Your search keyword '"McHugh, Donal' showing total 5 results

1. Anti-human CD117 CAR T-cells efficiently eliminate healthy and malignant CD117-expressing hematopoietic cells

Author

Myburgh, Renier, Kiefer, Jonathan D., Russkamp, Norman F., Magnani, Chiara F., Nuñez, Nicolás, Simonis, Alexander, Pfister, Surema, Wilk, C. Matthias, McHugh, Donal, Friemel, Juliane, Müller, Antonia M., Becher, Burkhard, Münz, Christian, van den Broek, Maries, Neri, Dario, and Manz, Markus G.

Abstract

Acute myeloid leukemia (AML) initiating and sustaining cells maintain high cell-surface similarity with their cells-of-origin, i.e., hematopoietic stem and progenitor cells (HSPCs), and identification of truly distinguishing leukemia-private antigens has remained elusive to date. To nonetheless utilize surface antigen-directed immunotherapy in AML, we here propose targeting both, healthy and malignant human HSPC, by chimeric antigen receptor (CAR) T-cells with specificity against CD117, the cognate receptor for stem cell factor. This approach should spare most mature hematopoietic cells and would require CAR T termination followed by subsequent transplantation of healthy HSPCs to rescue hematopoiesis. We successfully generated anti-CD117 CAR T-cells from healthy donors and AML patients. Anti-CD117 CAR T-cells efficiently targeted healthy and leukemic CD117-positive cells in vitro. In mice xenografted with healthy human hematopoiesis, they eliminated CD117-expressing, but not CD117-negative human cells. Importantly, in mice xenografted with primary human CD117-positive AML, they eradicated disease in a therapeutic setting. Administration of ATG in combination with rituximab, which binds to the co-expressed CAR T-cell transduction/selection marker RQR8, led to CAR T-cell depletion. Thus, we here provide the first proof of concept for the generation and preclinical efficacy of CAR T-cells directed against CD117-expressing human hematopoietic cells.

Published

2020

2. Animal models of Epstein Barr virus infection.

Author

Gujer, Cornelia, Chatterjee, Bithi, Landtwing, Vanessa, Raykova, Ana, McHugh, Donal, and Münz, Christian

Abstract

Epstein Barr virus (EBV) was the first human tumor virus to be described. Despite its discovery now more than fifty years ago, immune control of this virus is still not very well understood and no vaccine is available. This knowledge gap is due in part to the lack of a preclinical small animal model which can faithfully recapitulate EBV infection and immune control, and would allow testing of EBV specific vaccine candidates. With the advent of mice with reconstituted human immune system compartments (HIS mice) during the past decade this is changing. We will discuss which aspects of EBV infection and its immune control can already be modeled in HIS mice, and which shortcomings still need to be overcome in order to recapitulate the immunobiology of oncogenic EBV infection. [ABSTRACT FROM AUTHOR]

Published

2015

3. Lymphotoxin β Receptor Signaling Promotes Development of Autoimmune Pancreatitis.

Author

Seleznik, Gitta M., Reding, Theresia, Romrig, Franziska, Saito, Yasuyuki, Mildner, Alexander, Segerer, Stephan, Sun, Li–Kang, Regenass, Stephan, Lech, Maciej, Anders, Hans–Joachim, McHugh, Donal, Kumagi, Teru, Hiasa, Yoichi, Lackner, Carolin, Haybaeck, Johannes, Angst, Eliane, Perren, Aurel, Balmer, Maria Luisa, Slack, Emma, and MacPherson, Andrew

Subjects

TUMOR necrosis factors, CELLULAR signal transduction, AUTOIMMUNE diseases, PANCREATITIS, T helper cells

Abstract

Background & Aims: Little is known about the pathogenic mechanisms of autoimmune pancreatitis (AIP), an increasingly recognized, immune-mediated form of chronic pancreatitis. Current treatment options are limited and disease relapse is frequent. We investigated factors that contribute to the development of AIP and new therapeutic strategies. Methods: We used quantitative polymerase chain reaction, immunohistochemical, and enzyme-linked immunosorbent analyses to measure the expression of cytokines and chemokines in tissue and serum samples from patients with and without AIP. We created a mouse model of human AIP by overexpressing lymphotoxin (LT)α and β specifically in acinar cells (Ela1-LTab mice). Results: Messenger RNA levels of LTα and β were increased in pancreatic tissues from patients with AIP, compared with controls, and expression of chemokines (CXCL13, CCL19, CCL21, CCL1, and B-cell–activating factor) was increased in pancreatic and serum samples from patients. Up-regulation of these factors was not affected by corticosteroid treatment. Acinar-specific overexpression of LTαβ (Ela1-LTαβ) in mice led to an autoimmune disorder with various features of AIP. Chronic inflammation developed only in the pancreas but was sufficient to cause systemic autoimmunity. Acinar-specific overexpression of LTαβ did not cause autoimmunity in mice without lymphocytes (Ela1-LTab/Rag1 −/− ); moreover, lack of proinflammatory monocytes (Ela1-LTab/Ccr2−/− ) failed to prevent AIP but prevented early pancreatic tissue damage. Administration of corticosteroids reduced pancreatitis but did not affect production of autoantibodies, such as antipancreatic secretory trypsin inhibitor in Ela1-LTab mice. In contrast, inhibition of LTβR signaling reduced chemokine expression, renal immune-complex deposition, and features of AIP in Ela1-LTab mice. Conclusions: Overexpression of LTαβ specifically in acinar cells of mice causes features of AIP. Reagents that neutralize LTβR ligands might be used to treat patients with AIP. [Copyright &y& Elsevier]

Published

2012

4. KSHV infection drives poorly cytotoxic CD56-negative natural killer cell differentiation in vivoupon KSHV/EBV dual infection

Author

Caduff, Nicole, McHugh, Donal, Rieble, Lisa, Forconi, Catherine S., Ong’echa, John M., Oluoch, Peter O., Raykova, Ana, Murer, Anita, Böni, Michelle, Zuppiger, Lara, Schulz, Thomas F., Blackbourn, David J., Chijioke, Obinna, Moormann, Ann M., and Münz, Christian

Abstract

Herpesvirus infections shape the human natural killer (NK) cell compartment. While Epstein-Barr virus (EBV) expands immature NKG2A+NK cells, human cytomegalovirus (CMV) drives accumulation of adaptive NKG2C+NK cells. Kaposi sarcoma-associated herpesvirus (KSHV) is a close relative of EBV, and both are associated with lymphomas, including primary effusion lymphoma (PEL), which nearly always harbors both viruses. In this study, KSHV dual infection of mice with reconstituted human immune system components leads to the accumulation of CD56–CD16+CD38+CXCR6+NK cells. CD56–CD16+NK cells were also more frequently found in KSHV-seropositive Kenyan children. This NK cell subset is poorly cytotoxic against otherwise-NK-cell-susceptible and antibody-opsonized targets. Accordingly, NK cell depletion does not significantly alter KSHV infection in humanized mice. These data suggest that KSHV might escape NK-cell-mediated immune control by driving CD56–CD16+NK cell differentiation.

Published

2021

5. Persistent KSHV Infection Increases EBV-Associated Tumor Formation In Vivo via Enhanced EBV Lytic Gene Expression.

Author

McHugh, Donal, Caduff, Nicole, Barros, Mario Henrique M., Rämer, Patrick C., Raykova, Ana, Murer, Anita, Landtwing, Vanessa, Quast, Isaak, Styles, Christine T., Spohn, Michael, Fowotade, Adeola, Delecluse, Henri-Jacques, Papoudou-Bai, Alexandra, Lee, Yong-Moon, Kim, Jin-Man, Middeldorp, Jaap, Schulz, Thomas F., Cesarman, Ethel, Zbinden, Andrea, and Capaul, Riccarda

Abstract

Summary The human tumor viruses Epstein-Barr virus (EBV) and Kaposi sarcoma-associated herpesvirus (KSHV) establish persistent infections in B cells. KSHV is linked to primary effusion lymphoma (PEL), and 90% of PELs also contain EBV. Studies on persistent KSHV infection in vivo and the role of EBV co-infection in PEL development have been hampered by the absence of small animal models. We developed mice reconstituted with human immune system components as a model for KSHV infection and find that EBV/KSHV dual infection enhanced KSHV persistence and tumorigenesis. Dual-infected cells displayed a plasma cell-like gene expression pattern similar to PELs. KSHV persisted in EBV-transformed B cells and was associated with lytic EBV gene expression, resulting in increased tumor formation. Evidence of elevated lytic EBV replication was also found in EBV/KSHV dually infected lymphoproliferative disorders in humans. Our data suggest that KSHV augments EBV-associated tumorigenesis via stimulation of lytic EBV replication. [ABSTRACT FROM AUTHOR]

Published

2017