TY - JOUR A1 - Langenhorst, Daniela A1 - Tabares, Paula A1 - Gulde, Tobias A1 - Becklund, Bryan R. A1 - Berr, Susanne A1 - Surh, Charles D. A1 - Beyersdorf, Niklas A1 - Hünig, Thomas T1 - Self-recognition sensitizes mouse and human regulatory T cells to low-dose CD28 superagonist stimulation JF - Frontiers in Immunology N2 - In rodents, low doses of CD28-specific superagonistic monoclonal antibodies (CD28 superagonists, CD28SA) selectively activate regulatory T cells (Treg). This observation has recently been extended to humans, suggesting an option for the treatment of autoimmune and inflammatory diseases. However, a mechanistic explanation for this phenomenon is still lacking. Given that CD28SA amplify T cell receptor (TCR) signals, we tested the hypothesis that the weak tonic TCR signals received by conventional CD4\(^{+}\) T cells (Tconv) in the absence of cognate antigen require more CD28 signaling input for full activation than the stronger TCR signals received by self-reactive Treg. We report that in vitro, the response of mouse Treg and Tconv to CD28SA strongly depends on MHC class II expression by antigen-presenting cells. To separate the effect of tonic TCR signals from self-peptide recognition, we compared the response of wild-type Treg and Tconv to low and high CD28SA doses upon transfer into wild-type or H-2M knockout mice, which lack a self-peptide repertoire. We found that the superior response of Treg to low CD28SA doses was lost in the absence of self-peptide presentation. We also tested if potentially pathogenic autoreactive Tconv would benefit from self-recognition-induced sensitivity to CD28SA stimulation by transferring TCR transgenic OVA-specific Tconv into OVA-expressing mice and found that low-dose CD28SA application inhibited, rather than supported, their expansion, presumably due to the massive concomitant activation of Treg. Finally, we report that also in the in vitro response of human peripheral blood mononuclear cells to CD28SA, HLA II blockade interferes with the expansion of Treg by low-dose CD28SA stimulation. These results provide a rational basis for the further development of low-dose CD28SA therapy for the improvement of Treg activity. KW - D665 KW - regulatory T cells KW - self-reactivity KW - autoimmunity KW - CD28 superagonists KW - TGN1412 KW - TAB08 Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-159387 VL - 8 IS - 1985 ER - TY - JOUR A1 - Zadeh-Khorasani, Maryam A1 - Nolte, Thomas A1 - Mueller, Thomas D. A1 - Pechlivanis, Markos A1 - Rueff, Franziska A1 - Wollenberg, Andreas A1 - Fricker, Gert A1 - Wolf, Eckhard A1 - Siebeck, Matthias A1 - Gropp, Roswitha T1 - NOD-scid IL2R \(\gamma^{null}\) mice engrafted with human peripheral blood mononuclear cells as a model to test therapeutics targeting human signaling pathways JF - Journal of Translational Medicine N2 - Background: Animal models of human inflammatory diseases have limited predictive quality for human clinical trials for various reasons including species specific activation mechanisms and the immunological background of the animals which markedly differs from the genetically heterogeneous and often aged patient population. Objective: Development of an animal model allowing for testing therapeutics targeting pathways involved in the development of Atopic Dermatitis (AD) with better translatability to the patient. Methods: NOD-scid IL2R \(\gamma^{null}\) mice engrafted with human peripheral blood mononuclear cells (hPBMC) derived from patients suffering from AD and healthy volunteers were treated with IL-4 and the antagonistic IL-4 variant R121/Y124D (Pitrakinra). Levels of human (h) IgE, amount of B-, T- and plasma-cells and ratio of CD4 : CD8 positive cells served as read out for induction and inhibition of cell proliferation and hIgE secretion. Results were compared to in vitro analysis. Results: hIgE secretion was induced by IL-4 and inhibited by the IL-4 antagonist Pitrakinra in vivo when formulated with methylcellulose. B-cells proliferated in response to IL-4 in vivo; the effect was abrogated by Pitrakinra. IL-4 shifted CD4 : CD8 ratios in vitro and in vivo when hPBMC derived from healthy volunteers were used. Pitrakinra reversed the effect. Human PBMC derived from patients with AD remained inert and engrafted mice reflected the individual responses observed in vitro. Conclusion: NOD-scid IL2R \(\gamma^{null}\) mice engrafted with human PBMC reflect the immunological history of the donors and provide a complementary tool to in vitro studies. Thus, studies in this model might provide data with better translatability from bench to bedside. KW - atopic dermatitis KW - T-cells KW - rheumatoid arthritis KW - human interleukin-4 KW - TGN1412 KW - oxazolone colitis KW - cytokine release KW - expression KW - antagonists KW - responses Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-122960 SN - 1479-5876 VL - 11 IS - 4 ER - TY - THES A1 - Romer Roche, Paula Sofia T1 - Separation from self explains failure of circulating T-cells to respond to the CD28 superagonist TGN1412 T1 - Verlust der "Selbst"-Erkennung erklärt die fehlende Reaktion zirkulierender T-Zellen auf den CD28-Superagonisten TGN1412 N2 - Stimulatory or superagonistic (SA) CD28-specific monoclonal antibodies (mAbs) are potent polyclonal activators of regulatory T cells and have proven highly effective as treatment in a wide range of rodent models for autoimmune and inflammatory diseases. In these models, a preferential activation of regulatory T cells was observed by in vivo administration of CD28SA. In stark contrast, human volunteers receiving TGN1412, a humanized CD28-specific mAb, experienced a life-threatening cytokine release syndrome during the first-in-man trial. Preclinical tests employing human peripheral blood mononuclear cells (PBMC) failed to announce the rapid cytokine release measured in the human volunteers in response to TGN1412. The aim of this thesis project was to find an explanation of why standard PBMC assays failed to predict the unexpected TGN1412-induced "cytokine storm" observed in human volunteers. CD28 superagonists can activate T cells without T cell receptor (TCR) ligation. They do depend, however, on “tonic” TCR signals received by MHC scanning, signals that they amplify. PBMC do not receive these signals in the circulation. Short-term in vitro preculture of human PBMC at a high cell density (HDC) resulted in massive cytokine release during subsequent TGN1412 stimulation. Restoration of reactivity was cell-contact dependent, associated with TCR polarization and tyrosine-phosphorylation, and blocked by HLA-specific mAb. In HDC, both CD4 T cells and monocytes functionally mature in a mutually dependent fashion. However, only CD4 memory T-cells proliferate upon TGN1412 stimulation, and were identified as the main source of pro-inflammatory cytokines. Importantly, responses to other T-cell activating agents were also enhanced if PBMC were first allowed to interact under tissue-like conditions. A new in vitro protocol is provided that returns circulating T-cells to a tissue-like status where they respond to TGN1412 stimulation, and it might represent a more reliable preclinical in vitro test for both activating and inhibitory immunomodulatory drugs. Finally, the surprising observation was made that the IgG1 “sibling” of TGN1412, which is of the poorly Fc receptor-binding IgG4 isotype, has a much lower stimulatory activity. We could exclude steric hindrance as an explanation and provide evidence for removal of TGN1112 from the T-cell surface by trans-endocytosis. N2 - Stimulatorische oder superagonistische (SA) CD28-spezifische monoklonale Antikörper (mAbs) (CD28SA) haben sich in diversen Nagetiermodellen für Autoimmunerkrankungen sowie für inflammatorische Erkrankungen als effektive Behandlungsmöglichkeit erwiesen. In diesen Modellen konnte nachgewiesen werden, dass CD28SA-Injektionen zu einer verstärkten Aktivierung regulatorischer T-Zellen in führen. Entgegen diesen Beobachtungen im Tiermodell reagierten die Teilnehmer einer ersten klinischen Studie auf die Administration des humanisierten CD28SA TGN1412 mit einer akut lebensbedrohlichen systemischen Zytokinausschüttung. Vorklinische Studien an humanen mononukleären Zellen des Blutes (PBMC) hatten keinen Hinweis auf eine mögliche plötzliche Zytokinausschüttungen als Reaktion auf TGN1412 gegeben. In der vorliegenden Arbeit wurde versucht eine Erklärung zu finden, warum PBMC-basierte Tests, wie sie vorklinischen Studien als Standard eingesetzt werden, nicht auf den unerwarteten TGN1412-induzierten „Zytokinsturm“ der Probanden hinwiesen. CD28SA aktivieren T-Zellen ohne Ligation des T-Zell Rezeptors (TCR). Jedoch werden zur CD28SA-abhängigen Aktivierung von T-Zellen „tonische“ TCR Signale benötigt, die durch MHC Scanning der T-Zellen an der Oberfläche anderer Zellen erzeugt werden. PBMC, welche sich in der Zirkulation befinden, erhalten diese „tonischen“ TCR Signale nicht. Kurzzeitige Vorkultur humaner PBMC bei hoher Zelldichte (high-density culture, HDC) führte zu einer starken Zytokinantwort bei nachfolgender TGN1412 Stimulation. Diese wiedererlangte Reaktivität gegenüber TGN1412 ging mit Tyrosin-Phospholrylierung sowie der Polarisierung von TCR Molekülen einher, war abhängig von Zellkontakten und konnte durch HLA-spezifische mAbs geblockt werden. Während der HDC durchlaufen sowohl CD4 T-Gedächtniszellen, als auch Monozyten eine voneinander abhängige funktionelle Reifung. TGN1412-induzierte Zellproliferation beschränkt sich jedoch auf CD4 T-Gedächtniszellen, die auch die Hauptquelle der proinflammatorische Zytokine sind. Antworten auf weitere T-Zell aktivierende Agenzien waren ebenfalls erhöht, wenn PBMC zunächst auf gewebeartige Bedingungen zurückgesetzt wurden. Die vorliegende Arbeit beschreibt damit ein neuartiges in vitro Protokoll für humane PBMC, welches T-Zellen der Zirkulation in einen gewebeartigen funktionellen Status versetzt, in welchem sie auf TGN1412 antworten. Dieses Protokoll könnte auch einen verlässlicheren vorklinischen in vitro Test sowohl für aktivierende als auch für inhibierende immunmodulatorische Medikamente darstellen. Im letzten Teil der Arbeit wird die erstaunliche Beobachtung vorgestellt, dass TGN1112, ein IgG1 Antikörper mit gleicher Spezifität wie der IgG4 Antikörper Antikörper TGN1412, trotz seiner höheren Affinität für Fc-Rezeptoren eine viel geringere stimulatorische Aktivität zeigt. Sterische Hinderung konnte als eine mögliche Erklärung ausgeschlossen werden. Vielmehr scheint das Entfernen von TGN1112/CD28 Komplexen von der T-Zelloberfläche durch Trans-Endozytose eine mögliche Erklärung für die geringere Aktivität zu sein. KW - T-Lymphozyten-Rezeptor KW - Antigen CD28 KW - Monoklonaler Antikoerper KW - CD28-Superagonist KW - TGN1412 KW - T cell receptor KW - CD28 antigen KW - monoclonal antibody KW - CD28-superagonist KW - TGN1412 Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-74933 ER -