A Prospective Study of CD38/45 Flow Cytometry and Immunofluorescence Microscopy to Detect Blood Plasma Cells in Patients with Plasma Cell Proliferative Disorders

Abstract Abstract 1688 The eradication of minimal residual disease (MRD) in myeloma predicts for improved outcome. A number of different approaches to myeloma MRD detection are available; these vary widely in sensitivity and cost. Flow cytometric assessment of MRD may be preferable in practice because of lower cost and easier feasibility. Myeloma MRD flow cytometry requires at least three markers for plasma cell identification (CD38, CD138 and CD45) and combination of several additional markers to detect phenotypic abnormality including CD19, CD20, CD27, CD28, CD45, CD56 and CD117. Also, assessment of immunoglobulin light-chain restriction (cytoplasmic K and L) combined with myeloma-associated phenotypic plasma cell abnormalities, is very important. Four-tube four-colour flow cytometry combine markers CD38/CD138/CD45 with markers for plasma cell phenotypic abnormalities and clonality. Six –colour flow cytometry combines the same markers (markers for plasma cell identification) plus clonality markers; it potentially increases the sensitivity of the method through coincident multiparameter analysis. However, the single-tube six-colour flow cytometry, proposed by others studies, excludes the myeloma-associated phenotypic plasma cell abnormalities and consequently decreases specificity of the assay. We propose a new single-tube seven-colour flow cytometry, including plasma cell identification antigens, clonality markers and myeloma-associated phenotypic plasma cell abnormalities markers. In this new method, PCs are stained with antibodies: (i) CD38, CD138, CD45 used for identified plasma cells and percentage plasma cells to total leucocytes. (ii) CD19 and CD56+CD28 used to identify normal and abnormal plasma cells; and (iii) cy-IgK and cy-IgL, for confirm the plasma cells clonality. We analysed normal bone marrow provided from healthy individuals. Our results showed a presence myeloma-associated phenotypic plasma cell abnormalities at low levels in healthy individual. The monotypy studies confirm polyclonality of this normal plasma cells. Then we compared MRD assessement with single-six colour flow cytometry assay (plasma cells markers, clonality markers and exluding myeloma-associated phenotypic markers) and seven-colour flow cytometry assay (including myeloma-associated phenotypic markers). Six –colour flow cytometry has a better sensitivity and showed efficacy for quantification MRD in myeloma patients. However, the single-tube six-colour flow cytometry excluded the myeloma-associated phenotypic plasma cell abnormalities and in some cases the seven-colour flow cytometry will be more informative because it detected myeloma-asociated phenotypic marquers combined with clonality marquers. Finally, the single-tube seven colour flow cytometry assay provides reduction in antibody cost and increases sensitivity and specificity of the method through coincident multiparameter analysis. Disclosures: No relevant conflicts of interest to declare.

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Lymphocyte function-associated antigen-1 expression on plasma cells correlates with tumor growth in multiple myeloma

Blood ◽

10.1182/blood.v79.8.2068.2068 ◽

1992 ◽

Vol 79 (8) ◽

pp. 2068-2075 ◽

Cited By ~ 60

Author(s):

EJ Ahsmann ◽

HM Lokhorst ◽

AW Dekker ◽

AC Bloem

Keyword(s):

Multiple Myeloma ◽

Tumor Growth ◽

Plasma Cell ◽

Plasma Cells ◽

Immunofluorescence Microscopy ◽

Clinical Performance ◽

Lymphocyte Function ◽

Cellular Interactions ◽

Normal Individuals ◽

The Individual

Abstract Lymphocyte function-associated antigen-1 (LFA-1) (CD11a/CD18) expression on bone marrow-derived plasma cells from normal individuals, patients with monoclonal gammopathies of undetermined significance (MGUS), and patients with multiple myeloma (MM) was studied by immunofluorescence microscopy and flow cytometry using a new monoclonal antibody (MoAb) F8.8. This MoAb recognizes the alpha-chain (CD11a) of LFA-1 as determined by immunoprecipitation, and inhibits T-cell-induced cytotoxicity. Although the F8.8 MoAb stains unstimulated peripheral blood T cells with the same mean fluorescence intensity as other anti- CD11a MoAbs, it proved to be superior in detecting CD11a on plasma cells as compared with reference MoAbs. Using the anti-CD11a MoAb F8.8, a strong correlation was found between LFA-1 expression and disease activity in MM, as defined by clinical performance and serum M-protein level. Hardly any LFA-1+ plasma cells were detected in normal individuals, patients with MGUS, and MM patients in a nonactive phase of their disease, while plasma cells of some MM patients with active disease and all patients with fulminant disease expressed LFA-1. Plasma cell LFA-1 expression correlated well with the labeling index (LI) of the tumors in the individual patients. The relation between LFA-1 expression and the tumor growth suggests an involvement of this adhesion molecule in cellular interactions resulting in plasma cell proliferation.

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Cyclooxygenase-2 (COX-2) Is Frequently Expressed in Multiple Myeloma (MM) and Is Associated with Poor Outcome.

Blood ◽

10.1182/blood.v104.11.2450.2450 ◽

2004 ◽

Vol 104 (11) ◽

pp. 2450-2450

Author(s):

Marco Ladetto ◽

Sonia Vallet ◽

Andreas Trojan ◽

Maria Dell’Aquila ◽

Luigia Monitillo ◽

...

Keyword(s):

Flow Cytometry ◽

Plasma Cell ◽

Cell Separation ◽

Plasma Cells ◽

Mrna Level ◽

Prognostic Indicator ◽

Disease Stage ◽

Plasma Cell Dyscrasias ◽

Cox 2 ◽

Ht 29

Abstract Introduction. A perturbed microenvironment with secretion of inflammatory cytokines is typical of MM. Prostaglandins (pg) are implicated in inflammation and angiogenesis and play a role in the pathogenesis of several solid malignancies. Expression of COX-2, the key enzyme of pg synthesis in inflamed tissues, is common in many of these cancers and plays a major role in their development. Moreover, it often acts as a poor prognostic indicator. Despite a large amount of data concerning COX-2 expression in solid tumors, few data are currently available in hematological malignancies. In MM there are several biological, epidemiological and clinical considerations suggesting a potential involvement of the pg pathway. Aim of this study is to verify the involvement of COX-2 in MM and to assess its prognostic role. Patients and methods. COX-2 expression has been assessed by western blotting (WB) as previously described (Du Bois RN, et al, Gastroenterology, 1996). Our positive control was the COX-2 positive cell line HT-29, while bone marrows (BM) from 15 healthy donors were our negative controls. We assessed a panel of 124 samples obtained by 113 patients with plasma cell dyscrasias. Sixteen samples belonged to subjects with MGUS, 80 to patients with MM at diagnosis, and 28 to patients with relapsed/refractory MM. In 11 patients, samples taken at different treatment phases were available. To confirm WB findings and to demonstrate that COX-2 expression occurs in malignant plasma cells immunohistochemistry (IC), and flow cytometry for COX-2 were also performed in 31 and four patients, respectively. Finally, COX-2 expression has been assessed in BM cells from four COX-2 positive patients following selection for the CD138 antigen using the Miltenyi cell separation system. COX-2 expression at the mRNA level has also been assessed by real time quantitative PCR. Results. A dilution test showed that our technique is sensitive enough to detect 2% HT-29 cells in a background of COX-2 negative cells. The 15 normal BM were COX-2 negative. In contrast, COX-2 expression was noticed in 12.5% of MGUS, 34.6% of MM at diagnosis and 56% of MM at relapse. COX-2 positivity at diagnosis and relapse was unrelated to disease stage, BM plasmacytosis, creatinine, Hb levels and ß2 microglobulin. COX-2 expression appeared to be of prognostic relevance: at diagnosis the median time to progression was 14 months in COX-2 positive and 40 months in COX-2 negative subjects (p<0.001). At relapse, of 14 patients showing COX-2 expression, 10 have already died of MM, and four are still alive. In contrast, of 11 COX-2 negative patients only one patient died while 10 are still alive (p<0.001). IC, cell separation and flow cytometry studies indicate that COX-2 expression is related to the malignant plasma cell population. COX-2 mRNA was overexpressed in patients showing increased COX-2 protein expression. Conclusions: a) COX-2 is frequently expressed in plasma cell dyscrasias; b) COX-2 expression is more frequent in advanced disease phases; c) COX-2 expression correlates to a worse outcome. Future studies are required to verify whether COX-2 might be clinically useful as a prognostic marker and/or therapeutic target.

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Evaluation of a 5-Color Flow Cytometric Technique for Immunophenotyping and Quantitation of Plasma Cell Myeloma in Post-Therapy Bone Marrows.

Blood ◽

10.1182/blood.v108.11.5036.5036 ◽

2006 ◽

Vol 108 (11) ◽

pp. 5036-5036

Author(s):

Tove Isaacson ◽

Andrzej Jakubowiak ◽

Lloyd Stoolman ◽

Usha Kota ◽

William Finn ◽

...

Keyword(s):

Bone Marrow ◽

Flow Cytometry ◽

Minimal Residual Disease ◽

Plasma Cell ◽

Plasma Cells ◽

Residual Disease ◽

Plasma Cell Myeloma ◽

Color Flow ◽

Flow Cytometric ◽

Minimal Residual

Abstract Multiparameter flow cytometry is a useful tool for comprehensive immunophenotyping of plasma cell myeloma, and has been proposed as a sensitive method for the evaluation of minimal residual disease in patients following treatment. This study aimed to assess the value of flow cytometry in quantitation of residual disease, in comparison to routine morphologic examination of first-pull bone marrow aspirate smears, in myeloma patients post-therapy. Heparinized bone marrow aspirates were obtained from 27 treated patients with plasma cell myeloma. Cells were prepared for 5-color flow cytometric analysis within 24-hours of specimen draw. Surface membrane staining with anti-CD19, CD20, CD38, CD45, CD56, and CD138 was followed by ammonium chloride lysis of red cells. Fixed and permeabilized cells were analyzed for cytoplasmic light chains to confirm clonality. Data were acquired using an FC500 flow cytometer (Beckman-Coulter), analyzed with CXP software with plasma cells isolated based on bright CD38+ or CD138+ expression. A median of 97,639 cellular events (range 14,279 to 262,508) were collected per analysis. Flow cytometric enumeration of plasma cells was compared to 500-cell differential counts of Wright-Giemsa-stained first-pull aspirate smears from the same cases. The median plasma cell count as determined by flow cytometry was 0.5% (range 0–7.9%). The median plasma cell count estimated by morphologic review was 8.0% (range 0–84.4%). Flow cytometry underestimated the plasma cell content in all but one case. Clonal plasma cells expressed CD38 and CD138 in all cases; 87.5% (21/24) coexpressed CD56, 25% (6/24) coexpressed CD45, and 4.2% (1/24) coexpressed CD19. None was positive for CD20. Although detection of minimal residual disease after therapy for acute leukemia is routinely achieved by flow cytometric analysis, successful quantitation of minimal residual disease in treated myeloma patients using flow cytometry remains limited as it usually underestimates the plasma cell content of bone marrow samples compared to routine morphology of first-pull aspirates. We have observed that this holds true for both pre-treatment and post-treatment specimens. Causes for the discrepancy may include hemodilution of second-pull aspirates used for flow cytometry, fragility and loss of plasma cells during preparation for flow cytometry, and incomplete disaggregation of plasma cells from bone marrow spicules. With improved outcome of treatments, better and more reliable methods of detection of minimal residual disease are needed for optimal prognostic stratification. We are currently validating alternative methods, which may offer more sensitivity while at the same time allow more objectivity, for assessing the amount of minimal residual disease in myeloma patients.

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Increased Circulating Plasma Cells Predicts Poor Overall Survival in Symptomatic Plasma Cell Myeloma Patients

Blood ◽

10.1182/blood.v126.23.4205.4205 ◽

2015 ◽

Vol 126 (23) ◽

pp. 4205-4205

Author(s):

Mi Hyun Bae ◽

Sang Hyuk Park ◽

Chan-Jeoung Park ◽

Bo Hyun Kim ◽

Young-Uk Cho ◽

...

Keyword(s):

Flow Cytometry ◽

Overall Survival ◽

Plasma Cell ◽

Peripheral Blood ◽

Plasma Cells ◽

Survival Curve ◽

Plasma Cell Myeloma ◽

Newly Diagnosed ◽

Kaplan Meier ◽

Meier Survival Curve

Abstract Backgrounds Flow cytometry can rapidly determine immunophenotypes of neoplastic plasma cells (PCs) and quantify PCs in patients with plasma cell myeloma. Flow cytometric immunophenotyping and quantification of neoplastic plasma cells is sensitive and reliable tool for diagnosis and disease monitoring in patients with monoclonal gammopathy. Circulating PCs (cPCs) in peripheral blood (PB) after autologous hematopoietic stem cell transplantation is a marker of high-risk disease in patients with plasma cell myeloma. We assessed the utility of quantification of cPCs using flow cytometry for risk stratification in newly diagnosed plasma cell myeloma patients in the era of novel agents. Methods PB and bone marrow (BM) aspirates of 85 newly diagnosed patients with symptomatic plasma cell myeloma from August 2013 to July 2014 were analyzed by five-color flow cytometry using monoclonal antibodies against CD45, CD19, CD56, CD38, and CD138. The gating strategy employed first used the expression of CD38 and CD138 to identify plasma cells among 100,000 to 200,000 events. cPCs in PB was determined according to the patient's specific immunophenotype of neoplastic PCs in BM. Results The median age of the patient population was 68 years (45~87) and 58% were female. Median follow-up duration was 19.2 months. Six out of 85 patients (7%) did not show cPCs. Among 79 patient (93%) who had detectable cPCs, the median cPCs was 0.09% (0.006~3.612%). Patients without cPCs or cPCs under 0.05% were assigned to low cPCs group (n=32, 38%) and others to high cPCs group (n=53, 62%) according to receiver operating characteristics analysis. High cPCs group showed higher level of BM neoplastic PCs detected by both methodologys of morphology and flow cytometry (P=0.002, 0.033, respectively), higher BM cellularity (P=0.011), higher serum M protein level (P=0.013), lower hemoglobin (P=0.008), and lower platelet level (P=0.034) than low cPCs group. High cPCs group was associated with adverse cytogenetics such as t(4;14) and monosomy 13 (P=0.008), and CD45 negative immunophenotype (P=0.007). In survival analysis, high cPCs presented shorter overall survival (OS) than low cPCs group (P=0.013) (Fig. 1). It was independent with patient age and cytogenetic risks (P =0.011). Conclusion By flow cytometry cPCs was detected in most symptomatic plasma cell myeloma patients. Increased cPCs ≥0.05% among PB leukocytes could be an independent prognostic factor showing adverse effect in overall survival in symptomatic plasma cell myeloma patients. Figure 1. Kaplan-Meier survival curve of patients with plasma cell myeloma who showed 0.05% or more circulating plasma cells in peripheral blood and patients with circulating plasma cells less than 0.05%. Figure 1. Kaplan-Meier survival curve of patients with plasma cell myeloma who showed 0.05% or more circulating plasma cells in peripheral blood and patients with circulating plasma cells less than 0.05%. Disclosures No relevant conflicts of interest to declare.

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