scholarly journals The T117S Variant of Cytochrome b5 Reductase 3 Increases the Risk for Ischemic Stroke with Enhanced Anemia in Mice with Sickle Cell Disease

Blood ◽  
2020 ◽  
Vol 136 (Supplement 1) ◽  
pp. 17-18
Author(s):  
Katherine C Wood ◽  
Heidi M Schmidt ◽  
Scott Hahn ◽  
Subramaniam Sanker ◽  
Samit Ghosh ◽  
...  
Keyword(s):  
Ischemic Stroke ◽  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Infarct Volume ◽  
Cytochrome B5 ◽  
Heme Iron ◽  
Cerebral Infarct ◽  
Cell Disease ◽  
Brain Infarct ◽  
Cytochrome B5 Reductase

Introduction. Stroke and silent infarcts are serious complications of sickle cell disease (SCD), occurring frequently in children between 3 and 14 years old. A vast amount of clinical and experimental evidence has concluded that decreased nitric oxide (NO) bioavailability and/or NO responsiveness, as is seen in SCD, is a major contributing factor in the pathogenesis of neurovascular disease. NO responsiveness, which occurs via NO-induced activation of soluble guanylate cyclase (sGC), requires reduced heme iron (Fe2+) in the sGC active site. We recently identified cytochrome b5 reductase 3 (Cyb5R3) as an sGC heme iron reductase in vascular smooth muscle (VSM), where it reverses the oxidized heme iron of sGC (Fe3+ --> Fe2+) to preserve NO sensing/signaling under conditions of oxidative stress. In a mouse model of SCD we have shown that knockdown of Cyb5R3 in VSM accelerates the development of pulmonary hypertension and cardiac remodeling. A missense variant of Cyb5R3 (T117S) that results in loss-of-function methemoglobin reductase activity occurs at a high frequency in persons of African ancestry (0.23 minor allele frequency). Unpublished baseline data from the Walk-PHaSSt trial (NCT00492531) reveals that persons with SCD who carry the T117S variant are at increased risk of ischemic stroke; these individuals self-reported almost 50% more (74 vs 51 cases per 1000 individuals) ischemic stroke than those with wild-type (WT) Cyb5R3. Hypothesis. We hypothesized that impaired reductase function of Cyb5R3 T117S leads to sustained sGC heme oxidation, which drives cerebral vascular dysfunction and exacerbates brain damage after ischemic stroke in SCD. Methods. Bone marrow transplant was used to create SCD mice with global expression of WT or T117S Cyb5R3, hereafter referred to as SS/WT or SS/T117S, respectively. All mice were male, C57Bl/6 background, and >85% engrafted with SS Hb for 12 weeks. Ischemic stroke was induced using transient middle cerebral artery occlusion (MCAO: 55 min occlusion, 48 hr reperfusion), after which brains were stained with 2,3,5-triphenyltetrazolium chloride (TTC,1%) to determine infarct volume. Blood was sampled before and after MCAO to assess effects of brain infarct on hematological parameters. Student's t-test was used for analysis of 2 groups and Pearson's R used for correlation analyses of brain infarct volume with hematology changes [(post-pre/pre) * 100]. Results. Global expression of T117S Cyb5R3 in SCD caused increased cerebral infarct volume (62.9 vs 26.7 cm3, P=0.003) and mortality (3/6 vs 0/6) relative to WT Cyb5R3. WT and T117S Cyb5R3 mice with SCD were similar in that both showed declining red blood cells (RBC), hemoglobin (Hgb) and hematocrit (Hct) as infarct volumes increased. In the SS/T117S group, the anemia was more severe in keeping with larger infarct volumes. There were different signatures to the hematologic changes that occurred with cerebral infarct in SCD. When compared to WT Cyb5R3, T117S caused the erythroid compartment to contract (RBC: -12.97% vs 13.41%, P=0.01; Hct: -19.75% vs 0.31%, P=0.025; Hgb: -17.93% vs 2.78%, P=0.017). In SS/WT mice platelet numbers increased more relative to SS/T117S (17.5 vs 9.7 * 103 cells/uL); and MPV, a measure of platelet activation, inversely correlated with brain infarct volume (r = -0.94, P=0.006), the opposite of what was seen in SS/T117S (r = 0.87, P=0.056). Monocytes seem to play an important role in the volume of brain infarct in SS/T117S as their numbers increased in parallel with infarct volume (r = 0.73, P=0.16), but followed the opposite trajectory in SS/WT mice (r = -0.75, P=0.14). Conclusion. These results indicate that Cyb5R3 is an important modifying factor in the evolution and outcome of ischemic brain injury in SCD. Our findings also raise questions on just how cerebral infarct modifies the anemia of SCD, as well as the role played by Cyb5R3 in the dynamics of that relationship. To what extent is the sGC-cGMP-PKG pathway involved at the cerebrovascular and erythropoietic levels? Does Cyb5R3 contribute resilience to ischemic stroke in SCD? The development and application of targeted therapies for effectively preventing and treating cerebrovascular disease in SCD rely on finding the answers to these questions. Disclosures No relevant conflicts of interest to declare.

Abstract P726: Cytochrome B5 Reductase 3 Modifies The Brain-Blood Axis Response To Ischemic Stroke In Mice With Sickle Cell Disease

Stroke ◽  
2021 ◽  
Vol 52 (Suppl_1) ◽  
Author(s):  
Katherine C Wood ◽  
Heidi M Schmidt ◽  
Scott Hahn ◽  
Mehdi Nouraie ◽  
Mara Carreno ◽  
...  
Keyword(s):  
Nitric Oxide ◽  
Ischemic Stroke ◽  
Sickle Cell Disease ◽  
Sickle Cell ◽  
African Ancestry ◽  
Cytochrome B5 ◽  
Heme Iron ◽  
Wild Type ◽  
Cell Disease ◽  
Cytochrome B5 Reductase

Introduction: Stroke and silent infarcts are serious complications of sickle cell disease (SCD), occurring frequently in children. Decreased nitric oxide bioavailability and responsiveness contribute to neurovascular disease. Cytochrome b5 reductase 3 (Cyb5R3) is a heme iron reductase that reduces oxidized soluble guanylate cyclase heme iron (Fe 3+ --> Fe 2+ ) to preserve nitric oxide signaling. A loss-of-function Cyb5R3 missense variant (T117S) occurs with high frequency (0.23 minor allele) in persons of African ancestry. Hypothesis: We hypothesized that impaired reductase function of T117S Cyb5R3 exacerbates brain damage after ischemic stroke in SCD. Methods: Bone marrow transplant was used to create male SCD mice with wild type (SS/WT) or T117S (SS/T117S) Cyb5R3. Blood was sampled before and after middle cerebral artery occlusion (55 minutes occlusion, 48 hours reperfusion). Infarct volume (IV) was determined by 2,3,5-triphenyltetrazolium chloride. Intravascular hemolysis and correlation (Pearson’s R) of hematology changes with IV were determined. Baseline Walk-PHaSST (NCT00492531) data were analyzed for stroke occurrence. Results: Brain IV (63 vs 27 cm 3 , P=0.003) and mortality (3/6 vs 0/8) were greater in SS/T117S vs SS/WT. Red blood cells, hemoglobin and hematocrit declined as IV increased. Plasma oxyhemoglobin increased in parallel with IV (r = 0.74, P=0.09). There were different signatures to hematologic changes that occurred with IV in SCD. Relative to wild type, T117S contracted the erythroid compartment (red blood cell: -13% vs 13%, P=0.003; hematocrit: -20% vs 1%, P=0.008; hemoglobin: -18% vs 2%, P=0.007). Mean platelet volume correlated with IV in SS/T117S (r = 0.87, P=0.06), while the inverse occurred in SS/WT (r = -0.63, P=0.09) Monocytes increased in parallel with IV in SS/T117S (r = 0.73, P=0.16), but followed the opposite trajectory in SS/WT (r = -0.77, P=0.04). WalkPHaSST participants with T117S Cyb5R3 self-reported more ischemic stroke (7.4% vs 5.1%) relative to wild type. Conclusion: Cyb5R3 is an important modifier of the evolution and outcome of ischemic brain injury in SCD and its hematologic consequences. Our findings indicate a bidirectional relationship between stroke and anemia in SCD that may axially turn on Cyb5R3 activity.

Cytochrome b5 Reductase T116S Mutation and Hemolysis in Sickle Cell Disease.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 903-903 ◽  
Author(s):  
Mehdi Nouraie ◽  
Noel S. Reading ◽  
Andrew Campbell ◽  
Caterina Minniti ◽  
Sohail R Rana ◽  
...  
Keyword(s):  
African Americans ◽  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Tricuspid Regurgitation ◽  
Cytochrome B5 ◽  
Type I ◽  
Systolic Pulmonary Artery Pressure ◽  
Cell Disease ◽  
Cytochrome B5 Reductase ◽  
Membrane Bound

Abstract Abstract 903 Abstract Background: Deficiency of NADH-cytochrome b5 reductase (cytb5r, EC 1.6.2.2) is responsible for congenital methemoglobinemia. This enzyme exists in soluble and membrane-bound forms. The soluble erythrocytic cytb5r isoenzyme is involved in cytochrome b5 reduction and in erythrocyte methemoglobin reduction; the membrane-bound microsomal enzyme participates in a fatty acid desaturation complex and in drug metabolism. The cytb5r isoforms are the product of a single gene locus, DIA1 (or CYB5R3), on chromosome 22. More then 40 mutations which cause methemoglobinemia have been reported to date; the majority are missense mutations and are associated with mild type I methemoglobinemia. The CYBR5 T116S mutation is the most common genetic polymorphism among African Americans known (gene frequency as high as 20%) and it has not yet been detected in other ethnic and racial groups. This polymorphism is not associated with methemoglobinemia and its functional significance is not yet known. We studied the relationship of CYBR5 T116S with the degree of hemolysis and the tricuspid regurgitation velocity (which correlates with systolic pulmonary artery pressure) in patients with sickle cell disease. Methods: Two hundred sixty one children and adolescents with hemoglobin SS were recruited at three tertiary medical centers and studied at steady state. Patients with other sickle genotypes were excluded from this analysis of CYBR5 T116S. Principal component analysis was used to develop a hemolytic component from reticulocyte count and concentrations of lactate dehydrogenase, aspartate aminotransferase and bilirubin. PCR was used to determine the presence of the CYBR5 T116S mutation. Multivariate models were employed to determine the independent effects of this genotype on degree of hemolysis and tricuspid regurgitation velocity. Results: Ninety-eight of the patients (38%) were CYBR5 T116S heterozygotes and 26 (10%) were homozygotes, consistent with Hardy-Weinberg equilibrium. Both heterozygosity (beta = -0.4) and homozygosity (beta = -0.5) were associated with reduction in the hemolytic component (N = 261; P for trend = 0.002) (Figure 1). This relationship persisted after adjusting for α-thalassemia, hemoglobin F percent and hydroxyurea treatment in a subset of 113 patients with all of this information available (P for trend = 0.037) and it also persisted in a subset of 87 patients with no α-globin gene deletion who were not being treated with hydroxyurea (P for trend = 0.029). In none of these analyses did G6PD-202/-376 have an effect on hemolysis. Both heterozygosity (beta = -0.04) and homozygosity (beta = -0.14) for the CYBR5 T116S mutation were also associated with lower tricuspid regurgitation velocity (P for trend = 0.024). Conclusions: CYBR5 T116S is a common polymorphism among patients with sickle cell disease that appears to be associated with less hemolysis and lower tricuspid regurgitation velocity. We speculate that this polymorphism may be related to a previously reported subpopulation of African Americans with increased cytochrome b5 reductase activity, and that increased anti-oxidant activity may explain the polymorphism's hemolysis-reducing effect. Functional studies to investigate this possibility are planned. Disclosures: No relevant conflicts of interest to declare.

scholarly journals Ischemic Stroke in Children and Young Adults with Sickle Cell Disease (SCD) in the Post-STOP Era

Blood ◽  
2015 ◽  
Vol 126 (23) ◽  
pp. 68-68 ◽  
Author(s):  
Janet L. Kwiatkowski ◽  
Julie Kanter ◽  
Heather J. Fullerton ◽  
Jenifer Voeks ◽  
Ellen Debenham ◽  
...  
Keyword(s):  
Ischemic Stroke ◽  
High Risk ◽  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Sickle Cell Anemia ◽  
Stroke Prevention ◽  
Cell Disease ◽  
Clinical Series ◽  
The Mean

Abstract Background: The Stroke Prevention Trial in Sickle Cell Anemia (STOP) and Optimizing Primary Stroke Prevention in Sickle Cell Anemia (STOP 2) established routine transcranial Doppler ultrasound (TCD) screening with indefinite chronic red cell transfusions (CRCT) for children with abnormal TCD as standard of care. To identify children at high-risk of stroke, annual TCD screening is recommended from ages 2 to 16 years, with more frequent monitoring if the result is not normal. A reduction in stroke incidence in children with SCD has been reported in several clinical series and analyses utilizing large hospital databases when comparing rates before and after the publication of the STOP study in 1998. We sought to determine the rate of first ischemic stroke in a multicenter cohort of children who had previously participated in the STOP and/or STOP 2 trials and to determine whether these strokes were screening or treatment failures. Subjects and Methods: Between 1995 and 2005, STOP and STOP 2 (STOP/2) were conducted at 26 sites in the US and Canada. These studies included 3,835 children, ages 2 to 16 y with SCD type SS or S-beta-0-thalassemia. Participation in STOP/2 ranged from a single screening TCD to randomization. STOP 2 also had an observational arm for children on CRCT for abnormal TCD whose TCD had not reverted to normal. The Post-STOP study was designed to follow-up the outcomes of children who participated in one or both trials. 19 of the 26 original study sites participated in Post-STOP, contributing a total of 3,539 (92%) of the STOP/2 subjects. After exit from STOP/2, these children received TCD screening and treatment according to local practices. Data abstractors visited each clinical site and obtained retrospective data from STOP/2 study exit to 2012-2014 (depending on site) including follow-up TCD and brain imaging results, clinical information, and laboratory results. Two vascular neurologists, blinded to STOP/2 status and prior TCD and neuroimaging results, reviewed source records to confirm all ischemic strokes, defined as a symptomatic cerebral infarction; discordant opinions were resolved through discussion. For the first Post-STOP ischemic stroke, prior TCD result and treatment history subsequently were analyzed. Results: Of the 3,539 subjects, follow-up data were available for 2,850 (81%). Twelve children who had a stroke during STOP or STOP2 were excluded from these analyses resulting in data on 2,838 subjects. The mean age at the start of Post-STOP was 10.5 y and mean duration of follow-up after exiting STOP/2 was 9.1 y. A total of 69 first ischemic strokes occurred in the Post-STOP observation period (incidence 0.27 per 100 pt years). The mean age at time of stroke was 14.4±6.2 (median 13.8, range 3.5-28.9) y. Twenty-five of the 69 patients (36%) had documented abnormal TCD (STOP/2 or Post-STOP) prior to the stroke; 15 (60%) were receiving CRCT and 9 (36%) were not (treatment data not available for 1 subject). Among the 44 subjects without documented abnormal TCD, 29 (66%) had not had TCD re-screen in the Post-STOP period prior to the event; 7 of these 29 (24%) were 16 y or older at the start of Post-STOP, which is beyond the recommended screening age. Four of the 44 (9%) patients had inadequate TCD in Post-STOP (1 to 10.7 y prior to event). Six (14%) had normal TCD more than a year before the event (1.2 - 4 y); all but one of these children were younger than 16 y at the time of that TCD. Only 5 (11%) had a documented normal TCD less than 1 year prior to the event. Conclusions: In the Post-STOP era, the rate of first ischemic stroke was substantially lower than that reported in the Cooperative Study of Sickle Cell Disease, prior to implementation of TCD screening. Many (39%) of the Post-STOP ischemic strokes were associated with a failure to re-screen according to current guidelines, while only 11% occurred in children who had had recent low-risk TCD. Among those known to be at high risk prior to stroke, treatment refusal or inadequate treatment may have contributed. While TCD screening and treatment are effective at reducing ischemic stroke in clinical practice, significant gaps in screening and treatment, even at sites experienced in the STOP protocol, remain to be addressed. Closing these gaps should provide yet further reduction of ischemic stroke in SCD. Disclosures No relevant conflicts of interest to declare.

Glial Fibrillary Acidic Protein as a Plasma Biomarker of Brain Injury in Children with Sickle Cell Disease.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 1512-1512
Author(s):  
William J Savage ◽  
Zongming Fu ◽  
Emily Barron-Casella ◽  
Pratima Dulloor ◽  
Jacky Jennings ◽  
...  
Keyword(s):  
Brain Injury ◽  
Sickle Cell Disease ◽  
Glial Fibrillary Acidic Protein ◽  
Acute Stroke ◽  
Sickle Cell ◽  
Cerebral Infarct ◽  
Cell Disease ◽  
Neurologic Injury ◽  
Plasma Biomarker ◽  
Cross Sectional

Abstract Abstract 1512 Poster Board I-535 Introduction In children with sickle cell disease (SCD), silent cerebral infarct (SCI) is an independent risk factor for lower IQ, poorer school performance, and overt stroke. MRI is the only method to identify patients with SCI. A blood biomarker of SCI in patients with sickle cell disease (SCD) would fill a clinical void because blood is easy to obtain and measure, a biomarker may determine risk of or progression of neurologic injury to overt stroke, and a biomarker could benchmark current and new therapies for SCI and other subclinical forms of neurologic injury in SCD. We hypothesized that an unbiased proteomics screen of plasma from sickle cell patients would yield biomarkers of brain injury. Methods A cross-sectional sample of children 5-14 years old with sickle cell disease (HbSS and HbSB0) who were screened for the Silent Infarct Transfusion (SIT) Trial (ClinicalTrials.gov NCT00072761) were studied (n=258) along with 60 age-matched healthy controls and 28 adults with overt brain injury. For biomarker discovery, plasma underwent depletion of hemoglobin with nickel- nitrilotriacetic acid and immunoaffinity depletion of the 12 most abundant plasma proteins. After fractionation by reverse phase liquid chromatography over a C18 column and acetonitrile gradient and trypsin digestion, peptide spectra from each fraction were obtained by LC/MS/MS (LTQ-Orbitrap) and were searched using X!Tandem and human IPI database version 3.5. Post search analysis was performed using Proteomics Analysis Software System (Integrated Analysis Inc., Bethesda, MD). An electrochemiluminescent immunoassay was developed for one of the candidate proteins identified, glial fibrillary acidic protein (GFAP), for protein validation (MesoScale Discovery). Results GFAP, a brain-specific intermediate filament known to be a marker of acute stroke and head trauma in adults, was identified in discovery sample plasma. Four percent of sickle cell subjects in steady-state had plasma GFAP concentrations similar to stroke and brain surgery controls (>0.45 ng/mL). Among sickle cell subjects 5-14 years old screened for the SIT Trial, 9.3% had GFAP concentrations above the 95th percentile of age-matched controls (95th percentile cutoff: 0.227 ng/mL; p=0.08). Sickle cell subjects with silent cerebral infarct (SCI) had more elevations above the normal 95th percentile (10/69; 14.5%) than those without SCI (9/131; 6.8%), although this difference was not statistically significant (p=0.08). The sensitivity of GFAP as a marker of brain injury was demonstrated in a case of an 11 year-old child with HbSS and acute stroke in which plasma GFAP was 1.52 ng/mL (6 times the normal control 95th percentile) before the stroke was clinically evident and peaked at 2.83 ng/mL. We discovered GFAP as a circulating brain protein in plasma of children with SCD. Plasma GFAP is a marker of acute stroke in sickle cell disease but discriminates only minimally between SCI and non-SCI status in the SIT Trial using baseline cross-sectional samples. Four percent of children with sickle disease 5-14 years old have plasma GFAP levels similar to controls with severe brain injury without clinical evidence of overt stroke. Conclusions Elevations in circulating brain proteins such as GFAP show promise as indicators of subacute brain injury in children with SCI, but will require longitudinal studies of plasma GFAP in children with SCI to clarify the utility of GFAP as a plasma biomarker of SCI and a predictor of neurologic risk. Disclosures No relevant conflicts of interest to declare.

The Heme Scavenger Hemopexin Reverts Heme-Driven Pro-Inflammatory Phenotypic Switching of Macrophages in Sickle Cell Disease

Blood ◽  
2015 ◽  
Vol 126 (23) ◽  
pp. 2205-2205
Author(s):  
Francesca Vinchi ◽  
Milene Costa da Silva ◽  
Giada Ingoglia ◽  
Sara Petrillo ◽  
Nathan Brinkman ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Inflammatory Markers ◽  
Heme Iron ◽  
Phenotypic Switching ◽  
Phenotypic Change ◽  
Cell Disease ◽  
Expression Levels ◽  
Arginase 1 ◽  
Inflammatory Phenotype

Abstract Hemolytic diseases, such as sickle cell anemia and thalassemia, are characterized by enhanced release of hemoglobin and heme into the circulation, heme-iron loading of reticulo-endothelial system macrophages as well as chronic inflammation. Here we demonstrate that in addition to activating the vascular endothelium, hemoglobin and heme alter the macrophage phenotype in sickle cell disease. We show that exposure of cultured macrophages to hemolytic aged red blood cells, heme or iron causes their functional phenotypic change towards a pro-inflammatory phenotype, with increased expression levels of inflammatory markers such as IL-6 (P<0.001), TNFα (P<0.0001), IL-1β (P<0.001) MHCII (P<0.001), CD86 (P<0.05) and CD14 (P<0.0001) and decreased expression levels of anti-inflammatory markers such as IL-10 (P<0.0001), CD206 (P<0.0001), Arginase-1 and Ym1. Interestingly, hemolysis and macrophage heme/iron accumulation in a mouse model of sickle cell disease triggers similar pro-inflammatory phenotypic alterations in hepatic macrophages, increasing the expression levels of IL-6 (P<0.0001), MHCII (P<0.05), CD86 (P<0.0001) and iNOS (P<0.01). On the mechanistic level, heme-induced pro-inflammatory phenotype switching of macrophages critically depends on ROS production and activation of the TLR4 signaling pathway. We further demonstrate that the heme scavenger hemopexin protects reticulo-endothelial macrophages from heme overload in heme-loaded Hx-null mice (P<0.05) and reduces production of cytokines (IL-6, TNFα: P<0.01) and reactive oxygen species (P<0.001). Importantly, in sickle mice the administration of human exogenous hemopexin attenuates the inflammatory phenotype of macrophages, by decreasing the expression of IL-6 (P<0.05), MHCII (P<0.01), CD86 (P<0.001) and iNOS (P<0.05). Taken together, our data suggest that therapeutical administration of hemopexin is beneficial to counteract heme-driven macrophage-mediated inflammation in sickle cell disease. Disclosures Brinkman: CSL Behring: Employment. Zuercher:CSL Behring: Employment.

scholarly journals First Ischemic Stroke in Sickle-Cell Disease

Stroke ◽  
2015 ◽  
Vol 46 (8) ◽  
pp. 2315-2317 ◽  
Author(s):  
David Calvet ◽  
Françoise Bernaudin ◽  
Antoine Gueguen ◽  
Hassan Hosseini ◽  
Anoosha Habibi ◽  
...  
Keyword(s):  
Ischemic Stroke ◽  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Cell Disease

Ischemic stroke in children and young adults with sickle cell disease in the post‐STOP era

2019 ◽  
Vol 94 (12) ◽  
pp. 1335-1343 ◽  
Author(s):  
Janet L. Kwiatkowski ◽  
Jenifer H. Voeks ◽  
Julie Kanter ◽  
Heather J. Fullerton ◽  
Ellen Debenham ◽  
...  
Keyword(s):  
Young Adults ◽  
Ischemic Stroke ◽  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Cell Disease ◽  
Children And Young Adults

scholarly journals Genetic, laboratory and clinical risk factors in the development of overt ischemic stroke in children with sickle cell disease

2018 ◽  
Vol 40 (2) ◽  
pp. 166-181 ◽  
Author(s):  
André Rolim Belisário ◽  
Célia Maria Silva ◽  
Cibele Velloso-Rodrigues ◽  
Marcos Borato Viana
Keyword(s):  
Risk Factors ◽  
Ischemic Stroke ◽  
Sickle Cell Disease ◽  
Sickle Cell ◽  
Clinical Risk Factors ◽  
Cell Disease ◽  
Clinical Risk

Candidate Gene Polymorphisms and Their Association with TCD Velocities in Children with Sickle Cell Disease.

Blood ◽  
2007 ◽  
Vol 110 (11) ◽  
pp. 429-429 ◽  
Author(s):  
Abdullah Kutlar ◽  
Donald Brambilla ◽  
Betsy Clair ◽  
Anne Haghighat ◽  
Sule Bakanay ◽  
...  
Keyword(s):  
Ischemic Stroke ◽  
Sickle Cell Disease ◽  
Candidate Gene ◽  
Sickle Cell ◽  
Gene Polymorphisms ◽  
Large Scale ◽  
Binary Classification ◽  
Conditional Logistic Regression ◽  
Cell Disease ◽  
Stop Trial

Abstract Ischemic stroke occurs in 11% of patients with sickle cell disease (SCD) by age 20. The STOP and STOP-II trials showed that the risk of ischemic stroke increases with Transcranial Doppler (TCD) velocities in major intracranial arteries in children with SCD 2–16 years of age, and that the risk in children with abnormal velocities (>200 cm/sec) can be significantly reduced by prophylactic transfusions. Risk factors for development of high TCD phenotype are not clearly established. In an ancillary study to STOP/STOP-II, we analyzed 28 polymorphisms in 20 candidate genes for association with elevated TCD velocity. DNA was extracted from 130 patients randomized in the STOP trial, all of whom had abnormal TCD velocities, and from 355 patients who were screened for STOP II at 8 participating centers. None of the subjects from either trial had histories of overt stroke when they were screened. Samples from STOP subjects were anonymized according to an IRB-approved plan; informed consent/assent was obtained from subjects screened for the STOP-II trial. Hb phenotype was ascertained by HPLC. High throughput genotyping was performed using the MassARRAY™ System (Sequenom Inc., San Diego, CA) at Mass U. TCD status was classified as normal (<170 cm/sec) or not normal (>170 cm/sec) using the average of all TCDs on each patient, excluding any TCDs obtained after starting transfusion (median: 2 TCD exams, range 1–16). Genotyping results for each SNP were also reduced to a binary classification (mutation present or absent) by combining heterozygous subjects with those homozygous for the mutation. Conditional logistic regression was employed to model the probability of having at least 1copy of the mutant allele as a function of TCD status stratified on age class. Under this approach, the odds ratio (OR) relating TCD status to genotype is assumed to be the same at all ages but the prevalence of abnormal or conditional TCD is allowed to vary with age. Seven SNPs were excluded from analyses: all subjects studied (479) were homozygous for the common allele for 5 SNPs, and only 2 subjects were heterozygous for the minor allele for 2 SNPs. The prevalence of abnormal TCD varied with age; the highest prevalence was found in 8–9 year old subjects. Only one SNP, VCAM G1238C, had a significant OR of 0.6 (p=0.03) suggesting this SNP is protective from high TCD. The same polymorphism was found to be protective from stroke with an OR of 0.3 in a different cohort of patients by Taylor et al (Blood, 100:4303–9, 2002). Several published studies have reported on association of stroke with candidate gene polymorphisms with differing results. This is the first large scale study of the association of abnormal TCD (stroke risk) with genetic polymorphisms. To our knowledge, it is also the first confirmatory genetic association study in SCD and cerebrovascular disease in a different population of subjects. Functional analyses of this polymorphism and association of stroke and candidate gene polymorphisms in this cohort are planned.

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