Recommended indications for the administration of polyclonal immunoglobulin preparations.

The following recommendations, which aim at standardising and rationalising the clinical indications for administering polyclonal immunoglobulins in Belgium, were drawn up by a working group of the Superior Health Council. To this end, the Superior Health Council organised an expert meeting devoted to"Guidelines for the use of immunoglobulins". The experts discussed the indications for immunoglobulin use, the'ideal'immunoglobulin preparation, its mechanisms of action, the practical issues involved in administering immunoglobulins and their potential side effects. The recommendations formulated by the experts were validated by the Superior Health Council working group with the purpose of harmonising immunoglobulin use in Belgium

Human cystic fibrosis embryonic stem cell lines derived on placental mesenchymal stromal cells.

This study describes the production of two new human embryonic stem cell (hESC) lines affected by cystic fibrosis. These cell lines are heterozygous compounds, each a carrier of the DF508 mutations associated either with E585X or with 3849+10 kb C-->T. The derivation process was performed on irradiated human placental mesenchymal stromal cells and designed to minimize contact with xeno-components. This new source of feeder cells is easy to obtain and devoid of ethical concerns. The cells have a great capacity to proliferate which reduces the need for continuous preparation of new feeder cell lines. In addition, three normal hESC lines were obtained in the same conditions. The five stem cell lines retained hESC-specific features, including an unlimited and undifferentiated proliferation capacity, marker expression and the maintenance of stable karyotype. They also demonstrated pluripotency in vitro, forming cell lineages of the three germ layers, as indicated by immunolocalization of beta-tubulin, alpha-fetoprotein and actin. These new genetic cell lines represent an important in-vitro tool to study the physiological processes underlying this genetic disease, drug screening, and tissue engineering.

Guidelines for the use of fresh frozen plasma.

Recommendations, which aim at standardising and rationalising clinical indications for the transfusion of fresh frozen plasma (FFP) in Belgium, were drawn up by a working group of the Superior Health Council. For this purpose the Superior Health Council organised an expert meeting devoted to "Transfusion Guidelines: Pathogen reduction, products and indications for the transfusion of plasma" in collaboration with the Belgian Haematological Society.The experts discussed the indications for the transfusion of FFP, pathogen reduction for FFP and the practical issues of administering FFP and plasma-derived concentrates. The recommendations formulated by the experts were validated by the working group with the purpose of harmonising FFP transfusion in Belgian hospitals.

A rapid test of alloreactivity based on interleukin-2 mRNA expression might identify liver transplant recipients with donor-specific hyporesponsiveness.

BACKGROUND: Immunosuppression withdrawal is feasible in some liver transplant (OLT) recipients but may lead to severe rejection in others, underlying the need for reliable biomarkers to identify patients with tolerant profile in whose weaning/withdrawal could be safely proposed. We evaluated the value of real-time polymerase chain reaction (PCR)-based measurement of interleukin (IL)-2 mRNA in mixed lymphocyte reaction (MLR) to monitor in vitro anti-donor reactivity in OLT patients. METHODS: MLR were performed in three patients undergoing living donor OLT using a tolerogenic protocol including donor stem cells. IL-2 mRNA production in MLR was measured by PCR at several intervals after OLT. RESULTS: In the early posttransplant period, three patients presented with global immunodeficiency, as indicated by low IL-2 mRNA production against both donor and third-party antigens. In the two patients who has immunosuppression successfully withdrawn, donor-specific hyporesponsiveness was observed thereafter: IL-2 mRNA production against donor cells remained low, while IL-2 mRNA production against a third-party antigen-presenting cells progressively recovered. No such modulation of the anti-donor response was observed in the patient in whom withdrawal led to rapid rejection. CONCLUSION: Measurement of IL-2 mRNA production in MLR might prefer a tool to monitor anti-donor reactivity after OLT for decisions to minimize or withdraw immunosuppression in patients displaying donor-specific hyporesponsiveness.

Guidelines for the transfusion of platelets.

Recommendations aiming at standardising and rationalising clinical indications for the transfusion of platelets in Belgium were drawn up by a working group of the Superior Health Council. To this end the Superior Health Council organised an expert meeting devoted to "Guidelines for the transfusion of platelets" in collaboration with the Belgian Hematological Society. The experts discussed the indications for platelet transfusions, the ideal platelet concentrate and the optimal platelet transfusion therapy. The recommendations prepared by the experts were validated by the working group with the purpose of harmonising platelet transfusion in Belgian hospitals.

[New therapeutic approachs in melanoma]. / Approches thérapeutiques innovantes dans le mélanome.

During the last decade, new insights in cellular and molecular biology have opened new avenues in cancer immunotherapy. Two distinct modalities have been developed: adoptive immunotherapy and anti-tumoral vaccination (active immunotherapy). We will first describe the main strategies of adoptive immunotherapy and then elaborate on the protocols of anti-tumoral vaccination against tumor associated antigens (TAA). In that context, we will pay peculiar attention on the pivotal role of dendritic cells (DC) as natural adjuvant.

[The immunology-hematology-transfusion department]. / Le Service d'Immunologie-Hématologie-Transfusion.

New immunotherapies derived from biotechnology offer fascinating perspectives in different fields of medicine including anti-infectious vaccines, cancer, organ transplantation and autoimmune diseases. In this paper, we illustrate how the Department of Immunology can contribute to the development of these new treatments within a academic hospital such as the Erasme Hospital at the Université Libre de Bruxelles.

[Anti-tumor immunotherapy based on dendritic cells]. / L'immunothérapie anti-tumorale à base de cellules dendritiques.

In cancer immunotherapy, the use of dendritic cells (DC) loaded with tumor-associated antigens (TAA) emerged as a promising strategy. We initiated 3 pilot clinical trials with immunological endpoints using TAA loaded autologous DC. These trials showed that this approach was safe and associated with the induction of potent TAA specific IFN-gamma responses, which were transient despite the providing a further help through KLH presentation. Subcutaneous (s.c.) IL-2 administration was associated with long-lasting TAA specific IL-5 production. Clinical responses were observed in about 1/3 of the patients. Further improvements will take advantage of the use of a new type of DC cells (IL-3/IFN-beta DC) and of tumor cell-DC hybrids.

Transient expansion of peptide-specific lymphocytes producing IFN-gamma after vaccination with dendritic cells pulsed with MAGE peptides in patients with mage-A1/A3-positive tumors.

Assessment of T-cell activation is pivotal for evaluation of cancer immunotherapy. We initiated a clinical trial in patients with MAGE-A1 and/or -A3 tumors using autologous DC pulsed with MAGE peptides aimed at analyzing T-cell-derived, IFN-gamma secretion by cytokine flow cytometry and ELISPOT. We also tested whether further KLH addition could influence this response favorably. Monocyte-derived DC were generated from leukapheresis products. They were pulsed with the relevant MAGE peptide(s) alone in group A (n=10 pts) and additionally with KLH in group B (n=16 pts). A specific but transient increase in the number of peripheral blood T lymphocytes secreting IFN-gamma in response to the vaccine peptide(s) was observed in 6/8 patients of group A and in 6/16 patients of group B. We conclude that anti-tumor vaccination using DC pulsed with MAGE peptides induces a potent but transient anti-MAGE, IFN-gamma secretion that is not influenced by the additional delivery of a nonspecific, T-cell help.

Transplantation tolerance and mixed chimerism: at the frontier of clinical application.

Although the persistence of donor-type hematopoietic cells in low numbers (microchimerism) is well established in some transplant recipients, its relevance for graft acceptance is still a matter of debate. On the other hand, clonal deletion of donor-specific alloreactive cells associated with mixed chimerism (macrochimerism) has reliably produced long-term graft tolerance in pre-clinical models. So far, the cytoablative conditioning regimens required to achieve mixed chimerism have hampered the clinical development of such protocols. Here, we discuss recent observations suggesting that the deliberate induction of hematopoietic cell chimerism might become a feasible strategy to achieve transplantation tolerance in clinics.

Generation of immature autologous clinical grade dendritic cells for vaccination of cancer patients.

BACKGROUND: Dendritic cell (DC)-based vaccine is a promising approach for cancer therapy. Pioneer trials have been conducted using DC generated in research conditions. There is now a need for generating DC in clinical grade conditions, including the use of closed systems, avoidance of FCS and respect of good manufacturing practices (GMP). METHODS: DC were generated from 84 leukapheresis products of 27 cancer patients enrolled in two Phase I/II trials of vaccination of either MAGE+tumors (n = 24) or prostate cancer (n = 3). Monocytes were seeded in culture bags in a serum-free medium supplemented with IL-4 and GM-CSF. After a 7 day culture, DC were collected and most were pulsed with various MAGE-derived peptides. RESULTS: After a short leukapheresis (mean time: 66 min; mean processed blood: 5 L), a mean of 6 x 10(9) WBC were collected, from which 2.25 x 10(9) were seeded. The culture procedure yielded a large number of DC (mean: 62 x 10(6) DC) harboring the expected phenotype of immature DC (CD1a(+) CD14(-) HLA-DR(+) CD80(+) CD86(+) CD83(-)). This phenotype was not altered by peptide loading. These DC, either fresh or thawed, were functionally effective invitro. Their s.c. and i.v. injections were devoid of any short-term side effect and associated with the induction of immune responses in the patients. DISCUSSION: Large numbers of functional immature clinical grade DC can be generated in a closed system from leukapheresis products in cancer patients. These results provide the basis for large-scale studies of cancer immunotherapy under improved safety conditions.

Increased in vitro immunosuppressive action of anti-CMV and anti-HBs intravenous immunoglobulins due to higher amounts of interferon-gamma specific neutralizing antibodies.

BACKGROUND AND OBJECTIVES: We previously found that interferon-gamma (IFN-gamma) antibodies in intravenous immunoglobulins (IVIG) can block not only IFN-gamma production and tumor necrosis factor-alpha secretion, but also T-cell proliferation. Since the presence of IFN-gamma antibodies has been attributed to previous viral infection, we hypothesized that the viral status of the plasma donors used for IVIG pools might be a decisive factor in controlling the immunosuppressive capacity of IVIG. MATERIALS AND METHODS: We tested three different pooled, human IVIG preparations for the presence of IFN-gamma antibodies by ELISA. RESULTS: Comparison of the immunomodulatory activity of polyvalent IVIG with that of specific CMV and HBs IVIG showed that the latter-had higher levels of IFN-gamma antibodies and an increased capacity to block mixed lymphocyte reaction and cytokine production. CONCLUSION: We propose that these in vitro assays constitute a basis for the selection of plasma intended for manufacturing IVIG aimed at immunosuppression in the transplant setting.

Blockade of proliferation and tumor necrosis factor-alpha production occurring during mixed lymphocyte reaction by interferon-gamma-specific natural antibodies contained in intravenous immunoglobulins.

The mechanism of action of intravenous immunoglobulins (IVIg) for prevention of graft rejection and graft-versus-host disease (GVHD) is poorly understood. Recently, it has been shown that these preparations contain natural antibodies directed toward interferon (IFN)-gamma. During mixed lymphocyte reaction (MLR), which constitutes an in vitro model of allograft rejection and GVHD, T cell recognition of HLA differences induces IFN-gamma release. This cytokine promotes T cell proliferation and acts as a macrophage-activating factor to provoke tumor necrosis factor-alpha secretion. The aim of the present work is to investigate the influence of IVIg on IFN-gamma production occurring during MLR and its subsequent impact on T cell proliferation and tumor necrosis factor (TNF)-alpha secretion. We tested IVIg preparations for the presence of anti-IFN-gamma and anti-TNF-alpha antibodies. High amounts of anti-IFN-gamma, but not anti-TNF-alpha antibodies, were found. IVIg addition at the initiation of culture resulted in IFN-gamma secretion blockade. Likewise, lymphocyte proliferation and TNF-alpha secretion were inhibited. This inhibition was reversed by the addition of recombinant human IFN-gamma. Furthermore, the inhibitory properties of IVIg were mimicked by an IFN-gamma-specific neutralizing monoclonal antibody. We conclude that the capacity of IVIg to inhibit proliferation and TNF-alpha release during MLR is due to IFN-gamma blockade by natural antibodies. This immunosuppressive mechanism could contribute to the effect of IVIg on prophylaxis of organ graft rejection and GVHD after allogeneic bone marrow transplantation.