cell activation in human malaria

2021 ◽  
Author(s):  
Florian Bach ◽  
Diana Munoz Sandoval ◽  
Michalina Mazurczyk ◽  
Yrene Themistocleous ◽  
Thomas A Rawlinson ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Plasmodium Vivax ◽  
T Cell Activation ◽  
Cell Activation ◽  
Parasite Species ◽  
Field Isolate ◽  
Effector Memory ◽  
Lymphoid Tissues ◽  
Systems Immunology

Plasmodium vivax offers unique challenges for malaria control and may prove a more difficult species to eradicate than Plasmodium falciparum. Yet compared to P. falciparum we know very little about the innate and adaptive immune responses that need to be harnessed to reduce disease and transmission. In this study, we inoculated human volunteers with a clonal field isolate of P. vivax and used systems immunology tools to track their response through infection and convalescence. Our data reveal Plasmodium vivax triggers an acute phase response that shares remarkable overlap with that of P. falciparum, suggesting a hardwired innate response that does not differentiate between parasite species. This leads to the global recruitment of innate-like and adaptive T cells into lymphoid tissues where up to one quarter of the T cell compartment is activated. Heterogeneous effector memory-like CD4+ T cells dominate this response and their activation coincides with collateral tissue damage. Remarkably, comparative transcriptional analyses show that P. falciparum drives even higher levels of T cell activation; diverging T cell responses may therefore explain why falciparum malaria more frequently causes severe disease.

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