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Query: DrugBank:EXPT01586 (
G418
)
2,237
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Experimental models of vaccination with tumor cells engineered to produce interleukin-4 (IL-4) have shown that the local release of this cytokine is associated with the development of antitumor immunity that may induce regression of established cancer. The aim of this study was to transduce a human melanoma cell line with the gene coding for human IL-4, and to analyze cytokine production, phenotypic characteristics, and antigen expression after transduction. A retroviral vector, constructed by inserting IL-4 cDNA into the LXSN vector, was used to infect the human melanoma cell line Me14932, known to express the MHC class I
HLA-A2
and the melanoma-associated antigen Melan-A/MART-1, recognized by
HLA-A2
-restricted T-cells. The confluence of all
G418
-resistant cells (Me14932/IL-4) was then analyzed for proviral integration and IL-4 mRNA expression. Substantially stable IL-4 release was detected by ELISA in the supernatant of transduced cells, ranging from 1.6 to 4.6 ng/ml per 10(5) cells per 24 hr; such a cytokine displayed a specific biologic activity, as revealed by the stimulation of blast cell proliferation and the inhibition of lymphokine activated killer cell (LAK) induction by IL-2. After 200 Gy irradiation, IL-4 release remained detectable for 5 weeks, whereas cell proliferation ceased within 7 days. Morphology and immunophenotypic characteristics of the parental cell line (expression of MHC classes I and II, ICAM-1, LFA 3, melanoma-associated antigens, etc.) were retained by the IL-4 gene-transduced melanoma as assayed by microscopy and immunofluorescence; likewise, susceptibility to lysis by LAK cells as well as a T-cell clone recognizing the Melan-A/MART-1 antigen did not change. These results, together with the lack of replication-competent retrovirus, suggest that the Me14932/IL-4 cell line displays suitable characteristics for its use in the treatment of HLA-matched melanoma patients.
...
PMID:A human melanoma cell line transduced with an interleukin-4 gene by a retroviral vector releases biologically active IL-4 and maintains the original tumor antigenic phenotype. 857 15
To generate non-small cell lung cancer (NSCLC)-reactive lymphocytes, we transfected an
HLA-A2
-expressing human NSCLC line (1355) with the cDNA encoding the lymphocyte co-stimulatory molecule CD80. Following selection in
G418
, 1355.7 demonstrated stable cell-surface expression of CD80. Allogeneic mixed lymphocyte tumor cell cultures (MLTCs) were established in 600 IU/ml IL-2 using HLA-A2+ normal donor peripheral blood mononuclear cells (PBMCs) stimulated with 1355-P (parental), 1355.7 or IL-2 alone. In 7 of 9 MLTCs, those stimulated with 1355.7 demonstrated enhanced growth after 30 to 45 days of culture. The predominant lymphocyte to grow in all MLTCs was a CD3+alphabeta+CD4+ T cell. In one case, lymphocytes stimulated with 1355.7 (MLTC 2389.7) exhibited preferential lysis of 1355. MLTC 2389.7 was cloned by limiting dilution, and 2 resultant cloids were shown to be NSCLC-reactive and dependent on both MHC class 1 and CD3 in their recognition of tumor cells. Additionally, allogeneic MLTCs were established using three HLA-A2+ NSCLC patients' PBMC. The predominant lymphocyte to grow in these MLTCs was a CD3+ alphabeta+CD8+ T cell. In cytotoxicity studies, MLTC-UKY25.7 demonstrated preferential lysis of 1355-P, 1355.7 and an HLA-A2+ NSCLC cell line, 1650. Lymphocytes from this MLTC did not lyse K562, Daudi or an
HLA-A2
- NSCLC cell line, 647. Our data suggest that CD80-expressing NSCLC tumor cells may enhance the generation of specific CTLs in vitro. These CTLs could be important reagents for use in cellular immunotherapy and/or in isolating tumor antigens for potential tumor vaccine development.
...
PMID:CD80 expression in an HLA-A2-positive human non-small cell lung cancer cell line enhances tumor-specific cytotoxicity of HLA-A2-positive T cells derived from a normal donor and a patient with non-small cell lung cancer. 983 60
To modulate alloreactivity after hematopoietic stem cell transplantation, suicide gene-expressing donor T cells can be administered with an allogeneic T-cell-depleted bone marrow graft. Immune competence of such cells is a critical issue. The impact of the ex vivo gene transfer protocol (12-day culture period including CD3/interleukin-2 [IL-2] activation, retroviral-mediated gene transfer, and
G418
-based selection) on the anti-Epstein-Barr virus (EBV) potential of gene-modified cells has been examined. Cytotoxic (pCTL) and helper (pTh) cell precursor limiting dilution assays, interferon-gamma enzyme-linked immunospot, or fluorescence-activated cell sorter analysis after tetrameric
HLA-A2
/EBV peptide complexes revealed that the frequency of anti-EBV T cells was lower in gene-modified cells (GMCs) than in similarly cultured but untransduced T cells and was even lower than in fresh peripheral blood mononuclear cells, demonstrating both an effect of the culture and of the transduction or selection. The culture-dependent loss of EBV-reactive cells resulted from the preferential induction of activation-induced cell death in tetramer(+) cells. Replacing the initial CD3/IL-2 activation by CD3/CD28/IL-2 partially restored the anti-EBV response of GMCs by reducing the initial activation-induced cell death and enhancing the proliferation of EBV-tetramer(+) cells. Moreover, the
G418
selection, and not the transduction, was directly toxic to transduced tetramer(+) cells. Replacing the
G418
selection by an immunomagnetic selection significantly prevented the selection-dependent loss of EBV-specific cells. Overall, ex vivo gene modification of primary T cells can result in a significant reduction in EBV-reactive T cells through both culture-dependent and selection-dependent mechanisms. Improving immune functions of GMCs through modifications of the cell culture conditions and transduction/selection processes is critical for further clinical studies.
...
PMID:Retrovirus-mediated gene transfer in primary T lymphocytes impairs their anti-Epstein-Barr virus potential through both culture-dependent and selection process-dependent mechanisms. 1183 Apr 62
To construct pcDNA3.1(+)/A2E eukaryotic expression vector and obtain a stable expression on HLA-I negative human K562 cell, PCR technique was employed to amplify A2E cDNA from the multi-cistron expression vector pG/A2E carrying HLA-E and
HLA-A2
cDNA through internal ribozyme entry site (IRES), the cDNA was subcloned into vector pcDNA3.1(+), thus a eukaryotic expression was constructed and named pcDNA3.1(+)/A2E; then, the recombinant plasmid was transferred into the target cells, followed by screening with
G418
and limiting dilution; finally, flow cytometry was adopted to detect HLA-E expression on the target cells. The results showed that HLA-E molecules were successfully expressed on K562 cells transfected with pcDNA3.1(+)/A2E (27.76%) and the expression of HLA-E molecules was not detected on K562 cells transfected with pcDNA3.1(+). It is concluded that the pcDNA 3.1(+)/A2E eukaryotic expression vector was successfully constructed and the HLA-E molecules were expressed on K562 cells. The data presented here would be expected to lay a good basis for the research of the molecular mechanism of HLA-E function and the interaction between HLA-E and the receptor on NK cells, as well as the influence of the expression of HLA-E in vitro on NK cells.
...
PMID:[Construction of pcDNA3.1(+)/A2E eukaryotic expression vector and its expression on K562 cell]. 1597 43
