Preparation of purified lymphoma cells suitable for therapy.

BACKGROUND: Very few tumoral Ags have yet been isolated in NHL B cells. It is nevertheless possible to use whole tumor cells as a source of tumor Ags. We describe the purification of large numbers of human NHL B cells directly from lymph node or spleen biopsies, and different preparations allowing their use in a clinical setting. METHODS: The purification procedure consists of the negative selection of tumor B cells: cells to be eliminated are opsonized by CD2 Abs, and then coupled to magnetic beads for separation by the Isolex 300 magnetic separator. RESULTS: The mean yield of the purification was 74% for CD19+ cells, with a mean purity of 87%, dependent on the initial fraction of tumor cells in the biopsy. Using this procedure, a large number of purified tumor cells can be recovered from a biopsy in sterile conditions. We also describe treatments of B cells that can enhance their uptake by APCs, a critical step in anti-tumor immunotherapy strategies. Cells were opsonized by rituximab, or induced in apoptosis by irradiation, or necrosis by heating. Cell lysates were directly prepared from purified tumor cells. DISCUSSION: These procedures were reproducible on every lymphoma cell, and treated cells were phagocytosed by APCs. The methodology described here allows the evaluation of the immunological potential of apoptotic, necrotic, opsonized lymphoma cells, or their lysates, in a clinical setting.

Preclinical evaluation of an automated closed fluid management device: Cytomate, for washing out DMSO from hematopoietic stem cell grafts after thawing.

Infusion of dimethylsulfoxide (DMSO) contained in cryopreserved and thawed hematopoietic stem cell (HSC) grafts is frequently associated with mild or moderate adverse reactions, and occasionally with more severe events including neurological symptoms. The severity of these complications is related to the amount of residual DMSO. We evaluated a recently available, closed, automated and 'cgmp (current good manufacturing practice) compliant' device (CytoMate) for its ability to wash out DMSO at the expense of a limited loss of viable CD34(+) cells. A total of 16 procedures were carried out with 39 blood HSC bags intended for destruction. Mean amounts of DMSO for each cellular product (one, two or three bags) were between 12.2 and 39.6 g before thawing; after the washing procedure, residual DMSO quantities were between 0.1 and 3.7 g. When set up to reproducibly allow for a more than 96% elimination of DMSO, processing of thawed cells with the CytoMate cell processor resulted in a mean recovery of viable total cells, CD34(+) cells and lymphocyte subsets above 60%. We conclude that this simple and efficient washing technique is suitable for routine processing of HSC grafts. Clinical studies will demonstrate whether a reduction in the incidence of adverse effects associated with DMSO infusion is observed.

Human recombinant anti-Rh(D) monoclonal antibodies: improvement of biological properties by in vitro class-switch.

Therapeutic use of human monoclonal antibodies has so far been hampered by their poor availability. Recent developments in recombinant DNA technologies are expected to fill this gap; the variable and constant sequences of antibodies can be selected independently and then subsequently joined to express whole antibodies. We assessed here the potential of this methodology to obtain novel anti-D antibodies with improved biological characteristics. The sequences coding for heavy and light chains of two anti-Rh(D) monoclonal antibodies (one IgG1 and one IgG3) were isolated and co-expressed into murine myeloma cell P3X63.Ag8.653, either directly (parental antibodies) or after exchange of constant heavy chain sequences (class-switched antibodies). Parental antibodies produced either by transfectomas or by hybridomas behaved similarly in analysis of biochemical, binding and effector properties. Class-switched antibodies displayed altered functional properties over parental antibodies. Of particular interest, one of them showed improved phagocytosis potencies over both parental antibodies. Additionally, these results indicate that functional properties do not always simply reflect the addition of properties of constant and variable parts but that interactions between constant and variable regions may interfere.

Use of the DAF assay to assess the functional properties of polyclonal and monoclonal RhD antibodies.

The mechanism whereby passive Rh (D) immunoglobulins suppress the fetomaternal alloimmunization is still unclear. New in vitro tests are needed to better characterize the functional properties of polyclonal anti-Ds. The DAF assay was developed to monitor the antibody-dependent cell-mediated cytotoxicity (ADCC) and the phagocytosis of anti-Rh (D)-sensitized RBCs by effector cells. The principle of this test is based on the oxydization of the 2,7-diaminofluorene (DAF) by the pseudoperoxidase activity of free hemoglobin. The reaction is proportional to the hemoglobin concentration. This test was performed to determine and emphasize the efficacy of different polyclonal anti-D immunoglobulin preparations to mediate lysis and phagocytosis of sensitized RBCs by human peripheral mononuclear cells. The functional properties of different human RhD monoclonal antibodies were also analyzed and compared. The test was found to be convenient to perform and allowed the avoidance of radioactive labelling of RBCs for ADCC studies. It is mainly useful for the direct quantitation of phagocytosis.