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Expressing Cell Line (expressing + cell_line)

Distribution by Scientific Domains
Medical Sciences66%

Selected Abstracts

The expression of metastasis suppressor MIM/MTSS1 is regulated by DNA methylation

INTERNATIONAL JOURNAL OF CANCER, Issue 10 2006
Jochen Utikal
Abstract MIM/MTSS1 was initially described as a gene missing in invasive bladder cancer cell lines. Functional analysis revealed that MIM is an actin binding protein involved in the regulation of actin cytoskeleton dynamics. MIM was shown to be sonic hedgehog (Shh) signaling dependent and synergizes with the effects of Gli transcription factors. Overexpression of MIM in cell lines leads to the inhibition of cell proliferation. In this study, we showed that the inhibition of cell growth by MIM is anchorage independent. We identified and cloned the promoter region of MIM and located the main promoter activity to 276 bp of 5, flanking sequence sited within a CpG island. Analysis of DNA methylation using bisulphite sequencing revealed that MIM promoter is methylated in its 5, region in cells and tissue samples with reduced endogenous MIM expression. Using luciferase reporter assay, we demonstrated that nonmethylated MIM promoter has a similar activity in cell lines with different endogenous MIM expression. Inhibition of DNA methylation by 5-Aza-2,-deoxycytidine led to upregulation of MIM expression in a low expressing cell line. In conclusion, we clearly demonstrate here that the expression of metastasis suppressor MIM is regulated by DNA methylation of a CpG island within its promoter region. © 2006 Wiley-Liss, Inc. [source]

Lack of detection of agonist activity by antibodies to platelet-derived growth factor receptor , in a subset of normal and systemic sclerosis patient sera

ARTHRITIS & RHEUMATISM, Issue 4 2009
Nick Loizos
Objective To investigate whether agonist anti,platelet-derived growth factor receptor , (anti-PDGFR,) antibodies are present in the serum of patients with systemic sclerosis (SSc; scleroderma). Methods Sera were obtained from healthy subjects and scleroderma patients. An electrochemiluminescence binding assay was performed for detection of serum autoantibodies to PDGFR,, PDGFR,, epidermal growth factor receptor (EGFR), and colony-stimulating factor receptor 1 (CSFR1). Serum immunoglobulin was purified by protein A/G chromatography. To assess Ig agonist activity, PDGFR,-expressing cells were incubated with pure Ig and the level of receptor phosphorylation determined in an enzyme-linked immunoassay, as well as by Western blotting. Ig agonist activity was also assessed in a mitogenic assay and by MAP kinase activation in a PDGFR,-expressing cell line. Results Sera from 34.3% of the healthy subjects and 32.7% of the SSc patients contained detectable autoantibodies to PDGFR, and PDGFR,, but not EGFR or CSFR1. Purified Ig from these sera was shown to retain PDGFR binding activity and, at 200-1,000 ,g/ml, exhibited no agonist activity in a cell-based PDGFR, phosphorylation assay and did not stimulate a mitogenic response or MAP kinase activation in a PDGFR,-expressing cell line. Two purified Ig samples that were unable to bind PDGFR, did exhibit binding activity to a nonglycosylated form of PDGFR,. Conclusion Although approximately one-third of sera from scleroderma patients contained detectable autoantibodies to PDGFR, these antibodies were not specific to scleroderma, since they were also detected in a similar percentage of samples from normal subjects. PDGFR, agonist activity was not demonstrated when purified Ig from these sera was tested in cell-based assays. [source]

Expression of FasL in squamous cell carcinomas of the cervix and cervical intraepithelial neoplasia and its role in tumor escape mechanism,

CANCER, Issue 5 2006
Ramy Ibrahim M.D.
Abstract BACKGROUND To date, several mechanisms have been described by which malignant cells escape from the immune system. One of these is through the expression of FasL. The authors hypothesized that the Fas/FasL interaction enables cervical carcinoma cells to induce apoptosis of the cells of the immune system and thereby escape from them. METHODS The authors tested the expression of FASL on the surface of cervical carcinoma tissues. Next, they stained the same cervical tissues with anti-human leukocyte common antigen and TUNEL to identify apoptotic cells. An in vitro functional assay was then done to test if the FASL expressed on the surface of cervical carcinoma cell lines was or was not responsible for inducing apoptosis in T-cells. Finally, they compared the expression of FASL on normal and dysplastic cervical tissues. RESULTS Ninety-four percent of the cervical carcinoma tissues the authors tested expressed FasL and the majority of the apoptotic cells in the specimens were leukocytes with very few tumor cells. In the in vitro functional assay, only the Fasl expressing cell line and not the Fasl negative cell line was able to induce apoptosis of the Fas-expressing Jurkat cells. On examining the normal cervical tissues, the authors found that the expression of Fasl was confined to the basal cell layer with loss of expression observed in the suprabasal layers, which made it an immune privileged site. Conversely, there was persistent expression of FasL in the dysplastic layers in cervical dysplasia and squamous cell carcinoma specimens. CONCLUSIONS The findings of the current study support the authors' hypothesis that persistent expression of FasL plays a role in the ability of cervical carcinoma cells to escape from the immune system. Cancer 2006. Published 2006 by the American Cancer Society. [source]

Investigation into the effects of cidofovir on an in vitro model of recurrent respiratory papillomatosis

CLINICAL OTOLARYNGOLOGY, Issue 3 2006
A.J. Donne
Problem. Recurrent respiratory papillomatosis (RRP) has no cure, and cidofovir is currently the most contemporary adjuvant treatment. Cidofovir has reported activity against Human Papilloma Virus type 16, but no laboratory studies have yet been performed on HPV type 6 which is the main cause of RRP. This work describes the generation of a novel HPV 6 related cell line and its use to evaluate the effects of Cidofovir. Method. HPV6b E6 cDNA was stably introduced into HPV negative C33A cervical carcinoma cells to produce the C33AT6E6 cell line. Two different doses of Cidofovir were applied to parent C33A, C33AT6E6 and C33AT16E6 (type 16 cell line) with appropriate controls. Growth and FACS cell cycle analysis were performed after 3 and 6 days of continuous exposure followed by 2 and 3 days post-drug withdrawal. Result.PCR analysis confirmed HPV6 E6 expression in C33AT6E6 cells. High dose cidofovir was toxic at 3 and 6 days exposure in all cells tested. Low dose exposure was toxic for C33AT16E6 cells at 3 days whereas C33A and C33AT6E6 only showed minimal toxicity at 6 days. C33A and C33AT6E6 cells also showed earlier recovery following drug withdrawal. Conclusion.Cidofovir showed varying degrees of non-specific toxicity against all three cell lines tested. However, HPV16 E6 expressing cells were more sensitive than either parent or HPV6 E6 expressing cells indicating that cidofovir has no selective advantage for the RRP related HPV6 E6 expressing cell line. [source]

Identification of markers for the selection of patients undergoing renal cell carcinoma-specific immunotherapy

PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 6 2003
Barbara Seliger
Abstract Renal cell carcinoma (RCC) represents the most common malignant tumor in the kidney and is resistant to conventional therapies. The diagnosis of RCC is often delayed leading to progression and metastatic spread of the disease. Thus, validated markers for the early detection of the disease as well as selection of patients undergoing specific therapy is urgently needed. Using treatment with the monoclonal antibody (mAb) G250 as a model, proteome-based strategies were implemented for the identification of markers which may allow the discrimination between responders and nonresponders prior to application of G250-mediated immunotherapy. Flow cytometry revealed G250 surface expression in approximately 40% of RCC cell lines, but not in the normal kidney epithelium cell lines. G250 expression levels significantly varied thereby distinguishing between low, medium and high G250 expressing cell lines. Comparisons of two-dimensional gel electrophoresis expression profiles of untreated RCC cell lines versus RCC cell lines treated with a mAb directed against G250 and the characterization of differentially expressed proteins by mass spectrometry and/or Edman sequencing led to the identification of proteins such as chaperones, antigen processing components, transporters, metabolic enzymes, cytoskeletal proteins and unknown proteins. Moreover, some of these differentially expressed proteins matched with immunoreactive proteins previously identified by proteome analysis combined with immunoblotting using sera from healthy donors and RCC patients, a technique called PROTEOMEX. Immunohistochemical analysis of a panel of surgically removed RCC lesions and corresponding normal kidney epithelium confirmed the heterogeneous expression pattern found by proteome-based technologies. In conclusion, conventional proteome analysis as well as PROTEOMEX could be successfully employed for the identification of markers which may allow the selection of patients prior to specific immunotherapy. [source]

The generation of stable, high MAb expressing CHO cell lines based on the artificial chromosome expression (ACE) technology

BIOTECHNOLOGY & BIOENGINEERING, Issue 3 2009
Malcolm L. Kennard
Abstract The manufacture of recombinant proteins at industrially relevant levels requires technologies that can engineer stable, high expressing cell lines rapidly, reproducibly and with relative ease. Commonly used methods incorporate transfection of mammalian cell lines with plasmid DNA containing the gene of interest. Identifying stable high expressing transfectants is normally laborious and time consuming. To improve this process, the ACE System has been developed based on pre-engineered artificial chromosomes with multiple recombination acceptor sites. This system allows for the targeted transfection of single or multiple genes and eliminates the need for random integration into native host chromosomes. To illustrate the utility of the ACE System in generating stable, high expressing cell lines, CHO based candidate cell lines were generated to express a human monoclonal IgG1 antibody. Candidate cell lines were generated in under 6 months and expressed over 1,g/L and with specific productivities of up to 45,pg/cell/day under non-fed, non-optimized shake flask conditions. These candidate cell lines were shown to have stable expression of the monoclonal antibody for up to 70 days of continuous culture. The results of this study demonstrate that clonal, stable monoclonal antibody expressing CHO based cell lines can be generated by the ACE System rapidly and perform competitively with those cell lines generated by existing technologies. The ACE System, therefore, provides an attractive and practical alternative to conventional methods of cell line generation. Biotechnol. Bioeng. 2009; 104: 540,553 © 2009 Wiley Periodicals, Inc. [source]