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Wichtiger Teilerfolg in der Gentherapie : Interview mit Dr. Marion Gabriele Ott und Dr. Manuel Grez
(2006)
Die Septische Granulomatose (CGD) ist eine seltene Erkrankung, die auf einem genetischen Defekt bestimmter weißer Blutzellen beruht, die darauf spezialisiert sind, in den Körper eingedrungene Pilze und Bakterien aufzuspüren und zu vernichten. Frankfurter Ärzten und Wissenschaftlern um Prof. Dr. Dieter Hoelzer vom Klinikum der Johann Wolfgang Goethe-Universität und Dr. Manuel Grez vom Chemotherapeutischen Forschungsinstitut Georg-Speyer-Haus gelang es, eine intakte Kopie des defekten Gens in Blutstammzellen von zwei erwachsenen CGD-Patienten einzuschleusen und so die Funktion der Fresszellen teilweise wieder herzustellen. Eine vollständige Heilung gelang jedoch nicht – ein Patient verstarb zwei Jahre nach der zunächst erfolgreichen Behandlung an seiner Grunderkrankung. Im Gespräch mit Dr. Anne Hardy berichten Dr. Marion Gabriele Ott (Arbeitsgruppe Hoelzer) und Dr. Manuel Grez (Georg-Speyer-Haus) über die Höhen und Tiefen ihrer gentherapeutischen Forschung.
Oral presentations Background: We selected peptide ligands for the HIV-1 packaging signal PSI by screening phage displayed peptide libraries. Peptide ligands were optimized by screening spot synthesis peptide membranes. The aim of this study is the functional characterization of these peptide ligands with respect to inhibition of HIV-1 replication. Methods: Phage displayed peptide libraries were screened with PSI-RNA structures. The Trp-rich peptide motifs were optimized for specific binding on spot synthesis peptide membranes. The best binding peptide was expressed intracellularly in fusion with RFP or linked to a protein transduction domain (PTD) for intracellular delivery. The effects on virion production were analyzed using pseudotyped lentiviral particles. Results: After positive and negative selection rounds, phages binding specifically to PSI-RNA were identified by ELISA. Peptide inserts contained conserved motifs of aromatic amino acids known to be implicated in binding of PSI-RNA by the natural Gag ligand. The filter assay identified HKWPWW as the best binding ligand for PSI-RNA, which is delivered into several cell lines by addition of a PTD. Compared to a control peptide, the HKWPWW peptide inhibited HIV-1 replication as deduced from reduced titers of culture supernatants. As HKWPWW also binds to the TAR-RNA like the natural nucleocapsid PSI-RNA ligand, the effect on Tat-TAR inhibition will also be analyzed. Currently T-cell lines are established which stably express HKWPWW as well as a control peptide, which will be infected with HIV-1 to monitor the ability of HKWPWW to inhibit wild type HIV-1 replication. Conclusion: The selection of a peptide ligand for PSI-RNA able to inhibit HIV-1 replication proves the suitability of the phage display technology for the selection of peptides binding to RNA-structures. This enables the indentification of peptides serving as leads to interfere with additional targets in the HIV-1 replication cycle.