Your search keyword '"Kluin-Nelemans JC"' showing total 12 results

1. Clonally expanded T cells in hairy cell leukemia patients are not leukemia specific.

Author

Spaenij-Dekking EH, Van der Meijden ED, Falkenburg JH, and Kluin-Nelemans JC

Subjects

Antigens, CD metabolism, Humans, Leukemia, Hairy Cell immunology, Receptors, Antigen, T-Cell metabolism, T-Lymphocytes immunology, Bone Marrow pathology, Leukemia, Hairy Cell diagnosis, T-Lymphocytes metabolism

Published

2004

2. Synaptojanin 2 is recognized by HLA class II-restricted hairy cell leukemia-specific T cells.

Author

Spaenij-Dekking EH, Van Delft J, Van Der Meijden E, Hiemstra HS, Falkenburg JH, Koning F, Drijfhout JW, and Kluin-Nelemans JC

Subjects

Cloning, Molecular, Epitopes, T-Lymphocyte, Gene Expression Regulation, Leukemic, HeLa Cells, Histocompatibility Antigens Class II genetics, Histocompatibility Antigens Class II immunology, Humans, K562 Cells, Leukemia, Hairy Cell physiopathology, Peptide Library, Phosphatidylinositol 4,5-Diphosphate metabolism, Phosphoric Monoester Hydrolases metabolism, Retroviridae genetics, Transduction, Genetic, U937 Cells, CD4-Positive T-Lymphocytes immunology, Leukemia, Hairy Cell immunology, Nerve Tissue Proteins genetics, Nerve Tissue Proteins immunology, Phosphoric Monoester Hydrolases genetics, Phosphoric Monoester Hydrolases immunology

Abstract

Hairy cell leukemia (HCL) is a chronic mature B-cell leukemia characterized by malignant B cells that have typical hairy protrusions. To characterize possible HCL-associated tumor antigens, we generated an HCL-specific and HLA class II (DPw4)-restricted proliferative CD4+ T-cell clone. To identify the target antigen of these T cells, we constructed a synthetic peptide library dedicated to bind HLA DPw4, and identified a mimicry epitope recognized by the T-cell clone. With this epitope, the recognition motif of the T-cell clone was deduced and a peptide of human synaptojanin 2 (Syn 2) was identified that stimulated the HCL-reactive T-cell clone. Both Northern and Western blot analyses showed that Syn 2 expression was increased in HCL samples compared to other B cells. Besides, the Syn 2-expressing cell line AML193, with the introduced restrictive HLA-DPw4 molecules, was recognized by the HCL-specific T-cell clone. These results indicate that Syn 2 is a target of autoreactive HCL-specific T cells. Since Syn 2 is a phosphatidylinositol 4,5-biphosphatase involved in cell growth and rearrangement of actin filaments, the increased Syn 2 expression may correlate with the disease etiology or the characteristic morphologic alterations caused by the disease.

Published

2003

3. Impaired expression of CD28 on T cells in hairy cell leukemia.

Author

van de Corput L, Falkenburg JH, Kester MG, Willemze R, and Kluin-Nelemans JC

Subjects

Blood Donors, CD4-Positive T-Lymphocytes immunology, Clonal Anergy immunology, Humans, Leukocytes, Mononuclear transplantation, Lymphocyte Activation immunology, Lymphocyte Culture Test, Mixed, CD28 Antigens blood, Leukemia, Hairy Cell blood, Leukemia, Hairy Cell pathology, T-Lymphocyte Subsets immunology

Abstract

T cells from patients with active hairy cell leukemia (HCL), a chronic B cell malignancy, show poor proliferation in response to allogeneic peripheral blood mononuclear cells (PBMC). In order to study the T cell dysfunction, the expression of several adhesion and costimulatory molecules was analyzed by flow cytometry. Circulating T cells from HCL patients showed increased percentages of CD28(-) in all T cell subsets. In some patients the percentage of CD28(-) T cells within the CD4(+) subset was increased up to 80%. These CD4(+)CD28(-) T cells did not proliferate in a mixed lymphocyte culture (MLC) against allogeneic PBMC. After enrichment for CD4(+)CD28(+) T cells, the proliferative response in the MLC was recovered, but this response was still lower than the proliferative response from control T cells. In conclusion, lack of CD28 on T cells and a restricted T cell repertoire may contribute to immune deficiency in patients with HCL., (Copyright 1999 Academic Press.)

Published

1999

4. T-cell dysfunction in hairy cell leukemia: an updated review.

Author

Van De Corput L, Falkenburg JH, and Kluin-Nelemans JC

Subjects

Cell Adhesion immunology, Humans, Lymphocyte Activation, Receptors, Antigen, T-Cell metabolism, Leukemia, Hairy Cell immunology, Leukemia, Lymphocytic, Chronic, B-Cell immunology, Lymphoma, Non-Hodgkin immunology, T-Lymphocytes immunology

Abstract

Hairy cell leukemia (HCL) is clinically associated with severe T-cell dysfunction. Several new observations have given more insight into the abnormal T-cell responses seen in this disease. T-lymphocytes in the spleen of patients with HCL seem to be abnormally activated. On the other hand, they are non-responsive, possibly as a result of monocytopenia which may lead to inadequate antigen presentation. This, together with the lack of CD28 on T-cells, may cause T-cell dysfunction. Furthermore, there is a very restricted repertoire of the T-cell receptor-beta family, which may also result in non-responsiveness. Otherwise, T-cell clonal excess may be indicative for activated, possibly autoreactive T-cells.

Published

1998

5. TCR gamma delta+ cells expressing Vgamma 9V delta2, which normally predominate the blood, are found in the spleens of patients with hairy cell leukemia.

Author

van de Corput L, Kester MG, Falkenburg JH, Willemze R, and Kluin-Nelemans JC

Subjects

Humans, Immunity, Cellular, Leukemia, Hairy Cell blood, Spleen pathology, T-Lymphocytes chemistry, Immunophenotyping methods, Leukemia, Hairy Cell immunology, Receptors, Antigen, T-Cell, gamma-delta, Spleen immunology, T-Lymphocytes classification

Abstract

T cell receptor gamma delta+ (TCR gamma delta+) cells are present in all lymphoid tissues, but at lower frequencies than TCR alpha beta+ cells. In normal spleens, they account for about 15-20% of CD3+ cells. In hairy cell leukemia (HCL), a B cell malignancy with a characteristic involvement of the spleen, splenic T cells of approximately 40% of the examined patients showed a remarkable increase in CD3+ TCR gamma delta+ cells. Therefore, we studied the TCR gamma delta phenotypes in blood and spleen of 12 HCL patients in comparison with normal samples. In normal blood (n= 6) the majority of TCR gamma delta+ cells expressed the Vgamma 9V delta2 phenotype, while in normal spleens (n = 9) a different population was found expressing Vdelta1. In contrast, six of eight paired blood and spleen samples of individual HCL patients demonstrated the same phenotype with predominantly Vgamma 9V delta2 expression. This change in splenic TCR gamma delta usage in patients with HCL might be the result of cell-trapping, or an infiltration of TCR gamma delta+ cells from the blood.

Published

1997

6. Cytogenetics on released DNA fibers.

Author

Vaandrager JW, Kleiverda JK, Schuuring E, Kluin-Nelemans JC, Raap AK, and Kluin PM

Subjects

DNA Probes, DNA, Neoplasm genetics, Genes, Immunoglobulin, Genes, Switch, Humans, Immunoglobulin Switch Region, In Situ Hybridization, Fluorescence methods, Leukemia, Hairy Cell immunology, Leukemia, Hairy Cell pathology, Lymphoma, Non-Hodgkin immunology, Lymphoma, Non-Hodgkin pathology, Chromosomes, Human, Pair 11, Chromosomes, Human, Pair 14, DNA, Neoplasm analysis, Leukemia, Hairy Cell genetics, Lymphoma, Non-Hodgkin genetics, Translocation, Genetic

Abstract

DNA fibers can be released from cell suspensions and frozen tissue and can be used as a template for hybridization with multiple differently labeled probes. Simultaneous hybridization with 5-10 adjacent or partly overlapping probes generates a highly specific "color barcode" for individual DNA segments. Rearrangements in this barcode can be easily detected and mapped. The resolution of DNA fiber FISH is between 2 and 500kb. In mixing experiments of cell lines with different structural abnormalities, we found a sensitivity of approximately 10%. We applied DNA fiber FISH for detection of t(11;14) in mantle cell lymphoma (MCL) and immunoglobulin (Ig) class switching in hairy cell leukemia (HCL). Using a barcode for the Ig and BCL-1 loci at 14q32 and 11q13, we detected and mapped a t(11;14) breakpoint in 35 of 36 MCL. In 5 cases complex mono-allelic rearrangements at both sides of the cyclin D1 gene were identified. In 13 HCL with phenotypic evidence of Ig class switching, including 2 cases with solely IgD, fiber FISH revealed concordant Ig class switch deletions. In most cases both alleles were affected. These results indicate that DNA fiber FISH is a very powerful method to detect and map structural DNA alterations.

Published

1997

7. Persistent clonal excess and skewed T-cell repertoire in T cells from patients with hairy cell leukemia.

Author

Kluin-Nelemans JC, Kester MG, Melenhorst JJ, Landegent JE, van de Corput L, Willemze R, and Falkenburg JH

Subjects

Base Sequence, Humans, Immunophenotyping, Leukemia, Hairy Cell genetics, Molecular Sequence Data, Polymerase Chain Reaction, Receptors, Antigen, T-Cell immunology, Gene Rearrangement, T-Lymphocyte, Leukemia, Hairy Cell immunology, Receptors, Antigen, T-Cell genetics, T-Lymphocyte Subsets immunology

Abstract

Hairy cell leukemia (HCL) is characterized by a severe T-cell-mediated immune deficiency. At the same time, spontaneous T-cell activation is noted when splenic T cells are studied in vivo and in vitro. Therefore, we searched for oligoclonal T-cell populations in the blood and spleens of 25 patients with HCL using a T-cell receptor gamma-polymerase chain reaction (TCR gamma-PCR). Subsequently, in 6 patients, the CDR3 length and conformation from 22 different TCRBV subfamilies were analyzed after PCR amplification of cDNA using TCRBV subfamily-specific primers. T cells from 15 of 25 HCL patients showed clonal excess by the TCR gamma-PCR. In fluorescence-activated cell sorted T-cell subsets, more clonal bands were observed than in the unseparated T cells, with most of these in CD8+ subsets, but also in CD4+, CD3+ gamma/delta+, and a double-negative CD3+ alpha/beta+ subset. In other B-cell malignancies, 6 of 16 samples showed oligoclonal T cells, whereas only 2 of 18 normal spleen and blood samples showed abnormal bands. Analysis of the TCRBV subfamilies disclosed in all 6 HCL patients a markedly abnormal pattern, with many clonal bands in 5 to 15 subfamilies, and absent or abnormal weak patterns in another 1 to 8 subfamilies. In comparison, 6 normal samples (2 spleens and 4 blood samples) showed in only 1 blood donor 1 clonal band. Two patients with active HCL but without infections or treatment were tested several times during the course of the disease and showed a complete identical skewed T-cell repertoire with the same oligoclonal T-cell populations. In conclusion, T cells in the blood and spleen of HCL patients show impressive abnormalities with many oligoclonal T-cell populations and a very restricted and skewed TCRBV repertoire.

Published

1996

8. Involvement of the CCND1 gene in hairy cell leukemia.

Author

de Boer CJ, Kluin-Nelemans JC, Dreef E, Kester MG, Kluin PM, Schuuring E, and van Krieken JH

Subjects

Adult, Aged, Cyclin D1, Female, Humans, Immunohistochemistry, Male, Middle Aged, Cyclins analysis, Gene Expression Regulation, Leukemic physiology, Gene Rearrangement, Leukemia, Hairy Cell genetics, Oncogene Proteins analysis, Translocation, Genetic

Abstract

Background: Previous results suggested increased mRNA expression of CCND1 in hairy cell leukemia (HCL). The CCND1 gene is involved in the t(11;14)(q13;q32) chromosomal rearrangement, a characteristic abnormality in mantle cell lymphoma (MCL). We and others reported that, in contrast to other B-cell lymphomas, almost all MCL have over-expression of the CCND1 gene with a good correlation between RNA and protein analysis. Recent studies showed that overexpression of the cyclin D1 protein can be easily detected by immunohistochemistry (IHC) on formalin-fixed, paraffin embedded tissues., Patients and Methods: To investigate whether the CCND1 gene is involved in HCL, we performed IHC on a series of 22 cases using formalin-fixed paraffin embedded splenectomy specimens. For IHC the sections were boiled in citrate buffer. The presence of rearrangements within the BCL-1 locus and the CCND1 gene was analyzed in 13 of 22 cases by Southern blot analysis using all available break-point probes. Expression of CCND1 was analyzed at the mRNA level (Northern blot) and protein level (IHC)., Results: Overexpression of the cyclin D1 protein using IHC was observed in all cases, with strong expression in 5 cases. Pre-existing B- and T-cell areas of the spleen did not express significant levels of the cyclin D1 protein. Seven of 9 cases analyzed by both IHC and Northern blotting showed overexpression of the CCND1 gene with both methods. No genomic abnormalities were observed in any of the 13 cases studied by Southern blot analysis. Additionally, no 11q13 abnormalities were detected by banding analysis of 19 of 22 cases., Conclusions: The elevated levels of CCND1 mRNA and protein in conjunction with the absence of overt rearrangements within the BCL-1 locus distinguish HCL from MCL and other B-cell malignancies. This suggests that activation of the CCND1 gene in HCL is due to mechanisms other than chromosomal rearrangement.

Published

1996

9. Abnormally activated T lymphocytes in the spleen of patients with hairy-cell leukemia.

Author

Kluin-Nelemans JC, Kester MG, Oving I, Cluitmans FH, Willemze R, and Falkenburg JH

Subjects

Blotting, Northern, Cytokines genetics, Gene Expression, Granulocyte-Macrophage Colony-Stimulating Factor genetics, Humans, Immunophenotyping, Interferon-gamma genetics, Interleukin-2 metabolism, Lymphocytes, Tumor-Infiltrating immunology, Polymerase Chain Reaction, RNA, Messenger metabolism, T-Lymphocytes metabolism, Leukemia, Hairy Cell immunology, Lymphocyte Activation, Spleen immunology, T-Lymphocytes immunology

Abstract

Hairy-cell leukemia (HCL) is a B-cell leukemia, but many factors argue for a T-cell dysfunction and/or involvement in this disease. Hairy cells typically home in the spleen, and become circulating only late in the disease. As it is assumed that the T-cell abnormalities are caused by specific interactions with the hairy cells, we studied the immunophenotype in 17 cases (CD3, CD4, CD8, CD45R0, TCR gamma delta) and cytokine gene expression in four cases (IL-1 beta, IL-2, IL-3, IL-4, IL-6, IL-7, IL-10, IFN-gamma, TNF-alpha, GM-CSF and the receptors of IL-1 and IL-2, using the cDNA-PCR technique) of purified T-cell fractions from hairy-cell spleens. By Northern blot analysis, mRNA for IFN-gamma, GM-CSF, IL-10 and TNF-alpha was measured in purified T cells and hairy cells from three HCL spleens. The results of the immunophenotype and cDNA-PCR data were compared with ten normal spleens. Compared to blood, splenic T cells showed a reversed CD4/CD8 ratio, a normal percentage of memory T cells, and an increase in CD3+TCR gamma delta + cells. Without specific induction spontaneous cytokine gene expression of IL-2, IL-4, IFN-gamma, and GM-CSF was seen in the purified T-cell fractions without signals in the purified hairy-cell fractions. mRNA expression of IFN-gamma and GM-CSF in the T cells, and of IL-10 and TNF-alpha in the hairy cells was confirmed by the Northern blot technique. From these data we suggest that splenic T cells in HCL should not be considered as residual or recirculating T cells, but rather as tumor-infiltrating lymphocytes.

Published

1994

10. Serum monocyte colony-stimulating factor, erythropoietin and interleukin-6 in relation to pancytopenia in hairy cell leukemia.

Author

Jansen JH, Wientjens GJ, Fibbe WE, Ralph P, Van Damme J, den Ottolander GJ, Willemze R, and Kluin-Nelemans JC

Subjects

Humans, Leukemia, Hairy Cell pathology, Pancytopenia, Time Factors, Erythropoietin blood, Interleukin-6 blood, Leukemia, Hairy Cell blood, Macrophage Colony-Stimulating Factor blood

Abstract

In patients with hairy cell leukemia (HCL), we measured serum levels of monocyte colony-stimulating factor (M-CSF), interleukin-6 (IL-6), and erythropoietin during various degrees of pancytopenia characteristic for this disease. Serial sera from 12 HCL patients during various stages of the disease were analyzed. No correlation was found between the levels of M-CSF or IL-6 and the numbers of circulating monocytes or platelets, normal values of M-CSF (4 to 10 mg/l), and IL-6 (3-50 U/ml) being detected during all stages of the disease. In contrast, erythropoietin levels were inversely related with the hemoglobin concentration (r = -0.79), indicating the presence of a normal feedback mechanism for this factor in patients with HCL.

Published

1992

11. Establishment of a new human B-cell line (BONNA-12) with trisomy 9 and trisomy 12 chromosomal abnormality.

Author

Kluin-Nelemans JC, Wientjens GJ, and Jansen JH

Subjects

Cell Transformation, Viral, Herpesvirus 4, Human physiology, Humans, Leukemia, B-Cell genetics, Leukemia, Hairy Cell genetics, Tumor Cells, Cultured, Chromosomes, Human, Pair 12, Chromosomes, Human, Pair 9, Leukemia, B-Cell pathology, Leukemia, Hairy Cell pathology, Trisomy

Published

1992

12. Hairy cell leukemia: in-vitro proliferation and pseudo-colony formation.

Author

Kluin-Nelemans JC, Hakvoort HW, van Dissel JT, van Dierendonck JH, Beverstock GC, Fibbe WE, and Willemze R

Subjects

Bromodeoxyuridine metabolism, Cell Aggregation, Cell Division, Cell Movement, Cells, Cultured, Humans, Leukemia, Hairy Cell genetics, Leukemia, Hairy Cell immunology, Leukemia, Hairy Cell pathology

Abstract

In an established double layer clonogenic assay, the PHA-leukocyte feeder colony assay, hairy cell leukemia (HCL) cells formed strong aggregates simulating colonies. After irradiation with 50 Gy, colony formation persisted. Even in a modified colony assay consisting of agar 0.5% overlayered by methylcellulose 0.9%, cell aggregation was still possible due to increasing fluidity of the methylcellulose during the culture period. Time-lapse video recordings confirmed prominent cell motility leading to pseudo-colony formation. Studies with bromodeoxyuridine incorporation showed a low proliferation index (up to 13%) of hairy cells. In conclusion, any assay that facilitates cell motility is unsuitable to study HCL colony growth.

Published

1987