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Rezeptorkinasen spielen eine wichtige Rolle in der Kommunikation von Zellen mit ihrer Umgebung und sind möglicherweise an hormonellen Kommunikations- Mechanismen zwischen parasitären Helminthen und ihren Säugetier- Wirten beteiligt. In dieser Arbeit wurden erstmals eine Rezeptor- Tyrosinkinase der EGF Familie, eine Serin- Threoninkinase der TGF- Familie sowie ein intrazellulärer Signaltransduktionsfaktor der Smad- Familie aus dem Fuchsbandwurm Echinococcus multilocularis charakterisiert. Mittels degenerativer PCR und 3´/ 5´-RACE Methoden konnten drei E. multilocularis cDNAs identifiziert und vollständig charakterisiert werden, welche für (i) eine Tyrosinkinase (EmRTK1) der EGF Rezeptor- Familie (5160 bp cDNA, 1564 Aminosäuren); (ii) eine Serin – Threoninkinase (EmRSK1) der TGF-Rezeptor - Familie (1892 bp cDNA, 543 Aminosäuren); und (iii) einen intrazellulären Signaltransduktor der Smad Familie (1530 bp cDNA, 318Aminosäuren) kodieren. Anhand von Sequenzvergleichen der abgeleiteten Aminosäuresequenzen zeigten alle drei Faktoren für die jeweilige Proteinfamilie typische Domänenstrukturen und hohe Homologien zu bereits bekannten Faktoren aus Säugern. Der zugehörige chromosomale Locus wurde in allen drei Fällen vollständig charakterisiert. Mit Hilfe von RT-PCR Analysen konnte die Expression von emrtk-1, emrsk-1 und emsmadA in den Larvenstadien Metacestode und Protoskolex während der Infektion des Zwischenwirtes nachgewiesen werden. Anhand dieser Daten kann vermutet werden, dass die beschriebenen Rezeptoren und EmSmadA eine wichtige Rolle in der Entwicklung des Parasiten spielen und möglicherweise an Mechanismen der Wirt- Parasit Interaktion während der alveolären Echinokokkose beteiligt sind.
Transforming-Growth-Factor-beta1 (TGF-b1) is a multifunctional cytokine that regulates cell growth and differentiation in many types of cells. TGF-b1 is especially known to exert a variety of regulatory functions in the immune system, such as T cell differentiation and T cell function. Signal transduction of TGF-b1 is mediated by phosphorylation of receptorassociated Smad proteins (R-Smads). R-Smads are phosphorylated by the activated type I receptor, which is itself phosphorylated by the high affinity type II receptor upon ligand binding. The phosphorylated R-Smads then associate with Co-Smads. Heterooligomers of R- and Co-Smads translocate into the nucleus where they regulate transcription of target genes in concert with other transcription factors such as CBP/p300 or AP-1. Recent findings suggest that the pleiotropic effects of TGF-b1 are conferred by crosstalks to other signal transduction pathways such as the MAP-kinases or the STAT-pathway. Here we describe the effect of long-term exposure to TGF-b1 on the effector function of differentially stimulated primary murine splenocytes and purified primary murine CD8+ cytotoxic T cells. Long-term exposure to TGF-b1 results in non-responsiveness to TGF-b1- induced Smad2 phosphorylation. This is seen either by no phosphorylation or sustained phosphorylation of Smad2. Furthermore, we observed a strong correlation between sustained Smad2 phosphorylation and resistance to TGF-b1 mediated growth inhibition. In contrast, splenocyte cultures strongly growth inhibited by TGF-b1 showed no Smad2 phosphorylation. Lytic activity of these cultures, however, was found to be suppressed regardless of proliferation properties and Smad2 phosphorylation pattern. We also describe that a functional MEK-1 pathway is a prerequisite for rendering murine splenocytes unresponsive to TGF-b1 mediated growth inhibition, and that inhibition of the MEK-1 cascade alters the Smad2 phosphorylation pattern. In addition, we show that resistance to TGF-b1 mediated growth inhibition correlates with the activation of the JNK pathway. However, the resistant phenotype was found unable to be reverted upon administration of exogeneous IFNg and/or aCD28 antibody. In human or mouse T cell lines, however, the described correlation between the type of stimulation and TGF-b growth resistance or growth sensitivity is not present. Thus, this correlation is specific for primary T cells. We also cloned a chimeric dominantnegative TGF-b receptor which is coupled to a suicide gene, in order to render T cells resistant to TGF-b mediated effects.These findings shed light on how TGF-b1 mediates its immunosuppressive role, and may help to gain knowledge of averting these TGF-b1 effects in the course of tumor therapy.