CD71 improves delineation of PNH type III, PNH type II, and normal immature RBCS in patients with paroxysmal nocturnal hemoglobinuria.

BACKGROUND: The diagnosis of paroxysmal nocturnal hemoglobinuria (PNH) relies on flow cytometric demonstration of loss of glycosyl-phosphatidyl inositol (GPI)-anchored proteins from red blood cells (RBC) and white blood cells (WBC). High-sensitivity multiparameter assays have been developed to detect loss of GPI-linked structures on PNH neutrophils and monocytes. High-sensitivity assays to detect PNH phenotypes in RBCs have also been developed that rely on the loss of GPI-linked CD59 on CD235a-gated mature RBCs. The latter is used to delineate PNH Type III (total loss of CD59) and PNH Type II RBCs (partial loss of CD59) from normal (Type I) RBCs. However, it is often very difficult to delineate these subsets, especially in patients with large PNH clones who continue to receive RBC transfusions, even while on eculizumab therapy. METHODS: We have added allophycocyanin (APC)-conjugated CD71 to the existing CD235aFITC/CD59PE RBC assay allowing simultaneous delineation and quantification of PNH Type III and Type II immature RBCs (iRBCs). RESULTS: We analyzed 24 medium to large-clone PNH samples (>10% PNH WBC clone size) for PNH Neutrophil, PNH Monocyte, Type III and Type II PNH iRBCs, and where possible, Type III and Type II PNH RBCs. The ability to delineate PNH Type III, Type II, and Type I iRBCs was more objective compared to that in mature RBCs. Additionally, total PNH iRBC clone sizes were very similar to PNH WBC clone sizes. CONCLUSIONS: Addition of CD71 significantly improves the ability to analyze PNH clone sizes in the RBC lineage, regardless of patient hemolytic and/or transfusion status.

Extracellular Purine Metabolism Is the Switchboard of Immunosuppressive Macrophages and a Novel Target to Treat Diseases With Macrophage Imbalances.

If misregulated, macrophage (Mϕ)-T cell interactions can drive chronic inflammation thereby causing diseases, such as rheumatoid arthritis (RA). We report that in a proinflammatory environment, granulocyte-Mϕ (GM-CSF)- and Mϕ colony-stimulating factor (M-CSF)-dependent Mϕs have dichotomous effects on T cell activity. While GM-CSF-dependent Mϕs show a highly stimulatory activity typical for M1 Mϕs, M-CSF-dependent Mϕs, marked by folate receptor ß (FRß), adopt an immunosuppressive M2 phenotype. We find the latter to be caused by the purinergic pathway that directs release of extracellular ATP and its conversion to immunosuppressive adenosine by co-expressed CD39 and CD73. Since we observed a misbalance between immunosuppressive and immunostimulatory Mϕs in human and murine arthritic joints, we devised a new strategy for RA treatment based on targeted delivery of a novel methotrexate (MTX) formulation to the immunosuppressive FRß+CD39+CD73+ Mϕs, which boosts adenosine production and curtails the dominance of proinflammatory Mϕs. In contrast to untargeted MTX, this approach leads to potent alleviation of inflammation in the murine arthritis model. In conclusion, we define the Mϕ extracellular purine metabolism as a novel checkpoint in Mϕ cell fate decision-making and an attractive target to control pathological Mϕs in immune-mediated diseases.

High-sensitivity 5-, 6-, and 7-color PNH WBC assays for both Canto II and Navios platforms.

BACKGROUND: Paroxysmal Nocturnal Hemoglobinuria (PNH) is a rare acquired hematopoietic stem cell disorder characterized by an inability to make Glyco-Phosphatidyl-Inositol (GPI)-linked cell surface structures. Fluorescent proaerolysin (FLAER-Alexa488) is increasingly used to detect GPI-deficient WBCs by flow cytometry. However, FLAER is not available in all countries and is expensive to obtain in others. An earlier study to compare FLAER-based and non-FLAER assays confirmed very good agreement between the two tubes suggesting a cost effective simultaneous evaluation of PNH neutrophils and monocytes is possible without FLAER. METHODS: We have used a single tube approach with a 7-color assay comprising FLAER-CD157-CD15-CD64-CD24-CD14-CD45. Conjugates were carefully selected and validated so that stained samples could be analyzed on either 10-color Navios or 8-color FACSCanto II platforms. The 6-color (minus CD14) and 5-color (minus CD24 and CD14) versions were also developed and compared with our predicate clinical lab 5-color assay comprising FLAER-CD157PE-CD64ECD-CD15PC5-CD45PC7. RESULTS/CONCLUSIONS: CD15-gated PNH neutrophil clone size was quantified using either FLAER and CD157, FLAER and CD24, or CD157 and CD24. CD64-gated PNH monocyte clone size was quantified using either FLAER and CD157, FLAER and CD14, or CD157 and CD14. Analysis of >40 PNH samples showed that the FLAER-based plots derive virtually identical data to the non-FLAER plot for neutrophils (R2 = 1) and monocytes (R2 = 0.9999) and that closely similar data can be acquired using both Canto II and Navios platforms with 7-, 6-, and 5-color versions of the assay. Assessment of non-PNH samples confirmed extremely low background rate of PNH phenotypes (neutrophils and monocytes) with all three approaches. © 2018 International Clinical Cytometry Society.

Performance Characteristics of a Non-Fluorescent Aerolysin-Based Paroxysmal Nocturnal Hemoglobinuria (PNH) Assay for Simultaneous Evaluation of PNH Neutrophils and PNH Monocytes by Flow Cytometry, Following Published PNH Guidelines.

BACKGROUND: CD157 has been recently reported as a useful glycosylphosphatidylinositol (GPI)-linked marker for the detection of paroxysmal nocturnal hemoglobinuria (PNH) clones in patients with suspected paroxysmal nocturnal hemoglobinuria by flow cytometry as it targets both neutrophils and monocytes. The aim of this study is to test the feasibility of a non-fluorescent aerolysin (FLAER) approach and propose an alternative for laboratories, where FLAER is not available. METHODS: We validated a non-FLAER-based single-tube, 6-color assay targeting the GPI-linked structures CD157, CD24, and CD14. We determined its performance characteristics on 20 PNH patient samples containing a variety of clone sizes and compared results with a previously validated FLAER-based approach. RESULTS: Coefficient of variation (CV) for intra-/interassay precision analyses ranged from 0.1%/0.2% to 3.02%/7.58% for neutrophils and from 0.10%/0.3% to 5.39%/6.36% for monocytes. Coefficient of determination (r2 ) for linear regression analysis of PNH clones from 20 patients ranging from 0.06% to 99.7% was 0.99 in all cases, Wilcoxon ranks test showed no statistically significant differences (P > 0.05), Bland-Altman analysis demonstrated performance agreement with mean bias ranging from 0.06 to 0.2. CONCLUSION: Our results confirm very good performance characteristics for both intra- and interassay precision analyses, favorable correlation, and agreement between the FLAER and non-FLAER-based approaches, using the CD157 GPI marker. Our experience suggests that a rapid and cost-effective simultaneous evaluation of PNH neutrophils and monocytes by flow cytometry without using FLAER is possible in areas where FLAER may not be widely available. © 2016 International Clinical Cytometry Society.