In paroxysmal nocturnal hemoglobinuria (PNH) hemolytic anemia is due mainly to deficiency of the complement regulator CD59 on the surface of red blood cells (RBCs). Eculizumab, an antibody that targets complement fraction 5 (C5), has proven highly effective in abolishing complement-mediated intravascular hemolysis in PNH; however, the hematologic benefit varies considerably among patients. In the aim to understand the basis for this variable response, we have IntroductionParoxysmal nocturnal hemoglobinuria (PNH) is a hematologic disorder characterized by the clonal expansion of one or a few hematopoietic stem cells that are incapable of glycosylphosphatidylinositol (GPI)-anchor biosynthesis, due to an acquired somatic mutation in the phosphatidylinositol glycan class A (PIG-A) gene. [1][2][3][4][5][6] Affected progeny cells are deficient in all GPI-anchored surface proteins, including the complement regulators CD55 and CD59. 7-9 Thus, PNH red blood cells (RBCs) are exquisitely vulnerable to activated complement, and particularly to the membrane attack complex (MAC), 10,11 resulting in chronic intravascular hemolysis with recurrent exacerbations, and consequent anemia.Eculizumab (Soliris; Alexion Pharmaceuticals, Cheshire, CT) is a humanized monoclonal antibody against complement fraction 5 (C5), which inhibits MAC formation. 12 Eculizumab has proven highly beneficial in the treatment of transfusion-dependent PNH patients. [13][14][15] In a placebo-controlled phase 3 trial, eculizumab led to a marked decrease in transfusion requirement, and improvement in anemia, fatigue, pain, shortness of breath, and QoL measures. 15 These data were confirmed in 2 subsequent studies, 16,17 the last one also suggesting that eculizumab may reduce the occurrence of thromboembolic events. 17 In the face of such gratifying clinical results, it is clear that not all patients respond equally to the treatment. In some patients there is only little improvement of anemia, and some still require blood transfusion at times, with signs of persistent hemolysis (reticulocytosis, elevated unconjugated bilirubin). 15,16 In this work, we have investigated the notion that in patients with suboptimal hematologic response to eculizumab there may be extravascular hemolysis mediated by complement effector mechanisms other than MAC. 15 Based on flow cytometry analysis of complement fraction 3 (C3) on RBCs, we provide evidence of selective C3 opsonization of GPI-negative red cells, the extent of which tends to correlate with the clinical response to eculizumab, and may be the manifestation of a novel phenomenon in the pathophysiology of PNH. Methods PatientsThe study was conducted in 56 Italian PNH patients (Table 1); biologic samples were collected by venipuncture according to standard procedures, after informed consent was obtained in accordance with the Declaration of Helsinki as approved within the study protocol by the Institutional Review Board at the Federico II University of Naples. Twenty-eight patients were studied at diagnosis, before any t...
That primaquine and other drugs can trigger acute haemolytic anaemia in subjects who have an inherited mutation of the glucose 6-phosphate dehydrogenase (G6PD) gene has been known for over half a century: however, these events still occur, because when giving the drug either the G6PD status of a person is not known, or the risk of this potentially life-threatening complication is under-estimated. Here we review briefly the genetic basis of G6PD deficiency, and then the pathophysiology and the clinical features of drug-induced haemolysis; we also update the list of potentially haemolytic drugs (which includes rasburicase). It is now clear that it is not good practice to give one of these drugs before testing a person for his/her G6PD status, especially in populations in whom G6PD deficiency is common. We discuss therefore how G6PD testing can be done reconciling safety with cost; this is once again becoming of public health importance, as more countries are moving along the pathway of malaria elimination, that might require mass administration of primaquine. Finally, we sketch the triangular relationship between malaria, antimalarials such as primaquine, and G6PD deficiency: which is to some extent protective against malaria, but also a genetically determined hazard when taking primaquine.
CD200, a transmembrane type Ia glycoprotein belonging to the immunoglobulin protein superfamily, is broadly expressed on a wide variety of cell types, such as B lymphocytes, a subset of T lymphocytes, dendritic cells, endothelial and neuronal cells. It delivers immunosuppressive signals through its receptor CD200R, which is expressed on monocytes/myeloid cells and T lymphocytes. Moreover, interaction of CD200 with CD200R has also been reported to play a role in the regulation of tumor immunity. Overexpression of CD200 has been reported in chronic lymphocytic leukemia (CLL) and hairy cell leukemia but not in mantle cell lymphoma, thus helping to better discriminate between these different B cell malignancies with different prognosis. In this review, we focus on the role of CD200 expression in the differential diagnosis of mature B-cell neoplasms and on the prognostic significance of CD200 expression in CLL, where conflicting results have been published so far. Of interest, increasing evidences indicate that anti-CD200 treatment might be therapeutically beneficial for treating CD200-expressing malignancies, such as CLL.
PNH is a hematological disorder characterized by complement-mediated intravascular hemolysis due to lack on RBCs of the complement regulators CD55 and CD59 and subsequent activation of the membrane attack complex (MAC). Eculizumab (EC) is an anti-complement fraction 5 antibody which abolishes intravascular hemolysis in PNH patients, leading to reduction of transfusion requirement and of anemia. Although the effector complement pathway is completely blocked by eculizumab in all patients, response to this agent in terms of transfusion requirement and hemoglobin level varies considerably. We have investigated the notion that patients with suboptimal hematological response may suffer from residual hemolysis mediated by mechanisms other than intravascular hemolysis via MAC. After the initial observation of a positive C3d Coombs test in some PNH patients on EC, we extensively studies C3 coating by flow cytometry in 56 PNH patients (41 of them while receiving EC). We found that in all cases on EC treatment a significant proportion of RBCs were coated with complement fraction 3 (C3); by converse, in 28 untreated PNH patients we found no evidence of C3 on red cells. C3 coating was strictly limited to CD59-neg RBCs, as CD59+/C3+ RBCs (as those seen in cold agglutinine disease patients, positive control) were never found. C3 coating was quite different among EC-treated patients, and correlated with the PNH RBC population. The percentage of C3+ cells within the PNH RBC population (the only subjected to C3 coating) was quite different in individual patients (0.5–61.3%, median 22.6%) and substantially preserved over time. We compared the level of C3 coating with the hematological response: all the 41 EC-treated patients showed marked LDH reduction with a substantial improvement of anemia, leading to transfusion independence in 34/41 patients (83%) and stable resolution of anemia in 14 (34%, defined optimal responders). The optimal responders showed a lower percentage of C3+ cells in comparison to suboptimal responders (20.9±19.0 vs 32.2±17.8; p=0.04). Indeed, patients with lower C3 coating (below the median value of 22.6%) showed a significantly higher rate of optimal response (51% in comparison to 15% of those with coating above the median, p=0.01). C3 coating also correlated with the absolute reticulocyte count (p=0.03), clearly suggesting that C3 coating was associated with ongoing residual extravascular hemolysis in vivo, and with pre-treatment LDH level (p=0.001). To confirm the presence of extravascular hemolysis, in 3 index patients with suboptimal response reduced RBC half-life was demonstrated in vivo by 51Cr RBC survival study, which showed reduced RBC half-life and excess uptake in liver and spleen. One of these patients underwent video-laparoscopic splenectomy, which led to transfusion independence and significant increase in Hb level. These data demonstrate that C3 coating of PNH RBCs is a common phenomenon in PNH patients on EC; in addition, we provide evidence that this leads to C3-mediated extravascular hemolysis through the reticulo-endothelial system. This novel mechanism of disease may account for residual hemolysis and suboptimal clinical benefit in some EC treated PNH, paving the way for additional therapeutic strategies to optimize the hematological response to this agent.
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