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ABSTRACT: In this article, the evidence on the clinical use of monoclonal antibodies in the treatment of immune-mediated hematologic disorders is described. Insights into pathogenic mechanisms have revealed a major role of both B and T cells. Controlled trials have shown conflicting results, necessitating further research regarding pathogenesis, mechanism of action, and resistance. Although the use of more potent and specific monoclonal antibody therapy, mainly targeting costimulation signals, may improve response rates and long-term outcome, its use should be carefully balanced against potential side effects.
The Medical clinics of North America 05/2012; 96(3):583-619, xi. · 2.18 Impact Factor
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ABSTRACT: The role of myeloid-derived suppressor cells (MDSC) is emerging in transplantation. An expansion of myeloid progenitor cells with suppressive capacity has been reported to occur as a bystander phenomenon in the course of allogeneic hematopoietic stem cell transplantation (allo-HSCT) protocols, particularly, in mice during bone marrow chimerism induction and in human stem cell donors during G-CSF-mobilization protocols. Hypothesizing that such 'regulatory myeloid cells' play a role in regulating post-transplant T-cell alloreactivity, we performed a phenotypical and functional characterization of these cells in peripheral blood stem cell grafts of G-CSF-treated donors. We demonstrate that expanding myeloid cells in the peripheral blood of G-CSF-mobilized donors comprise the typical phenotype of the mononuclear and polymorphonuclear MDSC-subtypes that were recently described in cancer patients, and that both MDSC-subsets have the capacity to regulate alloreactive T-cell responses in-vitro. This study provides the basis for investigating the clinical relevance of MDSC and MDSC-subtypes in human allo-HSCT.
Clinical Immunology 01/2012; 143(1):83-7. · 4.05 Impact Factor
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Stef Meers,
Katrien Lagrou,
Koen Theunissen,
Daan Dierickx,
Michel Delforge, Timothy Devos,
Ann Janssens,
Wouter Meersseman,
Gregor Verhoef,
Johan Van Eldere,
Johan Maertens
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ABSTRACT: Toxoplasmosis is an often fatal opportunistic infection following allogeneic hematopoietic stem cell transplantation and is largely due to deferred diagnosis. In addition, breakthrough infections occur during prophylaxis with trimethoprim-sulfamethoxazole.
From November 2001 onwards, we routinely monitored all stem cell transplant recipients who were seropositive for Toxoplasma gondii and/or who received a transplant from a donor who was seropositive for T. gondii reactivation by polymerase chain reaction of peripheral blood samples. The aim of this study was to evaluate the incidence of and the risk factors for Toxoplasma reactivation in this population not receiving specific prophylaxis. We also studied the feasibility of a preemptive treatment approach based on this routine monitoring.
We report a toxoplasmosis incidence of 8.7% (18 of 208 patients). Twelve patients (5.8%) had a T. gondii infection at diagnosis; 6 patients (2.9%) had Toxoplasma disease, including cerebral toxoplasmosis (n = 5) and cardiopulmonary toxoplasmosis (n = 1). We identified myeloablative conditioning and conditioning with high-dose total body irradiation (10-12 Gy) as risk factors for T. gondii reactivation, whereas patients with a seropositive donor were less likely to experience reactivation. Patients with T. gondii disease had a significantly higher number of transcripts in blood than did patients with a T. gondii infection. Finally, with a strategy of routine monitoring and preemptive treatment with clindamycin-pyrimethamine, we only had 3 Toxoplasma-related deaths among our patients, which is a much lower rate than that reported in the literature.
Systematic monitoring with polymerase chain reaction is a good means to detect T. gondii reactivation and could reduce T. gondii-related mortality among hematopoietic stem cell transplant recipients.
Clinical Infectious Diseases 03/2010; 50(8):1127-34. · 9.15 Impact Factor
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Leukemia & lymphoma 01/2009; 49(12):2365-6. · 2.40 Impact Factor
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ABSTRACT: Xenograft rejection can be provoked by both the innate and adaptive immune compartments and close reciprocal interactions exist between these two systems. We investigated the interdependent roles of T and B lymphocytes in vascularized (heart) and cellular (islet) xenograft rejection in a model with established xeno-nonreactivity of the innate immune system.
Specific innate xenotolerance was induced in nude rats bearing either a hamster heart or a hamster pancreatic islet graft by a tolerizing regimen consisting of donor antigen infusion, temporary natural killer cell depletion and a 4-week administration of leflunomide. One month after transplantation, syngeneic CD4 and CD8 T cells were adoptively transferred.
Both vascular and cellular xenografts were rejected after CD4 T cell reconstitution, corresponding with production of high IgM and IgG xenoantibody titers. Deposition of xenoantibodies and complement was seen in the heart but not in the islet xenografts. After infusion of CD8 T cells, xenohearts underwent a delayed type of rejection without xenoantibody production and xenoislets were not rejected. In xenoislet recipients, CD8 dependent B cells were not tolerized, resulting in the production of IgG xenoantibodies belonging to Th2-dependent isotypes, known not to cause graft rejection, and deposited at the graft implantation site.
We conclude that distinct mechanisms of immune activation underlie xenogeneic reactions against vascular and cellular grafts.
Transplantation 06/2008; 85(10):1489-95. · 4.00 Impact Factor
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Timothy Devos,
Ben Sprangers,
Yuan Lin,
Shengqiao Li,
Yehong Yan,
Willy Landuyt,
Caroline Lenaerts,
Omer Rutgeerts,
Jozef Goebels,
Dominique Bullens,
Christiane De Wolf-Peeters,
Chantal Mathieu,
Mark Waer,
An D Billiau
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ABSTRACT: Xenothymus transplantation under the kidney capsule in athymic rodents frequently leads to multiorgan autoimmunity. Herein, we explore whether this is an intrinsic risk of xenothymus grafting or whether it depends on the transplant technique. We developed a new technique of "venous pouch" thymus grafting (heart-xenothymus) and compared this with the conventional kidney subcapsular technique (kidney-xenothymus) in a rat-into-nude-mouse model. Whereas lethal autoimmunity developed in 90% of kidney-xenothymus recipients, all heart-xenothymus grafted mice remained completely healthy. Autoimmunity in heart-xenothymus recipients was absent despite a significantly improved T-cell generation and was associated with significantly higher CD4+CD25+ T-cell frequencies and CD4+CD25+ cell Foxp3 mRNA levels than those observed in kidney-xenothymus recipients. In conclusion, we describe a novel vascular pouch technique of xenothymus transplantation that prevents the development of autoimmunity in nude mice. Our data further suggest that prevention of autoimmunity is related to a superior development of regulatory T-cells.
Transplantation 03/2008; 85(4):640-4. · 4.00 Impact Factor
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Transplantation 01/2005; 78(12):1717-8. · 4.00 Impact Factor
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ABSTRACT: Thymus transplantation is a promising strategy to induce xenotolerance, but may also induce an autoimmune syndrome (AIS). The pathogenesis of this AIS was explored using nude rats as recipients. Thymus grafts consisted of fetal hamster thymic tissue with or without mixing with fetal rat tissue such as thymus, thyroid, salivary gland, and heart. All hamster thymus recipients died of AIS within 2-3 mo. In most recipients of xenothymus mixed with rat tissues such as thymus, thyroid, and salivary gland, but not heart, AIS was prevented, indicating an insufficient presence of rat epithelial cell Ags within the xenothymus. AIS could be transferred to control nude rats by whole splenocytes or by splenocyte subpopulations such as CD3(+), CD3(-), and B lymphocytes, but not by non-T, non-B cells from AIS animals. This transfer could be suppressed by cotransferring either CD4(+) or CD8(+) lymphocytes from euthymic rats, but not by splenocytes from recipients of syngeneic or xenogeneic thymus mixed with rat tissue, indicating a defective generation of regulatory lymphocytes. As for CD4(+) regulatory cells this defect was probably qualitative, because the percentages of CD4(+)CD25(+) or CD4(+)CD45RC(low) populations were normal after xenothymus transplantation. As for the CD8(+) regulatory cells, the defect was quantitative, as CD8(+) cell levels always remained low. The latter was related to the nonvascularized nature of thymus grafts. In conclusion, AIS after xenothymus transplantation in nude rats is due to a combination of insufficient intrathymic presence of host-type epithelial cell Ags and a defective generation of regulatory T lymphocytes.
The Journal of Immunology 07/2003; 170(12):5936-46. · 5.79 Impact Factor
