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Leukaemia-Derived Dendritic Cells Can Be Generated From Blood or Bone Marrow Cells From Patients With Myelodysplasia: A Methodological Approach Under Serum-Free Culture Conditions (2005)

Kufner, S. ; Zitzelsberger, H. ; Kroell, T. ; [et al.]

Oxford, UK; Malden, USA : Blackwell Science Ltd

Scandinavian journal of immunology 62 (2005), S. 0

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ISSN: 1365-3083

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Functional dendritic cells (DC) are professional antigen-presenting cells (APC) and can be generated in vitro from healthy as well as from leukaemic cells from AML patients giving rise to APC of leukaemic origin presenting leukaemic antigens. In a comparative methodological analysis of 50 AML samples, we could already show that leukaemia-derived DC can regularly be generated under serum-free culture conditions. In this study, we describe the generation and characterization of DC from different mononuclear cell (MNC) fractions from 24 myelodysplastic syndrome (MDS) patients under those different serum-free culture conditions, determine the optimal culture conditions and compare the results with that from 23 healthy donors. In parallel cultures, we compared DC harvests after 7- or 14-day culture, with total or adherent MNC or T-cell-depleted MNC or PB or BM–MNC, thawn or fresh MNC, in Xvivo or CellGro serum-free media, ±10% autologous plasma or ±FL. In detail, we could show that MDS–DC harvests compared to healthy DC were higher after 10- to 14-day culture; total or adherent PB or BM–MNC fractions yield comparable DC counts; however, from MACS-depleted MNC fractions or thawn MNC lower DC counts can be generated. Whereas the addition of FL increases the DC harvest, the addition of autologous plasma in many cases has inhibitory influence on DC maturation, CellGro and Xvivo media yield comparable DC counts. Optimal harvest of vital and mature DC from MDS samples was obtained with a GM-CSF, IL-4, FL and TNF-α containing serum-free Xvivo medium after 10–14 days of culture (18/26% DC; 54/64% vital DC; 59/51% mature DC were generated from MDS/healthy MNC samples). Surface marker profiles (e.g. costimulatory antigen expression) of DC obtained from MDS samples were comparable with that of healthy DC. The leukaemic derivation of MDS–DC was demonstrated by the persistence of the clonal cytogenetic aberration in the DC or by coexpression of leukaemic antigens on DC. Autologous T-cell activation of leukaemia-derived DC was demonstrated in cases with MDS. Autologous T cells proliferate and upregulate DC-contact-relevant antigens. We are the first who demonstrate that the generation of leukaemia-derived DC is feasible not only in AML but also in MDS under serum-free culture conditions giving rise to DC with comparable characteristics as healthy DC and offering an antileukaemia-directed immunotherapeutical vaccination strategy in AML and MDS.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-3083.2005.01631.x

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Leukemia-Derived Dendritic Cells can be Generated from Blood or Bone Marrow Cells from Patients with Acute Myeloid Leukaemia: A Methodological Approach under Serum-Free Culture Conditions (2005)

Kufner, S. ; Zitzelsberger, H. ; Kroell, T. ; [et al.]

Oxford, UK; Malden, USA : Blackwell Science Ltd

Scandinavian journal of immunology 62 (2005), S. 0

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ISSN: 1365-3083

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Functional dendritic cells (DC) are professional antigen-presenting cells (APC) and can be generated in vitro from healthy as well as from leukaemic cells from acute myeloid leukemia (AML) patients giving rise to APC of leukaemic origin-presenting leukaemic antigens. We describe the generation and characterization of DC from different mononuclear cell (MNC) fractions from 50 AML patients under different serum-free culture conditions, determine the optimal culture conditions and compare the results with that from 23 healthy donors. In parallel cultures, we compared DC harvests after 7- or 14-day culture, with total or adherent MNC or T-cell depleted MNC or peripheral blood (PB) or bone marrow-MNC (BM–MNC), thawn or fresh MNC, in Xvivo or CellGro serum-free media, ±10% autologous plasma or ±FL. In detail, we could show that AML–DC harvests were higher after 10–14 days culture (healthy DC: 7 days); total or adherent PB or BM–MNC fractions yield comparable DC counts, however, from magnetic cell sorting (MACS)-depleted MNC fractions or thawn MNC lower DC counts can be generated. Whereas the addition of FL increases the DC harvest, the addition of autologous plasma in many cases has inhibitory influence on DC maturation. CellGro and Xvivo media yield comparable DC counts. Optimal harvest of vital and mature DC from AML samples was obtained with a granulocyte/macrophage-colony stimulating factor, interleukin-4, FL and tumour necrosis factor-α-containing serum-free Xvivo medium after 10–14 days of culture (36/26% DC; 38/64% vital DC; 46/51% mature DC were generated from AML/healthy MNC samples). Surface marker profiles (e.g. costimulatory antigen expressing) of DC obtained from AML samples were comparable with that of healthy DC. The leukaemic derivation of AML–DC was demonstrated by the persistence of the clonal cytogenetic aberration in the DC or by coexpression of leukaemic antigens on DC. Autologous T-cell activation of leukaemia-derived DC was demonstrated in cases with AML. Autologous T cells proliferate and upregulate DC-contact-relevant antigens. We demonstrate that the generation of leukaemia-derived DC is feasable in AML under serum-free culture conditions giving rise to DC with comparable characteristics as healthy DC and offering an anti-leukaemia-directed immunotherapeutical vaccination strategy in AML.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-3083.2005.01630.x

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Cytogenetic and Southern blot analysis to demonstrate clonality and to estimate prognosis in patients with myelodysplastic syndromes (2000)

Schmetzer, H. M. ; Poleck, B. ; Duell, T. ; [et al.]

Springer

Annals of hematology 79 (2000), S. 20-29

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ISSN: 1432-0584

Keywords: Key words Myelodysplasia ; Clonality ; Southern blot analysis ; Cytogenetic

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We examined the bone marrow of 109 patients with myelodysplastic syndrome (MDS) at the time of diagnosis and during the course of the disease by means of Southern blot analysis and/or cytogenetic studies to detect and evaluate clonal markers, their implications for the prognosis of the disease, and the response to treatment. The patients either were enrolled in an EORTC study and received low-dose Ara-C with (n=31) or without (n=21) growth factors, according to the study protocol, or were treated supportively (only one patient received regular chemotherapy for concomitant lymphoma). Full or at least partial remission was achieved by 34% of the treated patients (n=54). In 57% (53 of 93) of all patients a clonal marker of either kind was detected by Southern blot analysis and/or cytogenetic examination. Clonal chromosomal aberrations were found in 45% (35 of 77) of the cases examined at diagnosis, with solitary del(5q) aberrations occurring in 10% of the cases and complex aberrations in 18%, trisomy 8 or monosomy 7 being a frequent finding. Of all patients, 49% (28 of 57) were characterized by one or more gene rearrangements (e.g., Ig-JH, TcR-β, M-bcr, GM-CSF, G-CSF, or IL-3) at diagnosis. In five of 21 cases (24%) studied in hematological remission of the disease chromosomal aberrations were still detectable, and in seven of 23 (30%) a gene rearrangement persisted. We also found six cases with multiple clones exhibiting different susceptibilities to treatment and thereby indicating the oligoclonal character of this disease. Clinical evaluation revealed that the prognosis of the respective patients was directly related to the particular clonal markers detected at diagnosis: Risk groups were subdivided according to the karyotypes, with a solitary del(5q) aberration meaning a favorable, a normal karyotype an intermediate, solitary aberrations without del(5q) a poor, and complex karyotypes a very poor prognosis. We showed that densitometry helps to increase the sensitivity of Southern blot analysis by quantifying the amount of altered DNA, which often increases shortly before or at progression of MDS. Overall, there was a high level of concordance of both clonality examinations with the clinical course of the disease and the response rate. Therefore, we recommend cytogenetic studies and Southern blot analysis to detect clonal markers at diagnosis of MDS, to detect oligoclonality and clonal evolution, or to quantify the amount of clonal DNA, which appears to be a sensitive tool for evaluating the prognosis and response to therapy in MDS.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002770050004

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Cytokines can reduce clonal, CD34-positive cells in acute myeloid leukemia in vitro (2000)

Braun, S. ; Gerhartz, H. H. ; Schmetzer, H. M.

Springer

Annals of hematology 79 (2000), S. 363-373

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ISSN: 1432-0584

Keywords: Key words Southern blot ; Clonality ; AML ; Cytokines ; Residual disease ; Flow cytometry

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We studied the influence of cytokine mixes on the survival of acute myeloid leukemia (AML) bone-marrow (BM) cells in a 14-day culture assay in vitro. Southern-blot analysis using a panel of different probes in combination with densitometry and flow cytometry were used to detect and compare the amount of clonal or CD34-positive BM cells before and after the culturing procedure. A significant reduction of CD34-positive cells after incubation with a cytokine mix [interleukin (IL)-1β, IL-3, IL-6, stem cell factor (SCF), erythropoietin (EP) with granulocyte macrophage/colony-stimulating factor (GM-CSF, Cytok1] could be achieved in all 16 cases with a CD34-positive blast phenotype studied at diagnosis (P〈0.001), in 3 of 10 cases at relapse, and in 8 of 18 cases in complete remission. In healthy donors, an increase of CD34-positive cells was demonstrated in 5 of 5 samples. A reduction of clonal DNA through incubation with Cytok1 was achieved in 5 of 5 (100 %) cases studied at diagnosis, in 1 of 4 (25%) cases at relapse, and in 7 of 9 cases (78%) in complete remission. Cytokine cocktails with GM-CSF (Cytok1) were more efficient in reducing (clonal) CD34-positive cells than cocktails without GM-CSF (Cytok2). AML patients at diagnosis and in complete remission had a better survival probability if their CD34-positive or clonal cells could be reduced in vitro by cytokine cultivation (P〈0.05). Vitality of BM cells was not influenced by 14-day cytokine treatment; however, the total cell count could be increased by Cytok1 and Cytok2 by 55–174%, but not by the control medium. Our data show that: (1) clonal cell populations can be regularly detected at diagnosis, during complete remission, and at relapse; (2) CD34-positive cells in AML can be demonstrated to be clonal, gene-rearranged cells; (3) incubation of AML BM-cells with Cytok1 leads to a reduction of the CD34-positive, clonal cell load in all cases at diagnosis and in 78% of the cases in complete remission of AML, but in only 25% of the cases at relapse; (4) in all healthy BM samples, proportions of ‘healthy’ CD34-positive cells were increased. Moreover, absolute cell counts were increased by cytokine incubation of cells obtained at diagnosis, relapse, or complete remission of AML and from healthy donors indicating a selective stimulation of healthy, but not of leukemic CD34-positive cells; (5) cytokine cocktails containing GM-CSF are more efficient in reducing leukemic cells than cocktails without GM-CSF; and (6) in vitro reactivity of clonal or CD34-positive BM cells against Cytok1 has clinical relevance. We conclude, that Southern-blot analysis and flow cytometry are suitable methods to detect and quantify leukemic disease and to distinguish between clonal or non-clonal CD34-positive cells. The ex vivo or clinical application of specific combinations of cytokines might be a feasible and successful application of immunotherapy in AML that merits further investigations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002770000161

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GM-CSF stimulates proliferation of clonal leukemic bone marrow cells in acute myeloid leukemia (AML) in vitro (1999)

Schmetzer, H. M. ; Gerhartz, H. H. ; Wilmanns, W.

Springer

Annals of hematology 78 (1999), S. 449-455

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ISSN: 1432-0584

Keywords: Key words Southern blot ; Clonality ; AML ; Cytokines ; Residual disease ; Flow cytometry

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Granulocyte-macrophage colony-stimulating factor (GM-CSF) is known to stimulate granulocytes, monocytes, and macrophages. We studied the effect of GM-CSF on (clonal) bone marrow (BM) cells obtained from AML patients after 7 days of culture in vitro: BM samples were obtained from 19 AML patients at diagnosis (DIA), from two patients with persisting disease (PERS), from eight patients in complete remission (CR), and from 12 healthy donors. Flow-cytometric comparison of differentiated, CD 15-positive cells or of CD34-positive blast cells before and after cultivation showed that the proportion of CD15-positive cells was increased in nine of 12 healthy BM samples, in 14 of 19 cases at DIA, in one of three cases during PERS, and in five of six cases in CR of AML. The proportion of CD34-positive cells was increased in one of 12 healthy BM samples, in seven of 19 cases at DIA, in one of two cases during PERS, and in three of seven cases in CR of AML. Southern blot analysis (SBA) performed in six cases during the course of AML, before and after cell culture, showed that clonal DNA increased after GM-CSF treatment in three of five cases studied at DIA, in six of nine cases studied in CR, in the one case studied at PERS, and in the one studied at relapse (REL). In one case of trisomy 8 at DIA a normal karyotype was demonstrated in CR. However, after 7 days of cultivation of the cells in GM-CSF the trisomy 8 was detected in two of 17 metaphases isolated from colony-cells from methylcellulose cultures. Our data show that a 7-day treatment of BM cells with GM-CSF induced a differentiation of healthy and leukemic BM cells in the great majority of cases. An enrichment of CD34-positive cells was not achieved in healthy BM samples. However, in 70% of the cases in CR and in 30% of the cases at DIA of AML, clonal CD34-positive cells were enriched. This means that GM-CSF stimulates ('primes') leukemic cell growth in vitro.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002770050597

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