PRMT4 is a novel coactivator of c-Myb-dependent transcription in haematopoietic cell lines.

Protein arginine methyltransferase 4 (PRMT4)-dependent methylation of arginine residues in histones and other chromatin-associated proteins plays an important role in the regulation of gene expression. However, the exact mechanism of how PRMT4 activates transcription remains elusive. Here, we identify the chromatin remodeller Mi2α as a novel interaction partner of PRMT4.

The rotamase Pin1 is up-regulated, hypophosphorylated and required for cell cycle progression in head and neck squamous cell carcinomas.

The peptidyl-prolyl cis/trans isomerase Pin1 has been implicated in malignant transformation in multiple studies, however, little is known about its potential impact in head and neck cancer. This study evaluates the role of Pin1 in head and neck squamous cell carcinomas (HNSCCs). Pin1 expression and level of phosphorylation was evaluated by Western blot analysis and 2D-gel-electrophoresis.

Metrological sharp shooting for plasma proteins and peptides: The need for reference materials for accurate measurements in clinical proteomics and in vitro diagnostics to generate reliable results.

Reliable study results are necessary for the assessment of discoveries, including those from proteomics. Reliable study results are also crucial to increase the likelihood of making a successful choice of biomarker candidates for verification and subsequent validation studies, a current bottleneck for the transition to in vitro diagnostic (IVD). In this respect, a major need for improvement in proteomics appears to be accuracy of measurements, including both trueness and precision of measurement.

Deregulation of tumor angiogenesis and blockade of tumor growth in PPARbeta-deficient mice.

The peroxisome proliferator-activated receptor-beta (PPARbeta) has been implicated in tumorigenesis, but its precise role remains unclear. Here, we show that the growth of syngeneic Pparb wild-type tumors is impaired in Pparb(-/-) mice, concomitant with a diminished blood flow and an abundance of hyperplastic microvascular structures. Matrigel plugs containing pro-angiogenic growth factors harbor increased numbers of morphologically immature, proliferating endothelial cells in Pparb(-/-) mice, and retroviral transduction of Pparb triggers microvessel maturation.

Proteomic profile of mouse fibroblasts with a targeted disruption of the peroxisome proliferator activated receptor-beta/delta gene.

The peroxisome proliferator activated receptor-beta (PPARbeta) plays an essential role in lipid metabolism, immune modulation, differentiation and cell proliferation. There is also strong evidence for a function in oncogenesis and tumor vascularization, but the underlying molecular mechanisms remain elusive. In the present study, we have used fibroblasts derived from Pparb wild-type and null mice to determine by 2-DE and PMF analysis the contribution of PPARbeta to the protein profile of fibroblasts.

In vitro transformation of monocytes and dendritic cells into endothelial like cells.

Our in vitro data indicate that peripheral blood monocytes or monocyte-derived immature dendritic cells under appropriate culture conditions transdifferentiate into endothelial-like cells (ELC), which are characterized by the expression of endothelial markers and the formation of tube-like structures. Dependent on the culture conditions a mixed macrophage/endothelial or an endothelial phenotype could be induced. A similar pattern of development could be seen in CD14+ monocyte-derived ELC and ELC grown from CD34+ precursor cells or from dendritic cells generated from CD34+ cells.

Endothelial-like cells derived from human CD14 positive monocytes.

In the present study, we show that endothelial-like cells (ELCs) can develop from human CD14-positive mononuclear cells (CD14 cells) in the presence of angiogenic growth factors. The CD14 cells became loosely adherent within 24 h of culture and subsequently underwent a distinct process of morphological transformation to caudated or oval cells with eccentric nuclei. After 1 week in culture the cells showed a clear expression of endothelial cell markers, including von Willebrand factor (vWF), CD144 (VE-cadherin), CD105 (endoglin), acetylated low-density lipoprotein (AC-LDL)-receptor, CD36 (thrombospondin receptor), FLT-1, which is vascular endothelial cell growth factor (VEGF) receptor-1, and, to a weaker extent, KDR (VEGF receptor-2).

Elevated expression of endoglin, a component of the TGF-beta-receptor complex, correlates with proliferation of tumor endothelial cells.

Endoglin/CD105 is a membrane protein involved in the TGF-beta receptor signalling pathway. Endoglin expression has been reported to be selective for a few cell types, in particular endothelial cells, although a number of conflicting reports have been published. In this study, we performed a detailed analysis of endoglin expression in human lung tumors and different tumor and endothelial cell lines, employing reverse-transcriptase-polymerase-chain reaction as well as immunoblotting and immunohistochemistry using verified antibodies to endoglin.

Transition from SCLC to NSCLC phenotype is accompanied by an increased TRE-binding activity and recruitment of specific AP-1 proteins.

Transitions from small cell (SCLC) to non-small cell lung cancer (NSCLC) cells have been documented both in vitro and in vivo and are thought to be an important step during tumor progression of human small cell lung cancer towards a treatment-resistant tumor state. We have screened NSCLC and SCLC cell lines for differences in the composition of nuclear transcription factors using consensus oligonucleotide sequences (SRE, Ets, TRE, CRE, B-motif, GAS, E-box). We found NSCLC cells to exhibit significantly higher AP-1 binding activity than SCLC cells consistent with the increased expression of CD44, an AP-1 target gene.

A novel small-cell lung carcinoma-specific DNA-binding activity related to the transcription factor ap-1.

A novel TRE-binding protein complex was detected specifically in 12 out of 13 small cell lung carcinoma (SCLC) cell lines. This complex was characterised by a lower electrophoretic mobility than the 'ubiquitous' complex present in all other carcinoma cell lines analysed. As shown by UV-crosslinking and South-Western blotting, the SCLC-specific complex contains a protein with an apparent M(r) > 100 kD, which is far bigger than all Fos and Jun proteins described to date.

Mapping of functional domains in Fos and Jun proteins using epitope-specific antibodies.

A panel of epitope-specific antibodies, directed against c-Fos, c-Jun, and FosB derived oligopeptide sequences, was generated and used to study the interaction of Fos and Jun proteins and the binding of the Fos/Jun complex to the AP1-binding site (TRE). Our results strongly support results previously obtained by site-directed mutagenesis experiments. The leucine zipper is the major site of interaction between Fos and Jun.

A Fos protein containing the Jun leucine zipper forms a homodimer which binds to the AP1 binding site.

The TPA (12-O-tetradecanoyl-phorbol-13-acetate) responsive element (TRE) is recognized by the inducible transcription factor AP1, a heterodimeric complex of Fos- and Jun-protein subunits, which each contain a specific structure known as the leucine zipper through which they interact. Studies using site-directed mutagenesis have shown that a basic region adjacent to the leucine zipper in Fos is crucial for the interaction of the Fos-Jun complex with the TRE, and probably represents a site of interaction with DNA. The functionally crucial amino acids in this region are almost completely conserved between Fos and Jun (refs 6, 7 and 11; M.

Epitopic discrimination by monoclonal antibodies directed against the same alkylated nucleoside.

Epitopic specificity of three monoclonal antibodies (mAb's) (coded as ER-6, ER-3, and EM-1) was examined through the utilization of haptenic structural analogs. The binding affinity expressed by the microscopic equilibrium constant (Ki) (Yuhasz, et al., Biochemistry 26, 2334-2342 (1987] of the immunizing hapten, O6-ethyl-2'-deoxy-guanosine (*G) and eight structural analogs, were analyzed by a nitrocellulose affinity filter assay (NAFA) and radioimmunoassay (RIA) for each mAb to determine the protein-hapten interaction between the epitope and the binding cavity.

Early CT findings after interstitial radiation therapy for primary malignant brain tumors.

The CT findings after interstitial radiation therapy for brain tumors have not been extensively described. We evaluated retrospectively the CT scans of 13 patients who were treated with brachytherapy for malignant glioma. We found no typical CT appearance that differentiates recurrent tumor from radiation effect.

Thermodynamic investigation of monoclonal antibody alkylated nucleoside interaction as a model for epitope recognition on nucleic acids.

The objective of this investigation is examination of the dominant forces that govern complex formation between a series of monoclonal antibodies directed against O6-ethyl-2'-deoxyguanosine. These monoclonal antibodies (coded as ER-6, ER-3, and EM-1) provide the basis for a thermodynamic comparative evaluation of the potentially different forces that stabilize the various monoclonal antibody (mAb) alkylated nucleoside complexes. The binding affinities of ER-6, ER-3, and EM-1 are measured in terms of specific (O6-ethyl-2'-deoxyguanosine, or O6-EtdGuo) and nonspecific (O6-methyl-2'-deoxyguanosine, or O6-MedGuo) antigens, under a variety of experimental conditions, including pH, sodium chloride addition, 1-propanol addition, and temperature, via a nitrocellulose affinity filter assay.

Isolation and structural analysis of a biologically active chicken c-fos cDNA: identification of evolutionarily conserved domains in fos protein.

To identify functionally important domains in the fos gene product we have studied the evolutionary divergence between chicken and mammalian fos proteins. A cDNA containing the entire chicken c-fos coding region was isolated and its nucleotide sequence determined. The deduced 367-amino acid sequence was compared to that of the mouse and human proteins.

Monoclonal antibody-based immunoanalytical methods for detection of carcinogen-modified DNA components.

Hybridoma cell lines secreting monoclonal antibodies (Mab) directed against the products formed by reaction of alkylating N-nitroso carcinogens with DNA have been established by fusion of rat or mouse myeloma cells, respectively, with spleen cells of rats or mice immunized either with conjugates of various alkyl-ribonucleosides with suitable carrier proteins, or with alkylated DNA electrostatically complexed to carrier proteins. Due to their high affinity and specificity, some of these Mab detect very low amounts of the respective alkyl-deoxynucleosides (e.g.

Quantitation and visualization of alkyl deoxynucleosides in the DNA of mammalian cells by monoclonal antibodies.

Conventional radiochromatographic procedures for the quantitation of carcinogen/mutagen-induced structural DNA modifications have a number of limitations. Thus, these techniques for the most part require application of radioactively labeled carcinogens and the use of relatively large amounts of DNA for analysis at low levels of DNA modification. Radiochromatographic methods also preclude analyses at the level of single cells and DNA molecules.

Immuno-slot-blot: a highly sensitive immunoassay for the quantitation of carcinogen-modified nucleosides in DNA.

We have established a highly sensitive immuno-slot-blot (ISB) procedure that can be routinely applied for detection and quantitation of any heat- or alkali-stable structural DNA modification (caused by carcinogens or mutagens, for example) for which a specific (monoclonal) antibody (MAB) is available. The essential step in this assay is the immobilization on nitrocellulose filters of the structurally modified DNA in its single-stranded form. The immobilized DNA is first reacted with an MAB specifically directed against a particular modified DNA component (e.

High-affinity monoclonal antibodies for the specific recognition and quantification of deoxynucleosides structurally modified by N-nitroso compounds.

The applicability of conventional radiochromatographic procedures to the detection and quantification of specific, carcinogen-induced structural modifications in the DNA of mammalian cells is limited by the necessity of using radioactively labelled agents and by the relatively large amounts of DNA required for analysis of low levels of DNA modification. Recently developed immunoanalytical methods have improved this situation considerably. High-affinity monoclonal antibodies (MAB), in combination with radio- and enzyme-immunoassays, now permit the sensitive detection of alkyldeoxynucleosides in small samples of hydrolysed DNA from tissues and cultured cells exposed previously to non-radioactive (e.

Immunological methods for detection of carcinogen-DNA adducts.

Considerable advances have been made during recent years, with regard to the detection and quantification of carcinogen- or mutagen-induced, structural modifications in the DNA of mammalian cells, by the introduction of immunoanalytical methods, in particular in conjunction with monoclonal antibodies (Mab). Antibodies are characterized by an outstanding capacity for the specific recognition of subtle alterations of molecular structure. They can, therefore, be used as sensitive detection probes in assays for DNA modifications caused by low levels of DNA-reactive (e.

Immunological detection and quantification of carcinogen-modified DNA components.

Both the detection and quantitation of defined reaction products of chemical carcinogens with DNA, especially at low levels of DNA modification and in small numbers of target cells, require highly sensitive analytical techniques. The sensitivity of radiochromatographic methods is limited by the specific radioactivity of the respective carcinogens and by the relatively large amounts of DNA required for analysis. Furthermore, their application is restricted to experiments with radiolabelled carcinogens synthesized in the laboratory.