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ABSTRACT: The relative merits of reduced-intensity allogeneic stem cell transplantation (RISCT) for high-risk indolent lymphoid malignancies are emerging, although the preferred conditioning regimen to manage the risks of graft-versus-host disease (GVHD) is not clearly defined. Here we report the outcome of 73 patients with lymphoid malignancies who received RISCT with a fludarabine/cyclophosphosphamide conditioning regimen and a median follow-up of 3 years. Median age was 54 years. Forty-eight per cent of patients had previously undergone autologous stem cell transplantation with a median of three prior therapies. Non-relapse mortality at 3 years was 19% but only 5% for patients with multiple myeloma (MM). Three-year overall survival and current progression-free survival was 67% and 63% respectively. Grade 2-4 acute GVHD occurred in 14% of patients while 49% had chronic GVHD requiring systemic immunosuppression. The preparatory regimen in this study has the advantage of reduced acute GVHD and low mortality, notably in patients with MM. In addition, this strategy provides long-term disease control in a significant proportion of patients with particular benefit in those with high-risk follicular lymphoma.
British Journal of Haematology 03/2012; 157(5):580-5. · 4.94 Impact Factor
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Timothy W Farren,
Jerome Giustiniani,
Feng-Ting Liu,
Dimitris A Tsitsikas,
Marion G Macey,
James D Cavenagh,
Heather E Oakervee, David Taussig,
Adrian C Newland,
Maria Calaminici,
Armand Bensussan,
Michael Jenner,
John G Gribben,
Samir G Agrawal
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ABSTRACT: CD160 is a human natural killer (NK)-cell-activating receptor that is also expressed on T-cell subsets. In the present study, we examined 811 consecutive cases of B-cell lymphoproliferative disorders (B-LPDs), and demonstrated CD160 expression in 98% (590 of 600) of chronic lymphocytic leukemia (CLL) cases, 100% (32 of 32) of hairy cell leukemia (HCL) cases, 15% (5 of 34) of mantle cell lymphoma (MCL) in the leukemic phase, and 16% (23 of 145) of other B-LPD cases. CD160 transcript and protein were absent in the normal B-cell hierarchy, from stem cells, B-cell precursors, maturing B cells in the germinal center, and circulating B cells, including CD5(+)CD19(+) B1 cells in umbilical cord. CD160 positivity was significantly higher in CLL and HCL in terms of percentage (65.9% and 67.8%, respectively, P < .0001) and median fluorescence intensity (552 and 857, respectively, P < .0001) compared with all other B-LPD cases. Lymph node CLL samples were also CD160(+). Using the disease-specific expression of CD5, CD23, and CD160, a score of 3 characterized CLL (diagnostic odds ratio, 1430); a score of 0 excluded CLL, MCL, and HCL; and the CD23/CD5 ratio differentiated CLL from leukemic CD23(+) MCL. In the B-cell lineage, CD160 is a tumor-specific antigen known to mediate cellular activation signals in CLL, and is a novel target for therapeutic manipulation and monitoring of minimal residual disease.
Blood 06/2011; 118(8):2174-83. · 9.90 Impact Factor
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ABSTRACT: To date, studies on T cells in acute myeloid leukemia (AML) have been limited to flow cytometric analysis of whole peripheral blood mononuclear cell (PBMC) specimens or functional work looking at the impact of AML myeloblasts on normal or remission T cells. This lack of information on T cells at the time of presentation with disease is due in part to the difficulty in isolating sufficiently pure T cells from these specimens for further study. Negative immunomagnetic selection has been the method of choice for isolating immune cells for functional studies due to concerns that binding antibodies to the cell surface may induce cellular activation, block ligand-receptor interactions or result in immune clearance. In order specifically to study T cells in presentation AML specimens, we set out to develop a method of isolating highly pure CD4 and CD8 T cells by negative selection from the peripheral blood (PB) of newly diagnosed AML patients. This technique, unlike T cell selection from PB from normal individuals or from patients with chronic lymphocytic leukaemia, was extremely problematic due to properties of the leukaemic myeloblasts. A successful method was eventually optimized requiring the use of a custom antibody cocktail consisting of CD33, CD34, CD123, CD11c and CD36, to deplete myeloblasts.
Journal of immunological methods 08/2009; 348(1-2):95-100. · 2.35 Impact Factor
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ABSTRACT: The nonobese diabetic/severe combined immunodeficient (NOD/SCID) assay is the current model for assessment of human normal and leukemic stem cells. We explored why 51% of 59 acute myeloid leukemia (AML) patients were unable to initiate leukemia in NOD/SCID mice. Increasing the cell dose, using more permissive recipients, and alternative tissue sources did not cause AML engraftment in most previously nonengrafting AML samples. Homing of AML cells to the marrow was the same between engrafters and nonengrafters. FLT3 internal tandem duplication (ITD) and nucleophosmin mutations occurred at a similar frequency in engrafters and nonengrafters. The only variable that was related to engraftment ability was the karyotypically defined risk stratification of individual AML cases. Of interest, follow-up of younger patients with intermediate-risk AML revealed a significant difference in overall survival between NOD/SCID engrafting and nonengrafting AMLs. Hence, the ability of AML to engraft in the NOD/SCID assay seems to be an inherent property of AML cells, independent of homing, conditioning, or cell frequency/source, which is directly related to prognosis. Our results suggest an important difference between leukemic initiating cells between engrafting and nonengrafting AML cases that correlates with treatment response.
Blood 03/2006; 107(3):1166-73. · 9.90 Impact Factor
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ABSTRACT: Aldehyde dehydrogenase (ALDH) is a cytosolic enzyme that is responsible for the oxidation of intracellular aldehydes. Elevated levels of ALDH have been demonstrated in murine and human progenitor cells compared with other hematopoietic cells, and this is thought to be important in chemoresistance. A method for the assessment of ALDH activity in viable cells recently has been developed and made commercially available in a kit format. In this study, we confirmed the use of the ALDH substrate kit to identify cord blood stem/progenitor cells. Via multicolor flow cytometry of cord blood ALDH+ cells, we have expanded on their phenotypic analysis. We then assessed the incidence, morphology, phenotype, and nonobese diabetic/ severe combined immunodeficiency engraftment ability of ALDH+ cells from acute myeloid leukemia (AML) samples. AML samples had no ALDH+ cells at all, an extremely rare nonmalignant stem/progenitor cell population, or a less rare, leukemic stem cell population. Hence, in addition to identifying nonmalignant stem cells within some AML samples, a high ALDH activity also identifies some patients' CD34+/ CD38− leukemic stem cells. The incidence of normal or leukemic stem cells with an extremely high ALDH activity may have important implications for resistance to chemotherapy. Identification and isolation of leukemic cells on the basis of ALDH activity provides a tool for their isolation and further analysis.
Stem Cells 05/2005; 23(6):752 - 760. · 7.78 Impact Factor
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ABSTRACT: Aldehyde dehydrogenase (ALDH) is a cytosolic enzyme that is responsible for the oxidation of intracellular aldehydes. Elevated levels of ALDH have been demonstrated in murine and human progenitor cells compared with other hematopoietic cells, and this is thought to be important in chemoresistance. A method for the assessment of ALDH activity in viable cells recently has been developed and made commercially available in a kit format. In this study, we confirmed the use of the ALDH substrate kit to identify cord blood stem/progenitor cells. Via multicolor flow cytometry of cord blood ALDH+ cells, we have expanded on their phenotypic analysis. We then assessed the incidence, morphology, phenotype, and nonobese diabetic/ severe combined immunodeficiency engraftment ability of ALDH+ cells from acute myeloid leukemia (AML) samples. AML samples had no ALDH+ cells at all, an extremely rare nonmalignant stem/progenitor cell population, or a less rare, leukemic stem cell population. Hence, in addition to identifying nonmalignant stem cells within some AML samples, a high ALDH activity also identifies some patients' CD34+/ CD38- leukemic stem cells. The incidence of normal or leukemic stem cells with an extremely high ALDH activity may have important implications for resistance to chemotherapy. Identification and isolation of leukemic cells on the basis of ALDH activity provides a tool for their isolation and further analysis.
Stem Cells 23(6):752-60. · 7.78 Impact Factor
