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- CD23 (3) (remove)
The responsiveness to IL-4 with and without costimulation with anti-IgM antibodies or phorbolester was studied in 35 cases of low grade non-Hodgkin Iymphoma by analyzing enhancement of CD23 and HLA dass li expression. The predominant phenotype responds directly to IL-4. Separate differentiation states can be distinguished according to coordinate or differential upregulation of CD23 and HLA dass II molecules by IL-4 alone, and differences in responsiveness to anti-IgM antibodies. A particular subgroup of B-lymphoma cells defines a separate stage of B-eeil differentiation. They fail to express high affinity binding sites for IL-4 and accordingly do not respond to IL-4- mediated signals. Cross-linking membrane lgM receptors or direct activation of protein kinase C via phorbolester induces IL-4 receptor expression and subsequent IL-4 reactivity.
Die Expression und Regulation des Gens für den niedrig affinen Immunglobulin E-Rezeptor, von welchem beim Menschen zwei Isoformen existieren, unterscheidet sich deutlich zwischen B-Lymphozyten der chronisch lymphatischen Leukämie und normalen B-Zellen. Eine Untersuchung auf Promotorebene erscheint daher interessant; da der Promotor der Isoform b schon relativ gut charakterisiert ist, wurde in dieser Arbeit der CD23a-Core-Promotor näher betrachtet. Ein besonderes Augenmerk galt dabei putativen Bindungsstellen für STAT6. Das Bindungsverhalten von Transkriptionsfaktoren an Promotor-DNA wurde mit Gel-Retardierungsexperimenten (EMSA) untersucht. Hierzu wurden CD23a-Core-Promotor-Oligonukleotide zusammen mit Kernproteinextrakten aus Stimulationsansätzen von B-CLL- und normalen B-Zellen mit IL-4, IFN-g und PMA genutzt. Die EMSA-Experimente zeigten trotz unterschiedlicher Stimulationsansätze ein sich wiederholendes Bandenmuster, sodass die DNA-Protein-Interaktion auf Core-Promotorebene keine ausreichende Erklärung für die differentielle Regulation der Genexpression lieferte. Allerdings zeigten analoge EMSA-Versuche mit Kernextrakten einer EBV-transformierten Zelllinie ein leicht verändertes Bandenmuster, was auf ein verändertes Profil an Transkriptionsfaktoren am CD23a-Core-Promotor nach EBV-Transformation hindeuten kann. Eine weitere Analyse der Core-Promotorregion mittels der DNase-I-Footprint-Technik wurde durch die Klonierung geeigneter Vektoren und Etablierung einer Positivkontrolle vorbereitet. Da IL-4 den Hauptregulator auch der CD23a-Expression darstellt, war ein zentraler Teil der Arbeit die Charakterisierung von STAT6-Bindungsstellen im CD23a-Core-Promotor. Durch Sequenzanalyse wurden 2 putative STAT6-Bindungsstellen identifiziert. Mit Hilfe von Kompetitionsexperimenten konnte für eine der beiden Stellen (Nukleotidsequenz TAC CTGA GAA, Position 77-86 im CD23a-Core-Promotor) eine STAT6-Bindungsfähigkeit nachgewiesen werden; diese Bindungsstelle zeigte im Vergleich zu ihrem schon bekannten Gegenpart im CD23b-Promotor ein etwas schwächeres Bindungsvermögen für STAT6.Entscheidend für die Regulation der CD23-Expression sind wahrscheinlich das Zusammenspiel von STAT6 mit anderen Transkriptionsfaktoren wie Krox20 und NF-kB sowie alternative Signaltransduktionswege; auch Proto-Onkogene wie bcl-6 und Notch2 sind bei der Expression von CD23 von Bedeutung. Deren Rolle für die Pathogenese der B-CLL muss noch untersucht werden.
Two isoforms of human CD23 (CD23a and CD23b) have been described. They differ by only 6-7 residues in the N-terminal cytoplasmic tail. CD23a is restrictively expressed on B-cells while CD23b is inducible on B-cells, as well as monocytes, eosinophils, macrophages and a variety of other cell types, after IL-4 stimulation. The two isoforms seems to have different functions. CD23a appears to be the isoform associated with endocytosis of IgE immune complexes and mediating antigen presentation on B-cells. CD23b has a phagocytosis motif and seems to be involved in the phagocytosis of IgE-coated particles, cytokine release and the generation of superoxides. Previous studies indicate that the two isoforms connect to different signal transduction pathways. Comparing the cells that express only one or both CD23 isoforms suggests that CD23b is involved in upregulating cAMP and iNOS, whereas CD23a mediates an increase in intracellular calcium. In the main part of the study we investigated how the CD23a B-cell specific expression is regulated. Pax-5 is a B-cell restricted transcription factor with an essential role in early and late B-cell development. Putative Pax-5 binding sites have been predicted in the CD23a proximal promoter. Analyses of the CD23a promoter revealed three putative Pax-5 binding sites with more than 50% homology to the consensus sequence. One of these sites, named CD23-1 can compete a high affinity Pax-5 binding site or can directly bind Pax-5 protein in electrophoretic mobility shift assays. Introducing mutations into this site abrogates the binding. A different approach, in which overlapping peptides covering the length of the CD23a promoter were tested in competition assays against a high affinity binding site, also revealed CD23-1 as the only site that directly binds Pax-5 protein. Expression of Pax-5 in 293 cells resulted in a 7-fold activation of a CD23a core promoter construct. Co-transfection together with STAT6 showed that Pax-5 cooperates with this transcription factor in enhancing the level of transcription of a CD23a extended promoter construct. Most importantly, ectopic expression of Pax-5 in the monocytic cell line U-937 that regularly expresses only the CD23b isoform enabled a significant CD23a expression after stimulation with IL-4 and PMA. Our results suggest that Pax-5 is a key regulator of the B-cell restricted expression of the CD23a isoform. In the second part of the project, we used a yeast two-hybrid system (CytoTrapTM from Stratagene) in order to look for cytoplasmic interaction partners for the CD23 receptor. The system was established in order to reach a high efficiency of transformation and different bait vector constructs were made. The screening was performed using a human spleen library cloned in the target vector of the system. The first bait constructs used (pSosCD23a and pSosCD23b) expressed the very short (22 amino acids) cytoplasmic tails of the isoforms at the C-terminal end of the fusion protein (human SOS). Improved bait constructs, (pSosCD23a+Linker and pSos CD23b+Linker) expressed the cytoplasmic tail of CD23a/b at the N-terminal side of the human SOS and had in consequence the N-terminal part free as a bait, as it occurs in vivo. A flexible linker region separated the fusion proteins in order to make the small amino acid bait chain more obvious. Approximately three million library clones were screened with these various constructs. No “true positive” interaction was detected. A relatively high number of “false positive” clones were obtained and checked in another two-hybrid system. A new bait construct, in which the tyrosine residue in the cytoplasmic tail of CD23a was replaced by a glutamic acid residue will be used for future screening. The system was also used in order to test the interaction between CD23 and p59fyn, a member of the Src family of protein kinases that was mentioned to associate with CD23a. No interaction was detected by using the CytoTrap two-hybrid system. In conclusion, the key result of the study demonstrates that Pax-5 is a main regulator of the B-cell specific expression of the CD23a isoform. In addition, a two-hybrid system was established and employed in order to look for cytoplasmic interaction partners for CD23.