Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.17.21 (prostate-specific membrane antigen)
 1,761 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DNA vaccines provide an attractive technology against cancer because of their safety record in humans and ease of construction, testing and manufacture. In this study, several DNA fragments encoding multiple cytotoxic T lymphocyte (CTL) and T helper cell epitopes were selected from human prostate-specific membrane antigen (hPSM), mouse prostatic acid phosphatase (mPAP), and human prostate-specific antigen (hPSA). These DNA fragments were ligated together to form a novel fusion gene, termed the 3P gene. The secondary lymphoid tissue chemokine (SLC), 3P and human immunoglobulin G Fc genes were inserted into pcDNA3.1 to construct a DNA vaccine, designated pSLC-3P-Fc. After vaccination, the DNA is taken up by cells that produce and secrete the SLC-3P-Fc fusion proteins, termed chemotactic antigen (chemo-antigen). The secreted chemo-antigens, in addition to promoting the co-localization of naive, non-polarized memory T cells and dendritic cells, are efficiently captured and processed by dendritic cells via receptor-mediated endocytosis and then cross-presented to both major histocompatibility complex class I and class II in a cognate manner. The results of this study demonstrate that vaccination with pSLC-3P-Fc by gene gun inoculation induced a strong antitumour response in a mouse tumour model, which significantly inhibited tumour growth and prolonged the survival time of the tumour-bearing mice. In vitro, the secreted SLC-3P-Fc fusion protein can attract lymphocytes from human peripheral blood mononuclear cells (PBMC); when human lymphocytes were stimulated by pSLC-3P-Fc-transfected autologous PBMC, CTLs were induced which could specifically kill hPSM-, hPAP-, or hPSA-expressing tumour cells. These observations provide a new vaccine strategy for cancer therapy through promoting the co-localization of lymphocytes and the concomitant enhancement of antigen-specific CD4+ helper and CD8+ cytotoxic T-cell responses against tumour.
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PMID:Enhancement of antitumour immunity by a novel chemotactic antigen DNA vaccine encoding chemokines and multiepitopes of prostate-tumour-associated antigens. 1647 62

We previously reported that several DNA fragments from human prostate-specific membrane antigen (hPSM), mouse prostatic acid phosphatase (mPAP), and human prostate-specific antigen (hPSA) genes were selected and fused to create a novel hPSM-mPAP-hPSA fusion gene (named 3P gene), and human secondary lymphoid tissue chemokine (SLC), 3P, and human IgG Fc genes were inserted into pcDNA3.1 to construct a DNA vaccine, designated pSLC-3P-Fc. In this report, to establish a more efficient treatment for immunotherapy against prostate cancer, the construct was transfected into B16F10 to generate gene-modified tumor cell vaccine (named B16F10-SLC-3P-Fc). In poorly immunogenic B16F10 mouse melanoma model, the immunization with B16F10-SLC-3P-Fc resulted in a strong antitumor response and 50% of tumor-bearing mice achieved long-term survival (>120 days). In vivo depletion of lymphocytes indicated that CD8(+) T cells were involved in the direct tumor killing, whereas CD4(+) T lymphocytes were required for the induction of CD8(+) CTL response in B16F10-SLC-3P-Fc-immunized mice. Splenocytes from B16F10-SLC-3P-Fc-immunized mice specifically recognized and lysed PSM, PAP, PSA, and 3P expressing tumor cells. The combined therapy of B16F10-SLC-3P-Fc plus anti-B7-H1 MAbs further enhanced the immune response. Rechallenge experiment showed that a persistent memory response was successfully induced by the combined therapy. These observations suggest pSLC-3P-Fc-modified tumor cells could serve as a vaccine against prostate cancer, and the therapy combined with anti-B7-H1 MAbs further enhanced the antitumor immune response.
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PMID:Potent systemic antitumor immunity induced by vaccination with chemotactic-prostate tumor associated antigen gene-modified tumor cell and blockade of B7-H1. 1718 Apr 70