Proteasome inhibition induces both antioxidant and hb f responses in sickle cell disease via the nrf2 pathway.

Oxidant stress is implicated in the manifestations of sickle cell disease including hemolysis and vascular occlusion. Strategies to induce antioxidant response as well as Hb F (α2γ2) have the potential to ameliorate the severity of sickle cell disease. Nuclear factor (erythroid-derived 2)-like 2 (NFE2L2 or Nrf2) is a transcription factor that regulates antioxidant enzymes as well as γ-globin transcription. The Nrf2 in the cytoplasm is bound to its adapter protein Keap-1 that targets Nrf2 for proteasomal degradation, thereby preventing its nuclear translocation. We examined whether inhibiting the 26S proteasome using the clinically applicable proteasome inhibitors bortezomib and MLN 9708 would promote nuclear translocation of Nrf2, and thereby induce an antioxidant response and as well as Hb F in sickle cell disease. Proteasome inhibitors induced reactive oxygen species (ROS) and thereby increased Nrf2-dependent antioxidant enzyme transcripts, elevated cellular glutathione (GSH) levels and γ-globin transcripts as well as Hb F levels in the K562 cell line and also in erythroid burst forming units (BFU-E) generated from peripheral blood mononuclear cells of sickle cell disease patients. These responses were abolished by siRNA-mediated knockdown of Nrf2. Proteasome inhibitors, especially newer oral agents such as MLN9708 have the potential to be readily translated to clinical trials in sickle cell disease with the dual end points of antioxidant response and Hb F induction.

Definitions of the phenotypic manifestations of sickle cell disease.

Sickle cell disease (SCD) is a pleiotropic genetic disorder of hemoglobin that has profound multiorgan effects. The low prevalence of SCD ( approximately 100,000/US) has limited progress in clinical, basic, and translational research. Lack of a large, readily accessible population for clinical studies has contributed to the absence of standard definitions and diagnostic criteria for the numerous complications of SCD and inadequate understanding of SCD pathophysiology. In 2005, the Comprehensive Sickle Cell Centers initiated a project to establish consensus definitions of the most frequently occurring complications. A group of clinicians and scientists with extensive expertise in research and treatment of SCD gathered to identify and categorize the most common complications. From this group, a formal writing team was formed that further reviewed the literature, sought specialist input, and produced definitions in a standard format. This article provides an overview of the process and describes 12 body system categories and the most prevalent or severe complications within these categories. A detailed Appendix provides standardized definitions for all complications identified within each system. This report proposes use of these definitions for studies of SCD complications, so future studies can be comparably robust and treatment efficacy measured. Use of these definitions will support greater accuracy in genotype-phenotype studies, thereby achieving a better understanding of SCD pathophysiology. This should nevertheless be viewed as a dynamic rather than final document; phenotype descriptions should be reevaluated and revised periodically to provide the most current standard definitions as etiologic factors are better understood, and new diagnostic options are developed.

A novel high-throughput screening assay for sickle cell disease drug discovery.

Although the pathophysiology and molecular basis of sickle cell disease (SCD) were described more than half a century ago, an effective and safe therapy is not yet available. This may be explained by the lack of a suitable high-throughput technique that allows rapid screening of thousands of compounds for their antisickling effect. The authors have thus developed a novel high-throughput screening (HTS) assay based on detecting the ability of red blood cells (RBC) to traverse a column of tightly packed Sephacryl chromatography beads. When deoxygenated, sickle RBC are rigid and remain on the top of the column. However, when deoxygenated and treated with an effective antisickling agent, erythrocytes move through the Sephacryl media and produce a red dot on the bottom of the assay tubes. This approach has been adapted to wells in a 384-well microplate. Results can be obtained by optical scanning: The size of the red dot is proportional to the antisickling effect of the test molecule. The new assay is simple, inexpensive, reproducible, requires no special reagents, and should be readily adaptable to robotic HTS systems. It has the potential to identify novel drug candidates, allowing the development of new therapeutic options for individuals affected with SCD.

Sickle cell disease summit: from clinical and research disparity to action.

The American Society of Pediatric Hematology/Oncology Sickle Cell Summit brought together a broad range of constituencies to identify a unified approach to healthcare and research disparities for sickle cell disease. Recommendations included the following: (1) speak with a unified voice representing all constituencies; (2) optimize access to care from knowledgeable health care providers and create a medical home for all individuals with the disease; (3) utilize population-based surveillance to measure outcomes; (4) develop overall approaches to basic, translational, clinical, and health services research; (5) enhance the community role in advocacy, education, service, and fundraising. Taskforces were identified to effect implementation.

Rheologic behavior of sickle and normal red blood cell mixtures in sickle plasma: implications for transfusion therapy.

BACKGROUND: Guidelines for transfusion in sickle cell disease usually define an upper hematocrit (Hct) limit of 0.30 to 0.35 to avoid blood hyperviscosity. In vitro viscosity studies of normal (AA) and sickle (SS) red blood cell (RBC) mixtures in buffer appear to confirm that this Hct limit is optimal for oxygen delivery to vascular beds as judged by the ratio of Hct to viscosity, with this ratio often termed "oxygen or RBC transport effectiveness." In the absence of plasma, however, effects due to RBC-RBC interactions mediated by plasma proteins cannot be assessed. STUDY DESIGNS AND METHODS: To investigate the optimal Hct-to-viscosity ratio of RBCs in plasma, the rheologic effects of Hct (0.20-0.40), the proportion of SS RBCs (0-100%), and shear rate (1-1000/sec) for mixtures of oxygenated and deoxygenated SS and AA RBCs were evaluated in sickle plasma at 37 degrees C. RESULTS: RBC suspension viscosity was shear-dependent (i.e., viscosity decreased with increasing shear rate) and increased with Hct and proportion of SS RBCs. An "optimal" Hct level (defined as a maximal of the Hct-to-viscosity ratio) was seen only at shear rates above 50/sec. At lower shear rates (e.g., 5/sec), where plasma-mediated RBC-RBC interactions predominate, any increment in Hct was offset by a proportionally greater increase in viscosity, thus leading to a lower Hct-to-viscosity ratio. CONCLUSION: These results indicate the importance of plasma-mediated RBC interactions and suggest that the benefits of transfusion may vary depending on local flow rates (i.e., shear rates) and organ-specific hemodynamics.

Arterial blood pressure and hyperviscosity in sickle cell disease.

Abnormal rheologic behavior of sickle cells is the result of increased viscosity of the blood caused by the polymerization of hemoglobin S and the resultant production of dense, dehydrated sickle erythrocytes. As the viscosity of sickle cells increases, there is a negative impact on blood flow, which contributes to the vascular occlusion process, the hallmark of the sickling disorders. Blood flow is directly proportional to the blood pressure and inversely proportional to the blood viscosity. Blood flow has important implications for the diagnosis and management of hypertension in sickle cell patients and for transfusion therapy for the acute and chronic complications of this disease.

The acute chest syndrome.

Recent large clinical studies of the acute chest syndrome (ACS) have improved our understanding of its pathophysiology and epidemiology. However, there is still a need for better methods of distinguishing vaso-occlusion from fibrin or fat embolism, for rapid diagnostic tests to make positive identifications of microbial infection, for adjunctive therapies that would affect prognosis, and for identification of factors that influence prognosis. The difference in clinical course and severity between children and adults supports the results of current studies indicating multiple causes for ACS. The mainstay of successful treatment remains high-quality supportive care. The judicious use of transfusion therapy has a major role in preventing mortality in the absence of a specific therapy that consistently improves the clinical course.

L-glutamine therapy reduces endothelial adhesion of sickle red blood cells to human umbilical vein endothelial cells.

BACKGROUND: We have previously demonstrated that therapy with orally administered L-glutamine improves nicotinamide adenosine dinucleotide (NAD) redox potential of sickle red blood cells (RBC). On further analysis of L-glutamine therapy for sickle cell anemia patients, the effect of L-glutamine on adhesion of sickle RBC to human umbilical vein endothelial cells (HUVEC) was examined. METHODS: The first part of the experiment was conducted with the blood samples of the 5 adult sickle cell anemia patients who had been on L-glutamine therapy for at least 4 weeks on a dosage of 30 grams per day compared to those of patient control group. In the second part of the experiment 6 patients with sickle cell anemia were studied longitudinally. Five of these patients were treated with oral L-glutamine 30 grams daily and one was observed without treatment as the control. t-test and paired t-test were used for determination of statistical significance in cross-sectional and longitudinal studies respectively. RESULTS: In the first study, the mean adhesion to endothelial cells with the autologous plasma incubated cells were 0.97 +/- 0.45 for the treated group and 1.91 +/- 0.53 for the nontreated group (p < 0.02). Similarly with lipopolysaccharide (LPS) incubated cells the mean adhesion to endothelial cells were 1.39 +/- 0.33 for the treated group and 2.80 +/- 0.47 for the untreated group (p < 0.001). With the longitudinal experiment, mean decrease in the adhesion to endothelial cells was 1.13 +/- 0.21 (p < 0.001) for the 5 treated patients whereas the control patient had slight increase in the adhesion to endothelial cells. CONCLUSION: In these studies, oral L-glutamine administration consistently resulted in improvement of sickle RBC adhesion to HUVEC. These data suggest positive physiological effects of L-glutamine in sickle cell disease.