Your search keyword '"Schendel Dolores J"' showing total 12 results

1. NOD/scid IL-2Rgnull mice: a preclinical model system to evaluate human dendritic cell-based vaccine strategies in vivo

Author

Spranger Stefani, Frankenberger Bernhard, and Schendel Dolores J

Subjects

Antitumor immunity, CD8+ T cells, Dendritic cells, Murine model system, TLR-activation, Vaccination, Medicine

Abstract

Abstract Background To date very few systems have been described for preclinical investigations of human cellular therapeutics in vivo. However, the ability to carry out comparisons of new cellular vaccines in vivo would be of substantial interest for design of clinical studies. Here we describe a humanized mouse model to assess the efficacy of various human dendritic cell (DC) preparations. Two reconstitution regimes of NOD/scid IL2Rgnull (NSG) mice with adult human peripheral blood mononuclear cells (PBMC) were evaluated for engraftment using 4-week and 9-week schedules. This led to selection of a simple and rapid protocol for engraftment and vaccine evaluation that encompassed 4 weeks. Methods NSG recipients of human PBMC were engrafted over 14 days and then vaccinated twice with autologous DC via intravenous injection. Three DC vaccine formulations were compared that varied generation time in vitro (3 days versus 7 days) and signals for maturation (with or without Toll-like receptor (TLR)3 and TLR7/8 agonists) using MART-1 as a surrogate antigen, by electroporating mature DC with in vitro transcribed RNA encoding full length protein. After two weekly vaccinations, the splenocyte populations containing human lymphocytes were recovered 7 days later and assessed for MART-1-specific immune responses using MHC-multimer-binding assays and functional assessment of specific killing of melanoma tumor cell lines. Results Human monocyte-derived DC generated in vitro in 3 days induced better MART-1-specific immune responses in the autologous donor T cells present in the humanized NSG mice. Moreover, consistent with our in vitro observations, vaccination using mature DC activated with TLR3 and TLR7/8 agonists resulted in enhanced immune responses in vivo. These findings led to a ranking of the DC vaccine effects in vivo that reflected the hierarchy previously found for these mature DC variations in vitro. Conclusions This humanized mouse model system enables comparisons among different DC vaccine types to be rapidly assessed in vivo. In addition, ex vivo analyses of human CD3+ T cells recovered from the spleens of these mice are also possible, including studies on lymphocyte subsets, Th1/Th2 polarization, presence of regulatory T cells and the impact of DC vaccination on their functions.

Published

2012

2. Defining the critical hurdles in cancer immunotherapy

Author

Fox Bernard A, Schendel Dolores J, Butterfield Lisa H, Aamdal Steinar, Allison James P, Ascierto Paolo, Atkins Michael B, Bartunkova Jirina, Bergmann Lothar, Berinstein Neil, Bonorino Cristina C, Borden Ernest, Bramson Jonathan L, Britten Cedrik M, Cao Xuetao, Carson William E, Chang Alfred E, Characiejus Dainius, Choudhury A Raja, Coukos George, de Gruijl Tanja, Dillman Robert O, Dolstra Harry, Dranoff Glenn, Durrant Lindy G, Finke James H, Galon Jerome, Gollob Jared A, Gouttefangeas Cécile, Grizzi Fabio, Guida Michele, Håkansson Leif, Hege Kristen, Herberman Ronald B, Hodi F Stephen, Hoos Axel, Huber Christoph, Hwu Patrick, Imai Kohzoh, Jaffee Elizabeth M, Janetzki Sylvia, June Carl H, Kalinski Pawel, Kaufman Howard L, Kawakami Koji, Kawakami Yutaka, Keilholtz Ulrich, Khleif Samir N, Kiessling Rolf, Kotlan Beatrix, Kroemer Guido, Lapointe Rejean, Levitsky Hyam I, Lotze Michael T, Maccalli Cristina, Maio Michele, Marschner Jens-Peter, Mastrangelo Michael J, Masucci Giuseppe, Melero Ignacio, Melief Cornelius, Murphy William J, Nelson Brad, Nicolini Andrea, Nishimura Michael I, Odunsi Kunle, Ohashi Pamela S, O'Donnell-Tormey Jill, Old Lloyd J, Ottensmeier Christian, Papamichail Michael, Parmiani Giorgio, Pawelec Graham, Proietti Enrico, Qin Shukui, Rees Robert, Ribas Antoni, Ridolfi Ruggero, Ritter Gerd, Rivoltini Licia, Romero Pedro J, Salem Mohamed L, Scheper Rik J, Seliger Barbara, Sharma Padmanee, Shiku Hiroshi, Singh-Jasuja Harpreet, Song Wenru, Straten Per, Tahara Hideaki, Tian Zhigang, van Der Burg Sjoerd H, von Hoegen Paul, Wang Ena, Welters Marij JP, Winter Hauke, Withington Tara, Wolchok Jedd D, Xiao Weihua, Zitvogel Laurence, Zwierzina Heinz, Marincola Francesco M, Gajewski Thomas F, Wigginton Jon M, and Disis Mary L

Subjects

Medicine

Abstract

Abstract Scientific discoveries that provide strong evidence of antitumor effects in preclinical models often encounter significant delays before being tested in patients with cancer. While some of these delays have a scientific basis, others do not. We need to do better. Innovative strategies need to move into early stage clinical trials as quickly as it is safe, and if successful, these therapies should efficiently obtain regulatory approval and widespread clinical application. In late 2009 and 2010 the Society for Immunotherapy of Cancer (SITC), convened an "Immunotherapy Summit" with representatives from immunotherapy organizations representing Europe, Japan, China and North America to discuss collaborations to improve development and delivery of cancer immunotherapy. One of the concepts raised by SITC and defined as critical by all parties was the need to identify hurdles that impede effective translation of cancer immunotherapy. With consensus on these hurdles, international working groups could be developed to make recommendations vetted by the participating organizations. These recommendations could then be considered by regulatory bodies, governmental and private funding agencies, pharmaceutical companies and academic institutions to facilitate changes necessary to accelerate clinical translation of novel immune-based cancer therapies. The critical hurdles identified by representatives of the collaborating organizations, now organized as the World Immunotherapy Council, are presented and discussed in this report. Some of the identified hurdles impede all investigators; others hinder investigators only in certain regions or institutions or are more relevant to specific types of immunotherapy or first-in-humans studies. Each of these hurdles can significantly delay clinical translation of promising advances in immunotherapy yet if overcome, have the potential to improve outcomes of patients with cancer.

Published

2011

3. Effects of TLR agonists on maturation and function of 3-day dendritic cells from AML patients in complete remission

Author

Merk Martina, Lindner Lysann, Geiger Christiane, Lichtenegger Felix S, Dörfel Daniela, Beck Barbara, Schendel Dolores J, and Subklewe Marion

Subjects

Medicine

Abstract

Abstract Background Active dendritic cell (DC) immunization protocols are rapidly gaining interest as therapeutic options in patients with acute myeloid leukemia (AML). Here we present for the first time a GMP-compliant 3-day protocol for generation of monocyte-derived DCs using different synthetic Toll-like receptor (TLR) agonists in intensively pretreated patients with AML. Methods Four different maturation cocktails were compared for their impact on cell recovery, phenotype, cytokine secretion, migration, and lymphocyte activation in 20 AML patients and 25 healthy controls. Results Maturation cocktails containing the TLR7/8 agonists R848 or CL075, with and without the addition of the TLR3 agonist poly(I:C), induced DCs that had a positive costimulatory profile, secreted high levels of IL-12(p70), showed chemotaxis to CCR7 ligands, had the ability to activate NK cells, and efficiently stimulated antigen-specific CD8+ T cells. Conclusions Our results demonstrate that this approach translates into biologically improved DCs, not only in healthy controls but also in AML patients. This data supports the clinical application of TLR-matured DCs in patients with AML for activation of innate and adaptive immune responses.

Published

2011

4. Three-day dendritic cells for vaccine development: Antigen uptake, processing and presentation

Author

Schendel Dolores J, Frankenberger Bernhard, Wilde Susanne, Spranger Stefani, Bürdek Maja, and Geiger Christiane

Subjects

Medicine

Abstract

Abstract Background Antigen-loaded dendritic cells (DC) are capable of priming naïve T cells and therefore represent an attractive adjuvant for vaccine development in anti-tumor immunotherapy. Numerous protocols have been described to date using different maturation cocktails and time periods for the induction of mature DC (mDC) in vitro. For clinical application, the use of mDC that can be generated in only three days saves on the costs of cytokines needed for large scale vaccine cell production and provides a method to produce cells within a standard work-week schedule in a GMP facility. Methods In this study, we addressed the properties of antigen uptake, processing and presentation by monocyte-derived DC prepared in three days (3d mDC) compared with conventional DC prepared in seven days (7d mDC), which represent the most common form of DC used for vaccines to date. Results Although they showed a reduced capacity for spontaneous antigen uptake, 3d mDC displayed higher capacity for stimulation of T cells after loading with an extended synthetic peptide that requires processing for MHC binding, indicating they were more efficient at antigen processing than 7d DC. We found, however, that 3d DC were less efficient at expressing protein after introduction of in vitro transcribed (ivt)RNA by electroporation, based on published procedures. This deficit was overcome by altering electroporation parameters, which led to improved protein expression and capacity for T cell stimulation using low amounts of ivtRNA. Conclusions This new procedure allows 3d mDC to replace 7d mDC for use in DC-based vaccines that utilize long peptides, proteins or ivtRNA as sources of specific antigen.

Published

2010

5. Adjuvant therapeutic vaccination in patients with non-small cell lung cancer made lymphopenic and reconstituted with autologous PBMC: first clinical experience and evidence of an immune response

Author

Schendel Dolores J, Wagner Beate, Grützner Stefanie, Pohla Heike, Schlemmer Marcus, Winter Hauke, van den Engel Natasja K, Rüttinger Dominik, Fox Bernard A, Jauch K-W, and Hatz Rudolf A

Subjects

Medicine

Abstract

Abstract Background Given the considerable toxicity and modest benefit of adjuvant chemotherapy for non-small cell lung cancer (NSCLC), there is clearly a need for new treatment modalities in the adjuvant setting. Active specific immunotherapy may represent such an option. However, clinical responses have been rare so far. Manipulating the host by inducing lymphopenia before vaccination resulted in a magnification of the immune response in the preclinical setting. To evaluate feasibility and safety of an irradiated, autologous tumor cell vaccine given following induction of lymphopenia by chemotherapy and reinfusion of autologous peripheral blood mononuclear cells (PBMC), we are currently conducting a pilot-phase I clinical trial in patients with NSCLC following surgical resection. This paper reports on the first clinical experience and evidence of an immune response in patients suffering from NSCLC. Methods NSCLC patients stages I-IIIA are recruited. Vaccines are generated from their resected lung specimens. Patients undergo leukapheresis to harvest their PBMC prior to or following the surgical procedure. Furthermore, patients receive preparative chemotherapy (cyclophosphamide 350 mg/m2 and fludarabine 20 mg/m2 on 3 consecutive days) for induction of lymphopenia followed by reconstitution with their autologous PBMC. Vaccines are administered intradermally on day 1 following reconstitution and every two weeks for a total of up to five vaccinations. Granulocyte-macrophage-colony-stimulating-factor (GM-CSF) is given continuously (at a rate of 50 μg/24 h) at the site of vaccination via minipump for six consecutive days after each vaccination. Results To date, vaccines were successfully manufactured for 4 of 4 patients. The most common toxicities were local injection-site reactions and mild constitutional symptoms. Immune responses to chemotherapy, reconstitution and vaccination are measured by vaccine site and delayed type hypersensitivity (DTH) skin reactions. One patient developed positive DTH skin tests so far. Immunohistochemical assessment of punch biopsies taken at the local vaccine site reaction revealed a dense lymphocyte infiltrate. Further immunohistochemical differentiation showed that CD1a+ cells had been attracted to the vaccine site as well as predominantly CD4+ lymphocytes. The 3-day combination chemotherapy consisting of cyclophosphamide and fludarabine induced a profound lymphopenia in all patients. Sequential FACS analysis revealed that different T cell subsets (CD4, CD8, CD4CD25) as well as granulocytes, B cells and NK cells were significantly reduced. Here, we report on clinical safety and feasibility of this vaccination approach during lymphoid recovery and demonstrate a patient example. Conclusion Thus far, all vaccines were well tolerated. The overall trial design seems safe and feasible. Vaccine site reactions associated with infusion of GM-CSF via mini-pump are consistent with the postulated mechanism of action. More detailed immune-monitoring is required to evaluate a potential systemic immune response. Further studies to exploit homeostasis-driven T cell proliferation for the induction of a specific anti-tumor immune response in this clinical setting are warranted.

Published

2007

6. Generation of clinical grade dendritic cells with capacity to produce biologically active IL-12p70

Author

Bigalke Iris, Kremmer Elisabeth, Pohla Heike, Frankenberger Bernhard, Javorovic Miran, Zobywalski Anke, and Schendel Dolores J

Subjects

Medicine

Abstract

Abstract Background For optimal T cell activation it is desirable that dendritic cells (DCs) display peptides within MHC molecules as signal 1, costimulatory molecules as signal 2 and, in addition, produce IL-12p70 as signal 3. IL-12p70 polarizes T cell responses towards CD4+ T helper 1 cells, which then support the development of CD8+ cytotoxic T lymphocytes. We therefore developed new maturation cocktails allowing DCs to produce biologically active IL-12p70 for large-scale cancer vaccine development. Methods After elutriation of leukapheresis products in a closed bag system, enriched monocytes were cultured with GM-CSF and IL-4 for six days to generate immature DCs that were then matured with cocktails, containing cytokines, interferon-gamma, prostaglandin E2, and a ligand for Toll-like receptor 8, with or without poly (I:C). Results Mature DCs expressed appropriate maturation markers and the lymph node homing chemokine receptor, CCR7. They retained full maturity after culture for two days without maturation cocktails and following cryopreservation. TLR ligand stimulation induced DCs capable of secreting IL-12p70 in primary cultures and after one day of coculture with CD40L-expressing fibroblasts, mimicking an encounter with T cells. DCs matured with our new cocktails containing TLR8 ligand, with or without poly (I:C), induced alloresponses and stimulated virus-specific T cells after peptide-pulsing. DCs matured in cocktails containing TLR8 ligand without poly (I:C) could also be loaded with RNA as a source of antigen, whereas DCs matured in cocktails containing poly (I:C) were unable to express proteins following RNA transfer by electroporation. Conclusion Our new maturation cocktails allowed easy DC harvesting, stable maturation and substantial recoveries of mature DCs after cryopreservation. Our procedure for generating DCs is easily adaptable for GMP-compliance and yields IL-12p70-secreting DCs suitable for development of cancer vaccines using peptides or RNA as sources of immunizing antigens.

Published

2007

7. A generic RNA-pulsed dendritic cell vaccine strategy for renal cell carcinoma

Author

Noessner Elfriede, Weinzierl Andreas, Regn Sybille, Geiger Christiane, and Schendel Dolores J

Subjects

dendritic cells, tumor-derived RNA, renal cell carcinoma, tumor vaccine, immunotherapy, Medicine

Abstract

Abstract We present a generic dendritic cell (DC) vaccine strategy for patients with renal cell carcinoma (RCC) based on the use of RNA as a source of multiplex tumor-associated antigens (TAAs). Instead of preparing RNA from tumor tissue of each individual RCC patient, we propose to substitute RNA prepared from a well characterized highly immunogenic RCC cell line (RCC-26 tumor cells) as a generic source of TAAs for loading of DCs. We demonstrate here that efficient RNA transfer can be achieved using lipofection of immature DCs, which are subsequently matured with a cytokine cocktail to express high levels of MHC and costimulatory molecules as well as the chemokine receptor CCR7. Neither RNA itself nor the lipid component impacted on the phenotype or the cytokine secretion of mature DCs. Following RNA loading, DCs derived from HLA-A2-positive donors were able to activate effector-memory cytotoxic T lymphocytes (CTLs) specific for a TAA ligand expressed by the RCC-26 cell line. CTL responses to RNA-loaded DCs reached levels comparable to those stimulated directly by the RCC-26 tumor cells. Furthermore, DCs expressing tumor cell RNA primed naïve T cells, yielding T cell lines with cytotoxicity and cytokine secretion after contact with RCC tumor cells. RCC-26 cell lines are available as good manufacturing practice (GMP)-certified reagents enabling this source of RNA to be easily standardized and adapted for clinical testing. In addition, well defined immune monitoring tools, including the use of RNA expressing B cell lines, are available. Thus, this DC vaccine strategy can be directly compared with an ongoing gene therapy trial using genetically-engineered variants of the RCC-26 cell line as vaccines for RCC patients with metastatic disease.

Published

2005

8. Effects of TLR agonists on maturation and function of 3-day dendritic cells from AML patients in complete remission

Author

Beck, Barbara, primary, Dörfel, Daniela, additional, Lichtenegger, Felix S, additional, Geiger, Christiane, additional, Lindner, Lysann, additional, Merk, Martina, additional, Schendel, Dolores J, additional, and Subklewe, Marion, additional

Published

2011

9. Three-day dendritic cells for vaccine development: Antigen uptake, processing and presentation

Author

Bürdek, Maja, primary, Spranger, Stefani, additional, Wilde, Susanne, additional, Frankenberger, Bernhard, additional, Schendel, Dolores J, additional, and Geiger, Christiane, additional

Published

2010

10. Adjuvant therapeutic vaccination in patients with non-small cell lung cancer made lymphopenic and reconstituted with autologous PBMC: first clinical experience and evidence of an immune response

Author

Rüttinger, Dominik, primary, van den Engel, Natasja K, additional, Winter, Hauke, additional, Schlemmer, Marcus, additional, Pohla, Heike, additional, Grützner, Stefanie, additional, Wagner, Beate, additional, Schendel, Dolores J, additional, Fox, Bernard A, additional, Jauch, K-W, additional, and Hatz, Rudolf A, additional

Published

2007

11. Generation of clinical grade dendritic cells with capacity to produce biologically active IL-12p70

Author

Zobywalski, Anke, primary, Javorovic, Miran, additional, Frankenberger, Bernhard, additional, Pohla, Heike, additional, Kremmer, Elisabeth, additional, Bigalke, Iris, additional, and Schendel, Dolores J, additional

Published

2007

12. A generic RNA-pulsed dendritic cell vaccine strategy for renal cell carcinoma

Author

Geiger, Christiane, primary, Regn, Sybille, additional, Weinzierl, Andreas, additional, Noessner, Elfriede, additional, and Schendel, Dolores J, additional

Published

2005