Nahla Farahat scite author profile

The immunological detection of minimal residual disease in B-lineage acute lymphoblastic leukaemia (ALL) has been hampered by the fact that the leukaemic cells represent the malignant counterparts of normal haemopoietic precursors expressing terminal deoxynucleotidyl transferase (TdT), CD10 and CD19. We have used quantitative double-labelling flow cytometry with standard fluorescent beads to convert the mean fluorescence to the number of antigen molecules per cell. The number of TdT, CD10 and CD19 molecules per cell was determined in normal B-cell precursors from 22 healthy donors and eight regenerating marrows from patients with various malignancies and in 20 cases of B-lineage ALL. In normal bone marrow we characterized two different B-cell populations: TdT+/CD10+/CD19+ and TdT-/CD10+/CD19+. We demonstrated a major difference in the level of expression of TdT, CD10 and CD19 between normal bone marrow and B-lineage ALL blasts. Normal TdT+ precursors have significantly higher number of TdT (> 100 x 10(3)) and lower number of CD10 (< 50 x 10(3)) and CD19 (< 10 x 10(3)) molecules per cell than B-lineage ALL blasts (< 100, > 50, > 10 x 10(3) molecules per cell respectively); these differences were statistically highly significant. Furthermore, regenerating marrows had a significantly higher percentage of B-cell precursors than healthy donors. This increase was at the expense of the TdT-/CD10+/CD19+ population which, in the context of B-lineage ALL, could be wrongly interpreted as evidence of relapse if TdT is not included in the analysis. Therefore the quantitative analysis of TdT combined with CD10 and CD19 may allow a clear distinction between normal precursors and minimal residual leukaemia in B-lineage ALL and avoid the pitfall of misinterpreting regenerating B-cells as evidence of relapse.

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Differential expression of CD3 and CD7 in T‐cell malignancies: a quantitative study by flow cytometry

Ginaldi

Matutes

Farahat

et al. 1996

Br J Haematol

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Most T-cell antigens are expressed on normal and neoplastic T lymphocytes and for this reason it is not easy to distinguish between the immunophenotype of normal and malignant T cells. We have addressed this problem by comparing the levels of expression of CD3 and CD7 on T lymphocytes from 18 healthy donors with those of 61 cases of T-cell leukaemia using quantitative flow cytometry with a method that converts fluorescence intensity into number of antigen molecules per cell. Normal T lymphocytes expressed 124 +/- 25 CD3 and 20 +/- 3 x 10(3) CD7 molecules per cell. The mean CD3 values were significantly lower in all types of T-cell leukaemia than in normal T cells (P < 0.05), with the exception of Sezary syndrome. The lowest CD3 values were found in T-lymphoblastic leukaemia (T-ALL), 30 +/- 21 x 10(3), and adult T-cell leukaemia/lymphoma (ATLL), 38 +/- 31 x 10(3), followed by T-prolymphocytic leukaemia (T-PLL), 92 +/- 47 x 10(3), and granular lymphocyte leukaemia (GLL), 95 +/- 21 x 10(3). In contrast, the number of CD7 molecules was significantly higher in T-All, 35 +/- 7 x 10(3) (P < 0.01), and T-PLL, 29 +/- 12 x 10(3), than the normal controls (P < 0.01), whereas ATLL and GLL showed a low CD7 expression, 13 +/- 3 and 12 +/- 3 x 10(3), respectively. Our results show that the quantitative analysis of CD3 and CD7 and their combined evaluation may enable a distinction between normal and leukaemic T cells and could facilitate the monitoring of minimal residual disease. This study has also defined the T prolymphocyte as a cell of intermediate maturity between thymic derived and peripheral T lymphocytes.

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Nahla Farahat

Levels of expression of CD19 and CD20 in chronic B cell leukaemias.

Levels of expression of CD52 in normal and leukemic B and T cells: Correlation with in vivo therapeutic responses to Campath-1H

Quantitative flow cytometry can distinguish between normal and leukaemic B‐cell precursors

Differential expression of CD3 and CD7 in T‐cell malignancies: a quantitative study by flow cytometry

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