J. Ciudad

Prognostic value of immunophenotypic detection of minimal residual disease in acute lymphoblastic leukemia.

PURPOSE The identification of immunophenotypic aberrancies through multiparametric flow cytometry makes the differentiation between normal and leukemic cells relatively simple and quick, and is therefore an attractive method for the investigation of minimal residual disease (MRD). In this report, we have analyzed the impact on relapse and relapse-free survival (RFS) of detecting immunophenotypical aberrant cells in acute lymphoblastic leukemia (ALL) patients in cytomorphologic complete remission (CR). MATERIALS AND METHODS Two hundred eleven bone marrow (BM) samples from 53 consecutive ALL (37 precursor B-ALL and 16 T-ALL) patients were analyzed. The only selection criteria were to have at least one aberrant immunophenotypic feature at diagosis and to have achieved cytomorphologic CR after induction therapy. For MRD detection, all follow-up samples were analyzed with triple labelings using a two-step acquisition procedure, in which 106 cells were screened for the possible persistence of residual leukemic cells with the same phenotypic aberrancy as that identified diagnosis. RESULTS Patients who displayed a gradual increase in MRD levels showed a higher relapse rate (90% v22%; P < .00001) and shorter median RFS (12 months v not reached; P < .0001) than those with stable or decreasing MRD levels. This adverse prognostic influence also was observed when children and adults, as well as B-ALL and T-ALL patients, were analyzed separately. An MRD level > or = or greater than 10(-3) discriminated two risk groups of ALL patients with significantly different relapse rates and RFS at all treatment phases (end of induction, consolidation, maintenance, and out of treatment). CONCLUSION Multiparametric flow cytometry of MRD in ALL patients is a valuable tool for relapse prediction and for the identification of a cohort of patients with very poor prognosis.

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)

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.

Evaluation of Multiparameter Flow Cytometry for the Detection of Breast Cancer Tumor Cells in Blood Samples

We comparatively evaluated different cytokeratin (CK) reagents analyzed by flow cytometry (FCM) for the identification of the best combination of DNA/CK staining for detecting minimal numbers of breast cancer cells in peripheral blood (PB). In 59 primary breast cancer tumors, we comparatively analyzed the reactivity for up to 6 different anti-CK reagents using multiparameter FCM: anti-CK7, anti-CK20, anti-pan-CK, anti-CK8/CK18, anti-CK8, and anti-CK18. Afterward, dilutional experiments of Michigan Cancer Foundation (MCF)7 breast cancer cells in PB were performed, and the sensitivity of a DNA/CK18 staining was evaluated. Our results showed that anti-CK18 reagents were those providing the brightest and more sensitive staining for primary breast cancer tumor cells by FCM. Dilutional experiments of MCF cells in PB showed that the DNA/anti-CK18 double staining was highly specific for the identification of epithelial cells; its sensitivity ranged between 10(-6) and 10(-7) (detection of 1 tumor cell among 10(6) to 10(7) nucleated blood cells). Combined assessment of DNA cell contents and reactivity for CK18 by FCM is a sensitive method for the specific identification of breast cancer cells in PB.

Detection of abnormalities in B-cell differentiation pattern is a useful tool to predict relapse in precursor-B-ALL

Immunophenotypic investigation of minimal residual disease (MRD) has traditionally been based on the investigation of phenotypic aberrants at diagnosis to be used later as a target for MRD detection. This approach has several shortcomings (it is only applicable to patients with aberrant phenotypes, requires a diagnostic sample, and is patient‐specific) and therefore a search for simpler alternatives is warranted. The present study is based on the hypothesis that in precursor‐B‐ALL patients the persistence of residual leukaemic cells may induce abnormalities in the precursor‐B‐cell compartment in bone marrow (BM) and these could be used as a criteria to predict relapse.  These abnormalities may include: (1) the presence of an increase in the frequencies of immature B cells (CD34+/CD19+ or CD20−/CD19+) or (2) the existence of an altered B‐cell differentiation pathway due to a blockade or to the presence of B cells outside the normal pathway. A total of 180 BM samples from 45 consecutive precursor‐B‐ALL patients who achieved morphological complete remission (CR) were analysed by multiparametric flow cytometry. Our results show that a significant increase in immature B‐cell subsets or an altered B‐cell differentiation predicts a high relapse rate (P < 0.01) and a shorter disease‐free survival (P < 0.01). Moreover, abnormalities in either of these two criteria detected at specific time points during follow‐up (end of induction, maintenance, or after treatment) were associated with a significantly shorter disease‐free survival (P < 0.01).  In summary, the investigation of abnormalities in B‐cell differentiation is a relatively simple and cheap approach for predicting relapse in precursor‐B‐ALL patients.

Flow cytometric detection of intracellular myeloperoxidase, CD3 and CD79a: Interaction between monoclonal antibody clones, fluorochromes and sample preparation protocols

Detection of intracellular myeloperoxidase (MPO), CD79a and CD3 has become the most specific tool for the assignment of myeloid, B- and T-lymphoid lineages in acute leukemias. In order to establish the best combination of monoclonal antibody reagent and sample preparation technique for the intracellular detection of these three markers, we compared six different cell fixation-permeabilization kits (Cytofix/Cytoperm, Fix and Perm, Intraprep, Intrastain, Permeacyte and Permeafix) using 12 fluorochrome conjugates derived from seven monoclonal antibody (mAb) clones. A total of 21 samples corresponding to normal peripheral blood (n=4), normal bone marrow (n=3), acute myeloblastic leukemia (AML, n=6), precursor B-acute lymphoblastic leukemia (ALL, n=6) and T-ALL (n=2) cases, were analysed in two centers. All fixation/permeabilization methods resulted in decreased side scatter and mostly increased forward scatter as compared to erythrocyte-lyse-washed and 1% paraformaldehyde fixed samples. The autofluorescence levels of the leukocyte populations was only significantly increased with use of the Cytofix/Cytoperm kit and mildly with the other techniques. In addition, non-specific staining increased significantly for combinations of any anti-MPO mAb with the Cytofix/Cytoperm kit and for the CD3 clone S4.1 combined with any intracellular method. Anti-MPO antibodies gave a stronger fluorescence signal when conjugated to PE than when coupled to FITC. In conclusion, MPO-7-PE, UCHT-1-PE (CD3) and any HM57-PE conjugate (CD79a) in combination with Fix and Perm, Intraprep, Intrastain or Permeafix, provided specific staining of the respective markers in sufficient intensities. Thus, combined selection of fixation/permeabilization kits and monoclonal antibody reagents against CD3, CD79a and MPO is required for obtaining optimal cytoplasmic detection of these antigens.

Flow cytometry immunophenotyping of fine-needle aspiration specimens: utility in the diagnosis and classification of non-Hodgkin lymphomas

Barrena S, Almeida J, García‐Macias M D C, López A, Rasillo A, Sayagués J M, Rivas R A, Gutiérrez M L, Ciudad J, Flores T, Balanzategui A, Caballero M D & Orfao A
(2011) Histopathology 58, 906–918
Flow cytometry immunophenotyping of fine‐needle aspiration specimens: utility in the diagnosis and classification of non‐Hodgkin lymphomas

Intratumoral Patterns of Clonal Evolution in Meningiomas as Defined by Multicolor Interphase Fluorescence in Situ Hybridization (FISH) : Is There a Relationship between Histopathologically Benign and Atypical/Anaplastic Lesions?

Meningiomas are cytogenetically heterogeneous tumors in which chromosome gains and losses frequently occur. Based on the intertumoral cytogenetic heterogeneity of meningiomas, hypothetical models of clonal evolution have been proposed in these tumors which have never been confirmed at the intratumoral cell level. The aim of this study was to establish the intratumoral patterns of clonal evolution associated with chromosomal instability in individual patients as a way to establish tumor progression pathways in meningiomas and their relationship with tumor histopathology and behavior. A total of 125 meningioma patients were analyzed at diagnosis. In all cases, multicolor interphase fluorescence in situ hybridization (iFISH) studies were performed on fresh tumor samples for the detection of quantitative abnormalities for 11 different chromosomes. In addition, overall tumor cell DNA content was measured in parallel by flow cytometry. iFISH studies were also performed in parallel on tissue sections in a subset of 30 patients. FISH studies showed that 56 (45%) of the 125 cases analyzed had a single tumor cell clone, all these cases corresponding to histologically benign grade I tumors. In the remaining cases (55%) more than one tumor cell clone was identified: two in 45 cases (36%), three in 19 (15%), and four or more clones in five cases (4%). Overall, flow cytometric analysis of cell DNA contents showed the presence of DNA aneuploidy in 44 of these cases (35%), 30% corresponding to DNA hyperdiploid and 5% to hypodiploid cases; from the DNA aneuploid cases, 35 (28%) showed two clones and 9 (7%) had three or more clones. A high degree of correlation (r >/= 0.89; P < 0.001) was found between FISH and flow cytometry as regards the overall quantitative DNA changes detected with both techniques, the former being more sensitive. Among the cases with chromosome abnormalities, the earliest tumor cell clone observed was frequently characterized by the loss of one or more chromosomes (64% of all meningiomas); loss of either a single chromosome 22 or, less frequently, of a sex chromosome (X or Y) and del (1p) was commonly found as the single initial cytogenetic aberration (30%, 5%, and 5% of the cases, respectively). Interestingly, an isolated loss of chromosome 22 was only found as the initial abnormality in one out of 14 atypical/anaplastic meningiomas, while the same cytogenetic pattern was present in the ancestral tumor cell clone of 32% of the benign tumors. Cytogenetic patterns based on chromosome gains were found in the ancestral tumor cell clone in 4% of the patients, 2% corresponding to tetraploid tumors. Overall, cytogenetic evolution of the earliest tumor cell clones was frequently associated with tetraploidization (31%). Our results show that meningiomas are genetically heterogeneous tumors that display different patterns of numerical chromosome changes, with the presence of more than one tumor cell clone detected in almost half of the cases including all atypical/anaplastic cases. Interestingly, the pathways of intratumoral clonal evolution observed in the benign tumors were different from those observed in atypical/anaplastic meningiomas, suggesting that the latter tumors might not always represent a more advanced stage of histologically benign meningiomas.

Gains of chromosome 22 by fluorescence in situ hybridization in the context of an hyperdiploid karyotype are associated with aggressive clinical features in meningioma patients

Meningiomas usually are considered to be benign tumors; however, 10–20% of cases recur. Few disease characteristics have proved to have prognostic impact for predicting disease free survival. The objective of the current study was to explore the prognostic value of numeric abnormalities of chromosome 22 for meningioma patients.

Long lasting immunological effects of ethanol after withdrawal

The aim of the present study was to analyze on chronic alcoholic patients the effect of ethanol (EtOH) withdrawal on the immune system through the investigation of the distribution of PB lymphoid subsets, using multiple-stainings with monoclonal antibodies and flow cytometry. For this purpose a group of 20 patients with active alcoholism without liver disease, negative for hepatitis virus, and without malnutrition was analyzed and followed for 9 months after alcohol consumption had been discontinued. Twenty-five age- and sex-matched healthy volunteers were included in the study. The following panel of monoclonal antibodies combinations (FITC/PE/PerCP or PE-Cy5) was used: TCR alpha beta/CD3/HLA DR, CD25/CD56/CD3, TCR gamma delta/CD3/HLA DR, CD45RA/CD45R0/CD4, CD3/CD8, CD19/CD5, and CD3/CD11c. Analysis was performed on at least 1,500 events/tube at flow cytometry using the Lysys II software program. During the alcohol intake period, the most striking findings were a significant (P < 0.05) expansion of the CD8+ T-lymphocyte subset, which coexpresses the activation associated antigens HLA DR and CD11c, as well as a significant increase in both NK-cells (CD3-/CD56+) and the T-cell subset with NK activity coexpressing CD3 and CD56 (P < 0.05 and P < 0.01, respectively). In addition, a decrease in the CD5+ B-cells (P < 0.05), associated with reduced serum gamma-globulin levels, was also observed. During alcohol withdrawal, a rapid decrease towards normal values of activated CD8+/HLA DR+ and CD11c+ T-lymphocytes was observed as well as a normalization of CD19+/CD5+ B-cells and gamma-globulin serum levels; these changes might be directly related to EtOH suppression. Surprisingly, however, new immunological imbalances emerged in spite of the absence of alcohol intake. Thus, a progressive and significant expansion (P < 0.05) of CD4+ T-cells associated with an increased expression of the CD25 activation-related antigen and a preferential use of the CD45R0 isoform by CD4+ T-cells were observed. In parallel, there was an even more evident increase (P < 0.01) in the number of PB NK-cells. Our results show that EtOH consumption induces changes in the immune system, its effects persisting or even becoming more evident after suppression of EtOH intake for a 9 month period.

Proportion of S‐phase tumor cells measured by flow cytometry is an independent prognostic factor in meningioma tumors

Meningiomas are tumors in arachnoid cells which represent up to one fifth of all intracranial tumors and up to a quarter of spinal neoplasias. Although meningiomas have classically been considered to be benign tumors, it has also been well-established that they show a heterogeneous clinical outcome. To the best of our knowledge no study has yet been performed in which the independent prognostic value of both DNA ploidy and cell cycle has been simultaneously assessed in a large series of meningioma tumors. The aim of the present study was to prospectively explore the prognostic value of DNA ploidy status and the proliferative rate of tumor cells in a series of 105 consecutive meningioma patients studied at diagnosis. Both the presence of DNA aneuploidy and the proportion of S-phase tumor cells were analyzed in all cases in fresh tumors obtained during diagnostic surgery. From the technical point of view, we followed the recommendations of the Consensus Conference on Flow Cytometry DNA Analysis held in October 1992. Our results show that meningioma tumors display a relatively low incidence of DNA aneuploidy (14%), and they usually show a low proliferative rate (mean percentage of S-phase cells of 1.3 +/- 0.3%). The presence of DNA aneuploidy was associated with a higher incidence of aggressive histopathologic subtypes (P = 0.045), a greater age (P = 0.009), location at the cerebral convexity (P = 0.004), and a greater proportion of S-phase cells (P = 0.005). In contrast, no significant association between the DNA ploidy status of meningioma patients and their disease-free survival was found (P = 0. 1). Regarding the proliferative activity of neoplastic cells, we found that a high proportion of S-phase cells (>1.8%) was associated with a significantly lower mean age (P = 0.007), aggressive histopathologic subtypes (P = 0.03), a higher incidence of DNA aneuploidy (P = 0.004), and a significantly shorter disease-free survival (P < 0.004). Multivariate analysis of prognostic factors showed that the proportion of S-phase tumor cells was the most powerful independent prognostic factor in meningioma patients (P = 0.02). In summary, we conclude that the proportion of S-phase tumor cells represents the individual parameter with the highest value for predicting disease-free survival in meningioma patients.