Your search keyword '"van den Beemd, M W M"' showing total 5 results

1. Flow cytometric analysis of normal B cell differentiation: a frame of reference for the detection of minimal residual disease in precursor-B-ALL.

Author

Lúcio, P, Parreira, A, van den Beemd, M W M, van Lochem, E G, van Wering, E R, Baars, E, Porwit-MacDonald, A, Bjorklund, E, Gaipa, G, Biondi, A, Orfao, A, Janossy, G, van Dongen, J J M, Miguel, JF San, van den Beemd, M W, van Dongen, J J, and San Miguel, J F

Subjects

*FLOW cytometry, *B cells, *ACUTE leukemia

Abstract

During the last two decades, major progress has been made in the technology of flow cytometry and in the availability of a large series of monoclonal antibodies against surface membrane and intracellular antigens. Flow cytometric immunophenotyping has become a diagnostic tool for the analysis of normal and malignant leukocytes and it has proven to be a reliable approach for the investigation of minimal residual disease (MRD) in leukemia patients during and after treatment. In order to standardize the flow cytometric detection of MRD in acute leukemia, a BIOMED-1 Concerted Action was initiated with the participation of six laboratories in five different European countries. This European co-operative study included the immunophenotypic characterization and enumeration of different precursor and mature B cell subpopulations in normal bone marrow (BM). The phenotypic profiles in normal B cell differentiation may form a frame of reference for the identification of aberrant phenotypes of precursor-B cell acute lymphoblastic leukemias (precursor-B-ALL) and may therefore be helpful in MRD detection. Thirty-eight normal BM samples were analyzed with five different pre-selected monoclonal antibody combinations: CD10/CD20/CD19, CD34/CD38/CD19, CD34/CD22/CD19, CD19/CD34/CD45 and TdT/CD10/CD19. Two CD19- immature subpopulations which coexpressed B cell-associated antigens were identified: CD34+/CD22+/CD19- and TdT+/CD10+/CD19-, which represented 0.11 +/- 0.09% and 0.04 +/- 0.05% of the total BM nucleated cells, respectively. These immunophenotypes may correspond to the earliest stages of B cell differentiation. In addition to these minor subpopulations, three major CD19+ B cell subpopulations were identified, representing three consecutive maturation stages; CD19dim/CD34+/TdT+/CD10bright/CD22dim/CD45dim /CD38bright/CD20- (subpopulation 1), CD19+/CD34-/TdT-/CD10+/CD22dim/CD45+/CD38bright/ CD20dim (subpopulation 2) and CD19+/CD34-/TdT-/CD10-/CD22bright/CD45bright/ CD38dim/CD20bright (subpopulation 3). The relative sizes of subpopulations 1 and 2 were found to be age related: at the age of 15 years, the phenotypic precursor-B cell profile in BM changed from the childhood 'immature' profile (large subpopulations 1 and 2/small subpopulation 3) to the adult 'mature' profile (small subpopulation 1 and 2/large subpopulation 3). When the immunophenotypically defined precursor-B cell subpopulations from normal BM samples are projected in fluorescence dot-plots, templates for the normal B cell differentiation pathways can be defined and so-called 'empty spaces' where no cell populations are located become evident. This allows discrimination between normal and malignant precursor-B cells and can therefore be used for MRD detection. [ABSTRACT FROM AUTHOR]

Published

1999

2. Immunophenotypic and immunogenotypic characteristics of TCRgammadelta+ T cell acute lymphoblastic leukemia.

Author

Langerak, A W, Wolvers-Tettero, I L M, van den Beemd, M W M, van Wering, E R, Ludwig, W-D, Hählen, K, Necker, A, van Dongen, J J M, Wolvers-Tettero, I L, van den Beemd, M W, and van Dongen, J J

Subjects

*T cell receptors, *LYMPHOBLASTIC leukemia

Abstract

Thirty T cell receptor (TCR)gammadelta+ T cell acute lymphoblastic leukemias (T-ALL) were analyzed for their immunophenotype, as well as for the rearrangements and junctional regions of the TCRG and TCRD genes. In 15 cases membrane expression of TCRgammadelta proteins could be studied extensively by flow cytometry with a new Vgamma/Vdelta antibody panel. Virtually all TCRgammadelta+ T-ALLs expressed TdT, CD2, CD3, CD5, CD6, and CD7, but they were heterogeneous in their CD1/CD4/CD8 immunophenotype. The majority expressed either CD4+/CD8- or CD4+/CD8+, whereas only 7/30 TCRgammadelta+ T-ALLs lacked both antigens. Despite heterogeneity in the rearranged TCRG and TCRD genes, we found preferential protein expression of VgammaI (21/30), Jgamma2.3 (19/30) and Cgamma2 (21/30) gene products in the TCRgammadelta+ T-ALL. Expressed TCRD genes were largely limited to Vdelta1-Jdelta1, except for six patients who expressed non-Vdelta1 TCRdelta chains (Vdelta2-Jdelta1, Vdelta2-Jdelta3, Vdelta3-Jdelta1, Vdelta6-Jdelta2, and two Valpha-Jdelta1). In spite of the relatively limited combinatorial repertoire of the TCRG and TCRD genes, the junctional region diversity of the expressed genes was extensive. The Vgamma/Vdelta antibody panel confirmed the predominant, but not exclusive, expression of VgammaI and Vdelta1 proteins. Importantly, not a single T-ALL expressed the common peripheral blood Vgamma9+/Vdelta2+ phenotype. These immunogenotypic and immunophenotypic characteristics represent excellent targets for flow cytometric and PCR-based detection of 'minimal residual disease' in all TCRgammadelta+ T-ALL. Comparison of non-Vdelta1+ TCRgammadelta T-ALLs with the more common Vdelta1+ type showed a trend towards a more mature immunogenotype in the former. Firstly, more complete TCRD rearrangements were identified on the non-expressed allele in the non-Vdelta1+ group (83% vs 43%); secondly, a higher frequency of 'end-stage' Jgamma2.3 gene rearrangements was found in non-Vdelta1 cases on both TCRG alleles (83% vs 66%); thirdly, a higher frequency of complete TCRB rearrangements was found in non-Vdelta1 cases (79% vs 50%). [ABSTRACT FROM AUTHOR]

Published

1999

3. BIOMED-1 concerted action report: flow cytometric immunophenotyping of precursor B-ALL with standardized triple-stainings.

Author

Lucio, P, Gaipa, G, van Lochem, E G, van Wering, E R, Porwit-MacDonald, A, Faria, T, Bjorklund, E, Biondi, A, van den Beemd, M W M, Baars, E, Vidriales, B, Parreira, A, van Dongen, J J M, San Miguel, J F, and Orfao, A

Subjects

*LYMPHOBLASTIC leukemia, *IMMUNOPHENOTYPING

Abstract

The flow cytometric detection of minimal residual disease (MRD) in precursor-B-acute lymphoblastic leukemias (precursor-B-ALL) mainly relies on the identification of minor leukemic cell populations that can be discriminated from their normal counterparts on the basis of phenotypic aberrancies observed at diagnosis. This technique is not very complex, but discordancies are frequently observed between laboratories, due to the lack of standardized methodological procedures and technical conditions. To develop standardized flow cytometric techniques for MRD detection, a European BIOMED-1 Concerted Action was initiated with the participation of laboratories from six different countries. The goal of this concerted action was to define aberrant phenotypic profiles in a series of 264 consecutive de novo precursor-B-ALL cases, systematically studied with one to five triple-labelings (TdT/CD10/CD19, CD10/CD20/CD19, CD34/CD38/CD19, CD34/CD22/CD19 and CD19/CD34/CD45) using common flow cytometric protocols in all participating laboratories. The use of four or five triple-stainings allowed the identification of aberrant phenotypes in virtually all cases tested (127 out of 130, 98%). These phenotypic aberrancies could be identified in at least two and often three triple-labelings per case. When the analysis was based on two or three triple-stainings, lower incidences of aberrancies were identified (75% and 81% of cases, respectively) that could be detected in one and sometimes two triple-stainings per case. The most informative triple staining was the TdT/CD10/CD19 combination, which enabled the identification of aberrancies in 78% of cases. The frequencies of phenotypic aberrations detected with the other four triple-stainings were 64% for CD10/CD20/CD19, 56% for CD34/CD38/CD19, 46% for CD34/CD22/CD19, and 22% for CD19/CD34/CD45. In addition, cross-lineage antigen expression was detected in 45% of cases, mainly coexpression of the myeloid antigens CD13 and/or CD33 (40%).... [ABSTRACT FROM AUTHOR]

Published

2001

4. BIOMED-1 concerted action report: flow cytometric characterization of CD7+ cell subsets in normal bone marrow as a basis for the diagnosis and follow-up of T cell acute lymphoblastic leukemia (T-ALL).

Author

Porwit-MacDonald, A, Björklund, E, Lucio, P, van Lochem, E G, Mazur, J, Parreira, A, van den Beemd, M W M, van Wering, E R, Baars, E, Gaipa, G, Biondi, A, Ciudad, J, van Dongen, J J M, San Miguel, J F, Orfao, A, van den Beemd, M W, and van Dongen, J J

Subjects

*T cells, *BONE marrow

Abstract

The European BIOMED-1 Concerted Action was initiated in 1994 to improve and standardize the flow cytometric detection of minimal residual disease (MRD) in acute leukemia (AL). Three different protocols were defined to identify the normal subsets of B, T and myeloid cells in bone marrow (BM), and were applied to the different types of AL in order to study aberrant immunophenotypes. Using sensitive acquisition methods ('live gate') T cell subsets in normal BM could be identified with five triple-stains: CD7/CD5/CD3, CD7/CD4/CD8, CD7/CD2/CD3, CD7/CD38/CD34 and TdT/CD7/surface or cytoplasmic (cy)CD3 (antibodies conjugated with FITC/PE/PECy5 or PerCP, respectively). The identification of T cell subsets in BM allowed definition of 'empty spaces' (ie areas of flow cytometric plots where normally no cells are found). All studied T-ALL cases (n = 65) were located in 'empty spaces' and could be discriminated from normal T cells. The most informative triple staining was TdT/CD7/cyCD3, which was aberrant in 91% of T-ALL cases. In most cases, two or more aberrant patterns were found. Apparently the immunophenotypes of T-ALL differ significantly from normal BM T cells. This is mostly caused by their thymocytic origin, but also the neoplastic transformation might have affected antigen expression patterns. Application of the five proposed marker combinations in T-ALL contributes to standardized detection of MRD, since cells persistent or reappearing in the 'empty spaces' can be easily identified in follow-up BM samples during and after treatment. [ABSTRACT FROM AUTHOR]

Published

2000

5. Flow cytometric detection of intracellular antigens for immunophenotyping of normal and malignant leukocytes: testing of a new fixation-permeabilization solution.

Author

Van Lochem, E G, Groeneveld, K, Marvelde, JG Te, Van den Beemd, M W M, Hooijkaas, H, Van Dongen, J J M, Te Marvelde, J G, Van den Beemd, M W, and Van Dongen, J J

Subjects

*FLOW cytometry, *ANTIGENS, *IMMUNOPHENOTYPING, *LEUKEMIA, *LYMPHOMAS, *ANTIGEN analysis, *LEUCOCYTES

Abstract

Analyzes commercially available fixation and permeabilization solutions for the flow cytometric detection of intracellular antigens. Methods to detect flow cytometry of intracellular antigens; Flow cytometric analysis of terminal deoxynucleotidyl transferase; Importance of flow cytometric detection of intracellular antigens for immunophenotyping of leukemia and lymphomas.

Published

1997