43 search hits
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Genetically modified natural killer cells specifically recognizing the tumor-associated antigens ErbB2/HER2 and EpCAM
(2004)
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Christoph Uherek
Tina Müller
Torsten Tonn
Barbara Uherek
Hans-Georg Klingemann
Winfried S. Wels
- The continuously growing natural killer (NK) cell line NK-92 is highly cytotoxic against malignant cells of various origin without affecting normal human cells. Based on this selectivity, the potential of NK-92 cells for adoptive therapy is currently being investigated in phase I clinical studies. To further enhance the antitumoral activity of NK-92 cells and expand the range of tumor entities suitable for NK-92-based therapies, here by transduction with retroviral vectors we have generated genetically modified NK-92 cells expressing chimeric antigen receptors specific either for the tumor-associated ErbB2 (HER2/neu) antigen or the human Epithelial Cell Adhesion Molecule (Ep-CAM). Both antigens are overexpressed by many tumors of epithelial origin. The chimeric antigen receptors consist of either the ErbB2 specific scFv(FRP5) antibody fragment or the Ep-CAM specific scFv(MOC31), a flexible hinge region derived from CD8, and transmembrane and intracellular regions of the CD3 zeta chain. Transduced NK-92-scFv(FRP5)-zeta or NK-92-scFv(MOC31)-zeta cells express high levels of the fusion proteins on the cell surface as determined by FACS analysis. In europium release assays no difference in cytotoxic activity of NK-92 and transduced NK-92 cells towards ErbB2 or Ep-CAM negative targets was found. However, even at low effector to target ratios transduced NK-92 cells specifically and efficiently lysed established ErbB2 or Ep-CAM expressing tumor cells that were completely resistant to cytolytic activity of parental NK-92 cells. Similarly, ErbB2-positive primary breast cancer cells isolated from pleural effusions of patients with recurrent disease were selectively killed by NK-92-scFv(FRP5)-zeta. In an in vivo model in immunodeficient mice treatment with retargeted NK-92-scFv(FRP5)-zeta, but not parental NK-92 cells resulted in markedly delayed growth of ErbB2 transformed cancer cells. These results demonstrate that efficient retargeting of NK-92 cytotoxicity can be achieved, and might allow the generation of potent cell-based therapeutics for the treatment of ErbB2 and Ep-CAM expressing malignancies. This therapeutic approach might be applicable for a large variety of different cancers where suitable cell surface antigens have been identified.
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Phage display selection of HIV specific conserved mimotopes with IgG from long-term non-progressors
(2005)
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Michael Humber
Sascha Antoni
Andreas Schreiber
Berta Rodes
Vicente Soriano
Matthias Dittmar
Ursula Dietrich
- Poster presentation Background The aim of this study is to identify conserved epitopes of HIV-1 neutralizing antibodies in polyclonal plasma from LTNP to finally derive vaccine candidates. Materials and methods The presence of neutralizing antibodies in 9 LTNP sera was proved by in vitro neutralization assays. Phage displayed peptide libraries were screened with LTNP IgG. HIV-specific mimotopes were analyzed for homology to the gp120 structure by a software (3DEX) especially developed for this purpose. Mice were immunized with interesting phages and their sera were analyzed for neutralizing activities against HIV-1. Results After biopannings, between 19% and 75% HIV-specific phage clones were identified by ELISA. Mimotope sequences were identified and could be aligned by 3DEX to linear or conformational epitopes on gp120. A peptide specific immune response was detected in sera of immunized mice. The first mice sera analyzed showed neutralizing activities against HIV-1. Conclusion Mimotopes could be selected from LTNP sera that represent conformational epitopes on gp120. Those ones inducing neutralizing antibodies upon immunization potentially are suited to derive vaccine candidates.
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Correction: Phase I clinical study of the recombinant antibody-toxin scFv(FRP5)-ETA specific for the ErbB2/HER2 receptor in patients with advanced solid malignomas
(2006)
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Gunter von Minckwitz
Sebastian Harder
Sascha Hövelmann
Elke Jäger
Salah-Eddin Al-Batran
Sibylle Loibl
Akin Atmaca
Christian Cimpoiasu
Antje Neumann
Aklil Abera
Alexander Knuth
Manfred Kaufmann
Dirk Jäger
Alexander B. Maurer
Winfried S. Wels
- Following publication of the data presented by von Minckwitz and colleagues [1] it has been brought to our attention that some patients should be scored differently. Stable disease was seen in three of the eighteen patients instead of two of the eighteen patients: one patient with transitional cell carcinoma treated at 4 micro g/kg scFv(FRP5)-ETA per day, and two breast cancer patients treated at 4 and 12.5 micro g/kg scFv(FRP5)-ETA per day. Disease progression occured in 9 of the eighteen patients evaluated (see corrected Table 2 overleaf). This does not affect the conclusions of our study. In addition we would like to correct the following errors: patient IDs for patients U01 and U02 in the original Table 2 were interchanged. In addition, patient N03 had a grade 3 elevation of gamma-glutamyl transferase, and not grade 2 (see corrected Table 2 overleaf). http://publikationen.ub.uni-frankfurt.de/volltexte/2005/1156/
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Optimization and antiviral analysis of peptide ligands for the HIV-1 packaging signal PSI
(2006)
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Julia Dietz
Anette Pustowka
Ajit Kaur
Joachim Koch
Sarah Mensch
Stefan Stein
Manuel Grez
Gilles Divita
Yves Mély
Harald Schwalbe
Ursula Dietrich
- 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.
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Epigenetic aberrations and cancer
(2006)
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Miryam Ducasse
Mark A. Brown
- The correlation between epigenetic aberrations and disease underscores the importance of epigenetic mechanisms. Here, we review recent findings regarding chromatin modifications and their relevance to cancer.
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Enzymatic and antisense effects of a specific anti-Ki-ras ribozyme in vitro and in cell culture
(1999)
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Claudio Detlef Giannini
W. Kurt Roth
Albrecht Piiper
Stefan Zeuzem
- Due to their mode of action, ribozymes show antisense effects in addition to their specific cleavage activity. In the present study we investigated whether a hammerhead ribozyme is capable of cleaving mutated Ki-ras mRNA in a pancreatic carcinoma cell line and whether antisense effects contribute to the activity of the ribozyme. A 2[prime]-O-allyl modified hammerhead ribozyme was designed to cleave specifically the mutated form of the Ki-ras mRNA (GUU motif in codon 12). The activity was monitored by RT-PCR on Ki-ras RNA expression by determination of the relative amount of wild type to mutant Ki-ras mRNA, by 5-bromo-2[prime]-deoxy-uridine incorporation on cell proliferation and by colony formation in soft agar on malignancy in the human pancreatic adenocarcinoma cell line CFPAC-1, which is heterozygous for the Ki-ras mutation. A catalytically inactive ribozyme was used as control to differentiate between antisense and cleavage activity and a ribozyme with random guide sequences as negative control. The catalytically active anti-Ki-ras ribozyme was at least 2-fold more potent in decreasing cellular Ki-ras mRNA levels, inhibiting cell proliferation and colony formation in soft agar than the catalytically inactive ribozyme. The catalytically active anti-Ki-ras ribozyme, but not the catalytically inactive or random ribozyme, increased the ratio of wild type to mutated Ki-ras mRNA in CFPAC-1 cells. In conclusion, both cleavage activity and antisense effects contribute to the activity of the catalytically active anti-Ki-ras hammerhead ribozyme. Specific ribozymes might be useful in the treatment of pancreatic carcinomas containing an oncogenic GTT mutation in codon 12 of the Ki-ras gene.
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Assessment of HIV-1 entry inhibitors by MLV/HIV-1 pseudotyped vectors
(2005)
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Sandra Siegert
Sonja Thaler
Ralf Wagner
Barbara S. Schnierle
- Background: Murine leukemia virus (MLV) vector particles can be pseudotyped with a truncated variant of the human immunodeficiency virus type 1 (HIV-1) envelope protein (Env) and selectively target gene transfer to human cells expressing both CD4 and an appropriate co-receptor. Vector transduction mimics the HIV-1 entry process and is therefore a safe tool to study HIV-1 entry. Results: Using FLY cells, which express the MLV gag and pol genes, we generated stable producer cell lines that express the HIV-1 envelope gene and a retroviral vector genome encoding the green fluorescent protein (GFP). The BH10 or 89.6 P HIV-1 Env was expressed from a bicistronic vector which allowed the rapid selection of stable cell lines. A codon-usage-optimized synthetic env gene permitted high, Rev-independent Env expression. Vectors generated by these producer cells displayed different sensitivity to entry inhibitors. Conclusion: These data illustrate that MLV/HIV-1 vectors are a valuable screening system for entry inhibitors or neutralizing antisera generated by vaccines.
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Funktionelle Charakterisierung von Peptidliganden für das komplexe HIV-1-RNA-Verpackungssignal PSI
(2008)
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Julia Dietz
- Im Laufe der vergangenen Jahre hat die Identifizierung von Peptidleitstrukturen in der Wirkstoffentwicklung zunehmend an Bedeutung gewonnen. Die Phage Display Technologie ist eine Methode, welche zur Selektion von inhibitorischen Peptiden weit verbreitet ist. Prinzipiell eignet sich dieser Ansatz auch für die Suche nach neuen Leitstrukturen für die Therapie der HIV-Infektion, welche in hochspezifische und -regulierte Schritte im HIV-Replikationszyklus eingreifen sollen. Bei der Verpackung viraler RNA in neu entstehende Virionen handelt es sich um einen Prozess, welcher auf der gezielten Erkennung der dreidimensionalen Struktur der PSI-Region am 5'-Ende ungespleißter, viraler RNA durch die NCp7-Domäne des Gagp55-Vorläuferproteins basiert. Darüber hinaus partizipiert das NCp7-Protein noch an der Reversen Transkription der HIV-RNA sowie an der Integration proviraler DNA und spielt somit eine zentrale Rolle im HIV-1 Replikationszyklus. In vorangegangenen Arbeiten konnten wir mittels der Phage Display Technologie Peptidliganden für die HIV-1 PSI-RNA selektieren, welche die PSI-RNA-NCp7-Interaktion hemmten und in Folge dessen die Verpackung viraler RNA verhindern sollten. Die Bindung der identifizierten tryptophanreichen Peptide an die PSI-RNA konnte zwar zum Teil in vitro mit NCp7 kompetitiert werden, jedoch wiesen die Peptide eine relativ geringe Affinität für die PSI-RNA auf. Im Vordergrund der vorliegenden Arbeit stand nach Optimierung der Affinität eine umfassende funktionelle Charakterisierung der Peptide hinsichtlich ihrer antiviralen Aktivität in vitro. Zunächst gelang es mittels Spot-Synthese-Membranen die Affinität der PSI-RNA-bindenden Peptide um etwa das 30-fache zu verbessern. Der KD-Wert des optimierten HKWPWW-Peptids lag bei 1,1 µM für ein Teilelement der PSI-RNA, das allein über Verpackungsaktivitäten verfügt. Die folgende Analyse der Bindungseigenschaften des HKWPWW-Peptids an die PSI-RNA über NMR und Fluoreszenz-Spektroskopie offenbarte, dass das Peptid über die hydrophoben Aminosäuren an eine charakteristische Schleifenregion in der Sekundärstruktur der PSI-RNA bindet, ähnlich wie der natürliche Ligand NCp7. Gestützt auf diese Ergebnisse, wurde im Hauptteil des Projekts untersucht, ob das HKWPWW-Peptid in der Lage ist, die Verpackung viraler RNA in HI-Virionen zu hemmen. Hierfür erfolgte die Etablierung diverser Testsysteme, welche die intrazelluläre Expression des Peptids ermöglichten. Die Expression von HKWPWW in Fusion mit RFP in Pseudoviren-produzierenden Zellen über transiente Transfektion führte in der höchsten getesteten DNA-Konzentration (2,5 µg) zu einer 95%igen Reduktion des infektiösen Titers. Dieser inhibitorische Effekt war spezifisch für lentivirale Pseudoviren, da die Produktion gammaretroviraler Pseudoviren nicht durch die Anwesenheit des Peptids beeinflusst wurde. Mittels einer stabilen HKWPWW-exprimierenden T-Zelllinie gelang es nachzuweisen, dass das Peptid sogar in der Lage ist, replikationskompetentes HIV über einen Zeitraum von fünf Tagen zu hemmen. Die Synthese des HKWPWW-Peptids in Fusion mit einer Proteintransduktionsdomäne ermöglichte die direkte Behandlung von HIV-infizierten Zellen und führte zu einer verminderten Freisetzung infektiöser HI-Viren in die Zellkulturüberstände. Dabei lagen die IC50- und IC90-Werte des HKWPWW-Peptids nach zweimaliger Peptidzugabe bei 5, 7 bzw. 28,6 µM. Eine in der Literatur oftmals beschriebene Beobachtung ist, dass bei einer reinen Hemmung der HIV-Verpackung Viren entstehen, welche keine virale RNA enthalten. Das Phänomen war in Anwesenheit des HKWPWW-Peptids wenig ausgeprägt wie Korrelationen von p24-Antigen-ELISA und die Quantifizierung viraler RNA in Viruspartikeln zeigten. Diese Gegebenheit sowie das Wissen über die mannigfaltigen Funktionen des NCp7-Proteins im HIV-Replikationszyklus ließen vermuten, dass HKWPWW noch zusätzlich andere Schritte im HIV-Replikationszyklus hemmen könnte. Unterstützt wurde diese Annahme dadurch, dass HKWPWW Ähnlichkeiten zu der hydrophoben Plattform von NCp7 aufweist, welche essentiell für die Verpackung viraler RNA sowie die Reverse Transkription ist. Damit in Einklang steht, das neben einer Bindung an die PSI-RNA auch eine schwächere Interaktion des HKWPWW-Peptids mit den viralen TAR- und PBS-Strukturen nachgewiesen werden konnte. Die auch beobachtete Hemmung der frühen HIV-Replikationsschritte durch HKWPWW könnte somit mit einer möglichen Hemmung der Transkription viraler Gene, der Reversen Transkription oder Integration erklärt werden. Jedoch zeigte die elektronenmikroskopische Analyse, dass nicht nur weniger Viren in Anwesenheit des HKWPWW-Peptids entstehen, sondern dass diese zum Teil einen weniger kondensierten Kern aufweisen. Dies kann als ein Anhaltspunkt angesehen werden, dass HKWPWW tatsächlich auch auf der Ebene der RNA-Verpackung bzw. der viralen Partikelentstehung einen hemmenden Effekt ausübt. Somit resultiert die beobachtete antivirale Aktivität des HKWPWW-Peptids vermutlich aus kombinierten inhibitorischen Effekten auf mehreren Ebenen der HIV-Replikation.
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Bispecific costimulatory molecules for activation of tumor-killing lymphocytes
(2004)
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Robert Weth
Markus Biburger
Winfried S. Wels
- The receptor tyrosine kinase ErbB2 (HER2) is overexpressed in multiple human tumors of epithelial origin. High ErbB2 expression is functionally involved in tumorigenesis and correlates with poor clinical prognosis. For immunotherapy of ErbB2 expressing tumors, we developed a strategy to supply the tumor cells with costimulatory activity. A bispecific fusion protein was constructed (BIg5), containing the IgV-like domain of huCD86, the CH2/CH3 domain of huIgG1 and the ErbB2-specific single chain antibody fragment scFv(FRP5). A similar fusion protein lacking the CD86 domain (Ig5) was used as a control. Upon binding of BIg5 to ErbB2 on tumor cells, these cells display CD86 on their surface and thus can deliver costimulatory signals for T-cell activation. In addition, NK cells could be activated by CD86 binding to CD28. BIg5 is secreted by eukaryotic cells as a homodimer with increased stability compared to monomers and possibly enhanced costimulatory activity due to crosslinking of CD28 on effector cells. By FACS analysis, specific binding of the scFv(FRP5) domain to ErbB2 as well as CD86 IgV binding to CTLA-4 could be demonstrated. Together with anti-CD3 antibody, BIg5 stimulates proliferation of human CD2-purified lymphocytes in vitro. After binding to ErbB2 on murine Renca-lacZ/ErbB2 tumor cells, about 50% of initially bound BIg5 is still present on the cell surface after 4 hours. For delivery of chimeric fusion proteins in vivo, we used syngeneic, stably transfected HC11 mammary epithelial cells continuously secreting the proteins. Inoculation of these bystander cells close to subcutaneously growing Renca-lacZ/ErbB2 tumors should provide a long-lasting source to achieve high local concentrations of BIg5 at the tumor site. In vivo HC11-BIg5 cells proved to be non-tumorigenic and secreted BIg5 for several weeks, causing a strong anti-BIg5 antibody response. Treatment of established Renca-lacZ/ErbB2 or ErbB2-negative Renca-lacZ tumors by peritumoral inoculation of either HC11-BIg5 or HC11-Ig5 cells led to rejection of all Renca-lacZ/ErbB2, but none of the Renca-lacZ tumors. HC11neo control cells had no effect on tumor growth. Rejection of ErbB2+ tumors led to long-term protection also against subsequent challenge with intravenously injected ErbB2- tumor cells. Intraperitoneal injection of bystander cells secreting the fusion proteins did not lead to tumor regression suggesting that high local concentrations at the tumor site are necessary to target ErbB2 on tumor cells and to overcome elimination of BIg5 or Ig5 by neutralizing antibodies. The CD86 IgV domain of BIg5 did not play a major role in the observed antitumoral immune response suggesting NK-cell mediated ADCC as the initial effector mechanism followed by activation of tumor specific T cells. Targeting of ErbB2 on tumor cells with antibody fusion proteins that interact specifically with the host immune system could be an efficient and specific approach for therapy of solid ErbB2+ tumors.
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Phase I clinical study of the recombinant antibody toxin scFv(FRP5)-ETA specific for the ErbB2/HER2 receptor in patients with advanced solid malignomas
(2005)
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Gunter von Minckwitz
Sebastian Harder
Sascha Hövelmann
Elke Jäger
Salah-Eddin Al-Batran
Sibylle Loibl
Akin Atmaca
Christian Cimpoiasu
Antje Neumann
Aklil Abera
Alexander Knuth
Manfred Kaufmann
Dirk Jäger
Alexander B. Maurer
Winfried S. Wels
- Introduction: ScFv(FRP5)-ETA is a recombinant antibody toxin with binding specificity for ErbB2 (HER2). It consists of an N-terminal single-chain antibody fragment (scFv), genetically linked to truncated Pseudomonas exotoxin A (ETA). Potent antitumoral activity of scFv(FRP5)-ETA against ErbB2-overexpressing tumor cells was previously demonstrated in vitro and in animal models. Here we report the first systemic application of scFv(FRP5)-ETA in human cancer patients. Methods: We have performed a phase I dose-finding study, with the objective to assess the maximum tolerated dose and the dose-limiting toxicity of intravenously injected scFv(FRP5)-ETA. Eighteen patients suffering from ErbB2-expressing metastatic breast cancers, prostate cancers, head and neck cancer, non small cell lung cancer, or transitional cell carcinoma were treated. Dose levels of 2, 4, 10, 12.5, and 20 μg/kg scFv(FRP5)-ETA were administered as five daily infusions each for two consecutive weeks. Results: No hematologic, renal, and/or cardiovascular toxicities were noted in any of the patients treated. However, transient elevation of liver enzymes was observed, and considered dose limiting, in one of six patients at the maximum tolerated dose of 12.5 μg/kg, and in two of three patients at 20 μg/kg. Fifteen minutes after injection, peak concentrations of more than 100 ng/ml scFv(FRP5)-ETA were obtained at a dose of 10 μg/kg, indicating that predicted therapeutic levels of the recombinant protein can be applied without inducing toxic side effects. Induction of antibodies against scFv(FRP5)-ETA was observed 8 days after initiation of therapy in 13 patients investigated, but only in five of these patients could neutralizing activity be detected. Two patients showed stable disease and in three patients clinical signs of activity in terms of signs and symptoms were observed (all treated at doses ≥ 10 μg/kg). Disease progression occurred in 11 of the patients. Conclusion: Our results demonstrate that systemic therapy with scFv(FRP5)-ETA can be safely administered up to a maximum tolerated dose of 12.5 μg/kg in patients with ErbB2-expressing tumors, justifying further clinical development.
