Heidi M Schmidt1, Katherine C Wood2, Sara E Lewis3, Scott A Hahn2, Xena M Williams3, Brenda McMahon2, Jeffrey J Baust2, Shuai Yuan2, Timothy N Bachman2, Yekai Wang4,5, Joo-Yeun Oh6, Samit Ghosh2,7, Solomon F Ofori-Acquah2,7,8, Jeffrey D Lebensburger9, Rakesh P Patel6,10, Jianhai Du4,5, Dario A Vitturi1,2, Eric E Kelley3, Adam C Straub1,2. 1. Department of Pharmacology and Chemical Biology (H.M.S., D.A.V., A.C.S.), University of Pittsburgh, PA. 2. Heart, Lung, Blood and Vascular Medicine Institute (K.C.W., S.A.H., B.M., J.J.B., S.Y., T.N.B., S.G., S.F.O.-A., D.A.V., A.C.S.), University of Pittsburgh, PA. 3. Department of Physiology and Pharmacology, Health Sciences Center (S.E.L., X.M.W., E.E.K.), West Virginia University, Morgantown. 4. Department of Ophthalmology (Y.W., J.D.), West Virginia University, Morgantown. 5. Department of Biochemistry (Y.W., J.D.), West Virginia University, Morgantown. 6. Center for Free Radical Biology (J.-Y.O., R.P.P.), University of Alabama at Birmingham. 7. Division of Hematology/Oncology, Department of Medicine, School of Medicine (S.G., S.F.O.-A.), University of Pittsburgh, PA. 8. School of Biomedical and Allied Health Sciences, University of Ghana, Accra (S.F.O.-A.). 9. Department of Pediatrics (J.D.L.), University of Alabama at Birmingham. 10. Department of Pathology (R.P.P.), University of Alabama at Birmingham.
Abstract
OBJECTIVE: Chronic hemolysis is a hallmark of sickle cell disease (SCD) and a driver of vasculopathy; however, the mechanisms contributing to hemolysis remain incompletely understood. Although XO (xanthine oxidase) activity has been shown to be elevated in SCD, its role remains unknown. XO binds endothelium and generates oxidants as a byproduct of hypoxanthine and xanthine catabolism. We hypothesized that XO inhibition decreases oxidant production leading to less hemolysis. Approach and Results: Wild-type mice were bone marrow transplanted with control (AA) or sickle (SS) Townes bone marrow. After 12 weeks, mice were treated with 10 mg/kg per day of febuxostat (Uloric), Food and Drug Administration-approved XO inhibitor, for 10 weeks. Hematologic analysis demonstrated increased hematocrit, cellular hemoglobin, and red blood cells, with no change in reticulocyte percentage. Significant decreases in cell-free hemoglobin and increases in haptoglobin suggest XO inhibition decreased hemolysis. Myographic studies demonstrated improved pulmonary vascular dilation and blunted constriction, indicating improved pulmonary vasoreactivity, whereas pulmonary pressure and cardiac function were unaffected. The role of hepatic XO in SCD was evaluated by bone marrow transplanting hepatocyte-specific XO knockout mice with SS Townes bone marrow. However, hepatocyte-specific XO knockout, which results in >50% diminution in circulating XO, did not affect hemolysis levels or vascular function, suggesting hepatocyte-derived elevation of circulating XO is not the driver of hemolysis in SCD. CONCLUSIONS: Ten weeks of febuxostat treatment significantly decreased hemolysis and improved pulmonary vasoreactivity in a mouse model of SCD. Although hepatic XO accounts for >50% of circulating XO, it is not the source of XO driving hemolysis in SCD.
OBJECTIVE: Chronic hemolysis is a hallmark of sickle cell disease (SCD) and a driver of vasculopathy; however, the mechanisms contributing to hemolysis remain incompletely understood. Although XO (xanthine oxidase) activity has been shown to be elevated in SCD, its role remains unknown. XO binds endothelium and generates oxidants as a byproduct of hypoxanthine and xanthine catabolism. We hypothesized that XO inhibition decreases oxidant production leading to less hemolysis. Approach and Results: Wild-type mice were bone marrow transplanted with control (AA) or sickle (SS) Townes bone marrow. After 12 weeks, mice were treated with 10 mg/kg per day of febuxostat (Uloric), Food and Drug Administration-approved XO inhibitor, for 10 weeks. Hematologic analysis demonstrated increased hematocrit, cellular hemoglobin, and red blood cells, with no change in reticulocyte percentage. Significant decreases in cell-free hemoglobin and increases in haptoglobin suggest XO inhibition decreased hemolysis. Myographic studies demonstrated improved pulmonary vascular dilation and blunted constriction, indicating improved pulmonary vasoreactivity, whereas pulmonary pressure and cardiac function were unaffected. The role of hepatic XO in SCD was evaluated by bone marrow transplanting hepatocyte-specific XO knockout mice with SS Townes bone marrow. However, hepatocyte-specific XO knockout, which results in >50% diminution in circulating XO, did not affect hemolysis levels or vascular function, suggesting hepatocyte-derived elevation of circulating XO is not the driver of hemolysis in SCD. CONCLUSIONS: Ten weeks of febuxostat treatment significantly decreased hemolysis and improved pulmonary vasoreactivity in a mouse model of SCD. Although hepatic XO accounts for >50% of circulating XO, it is not the source of XO driving hemolysis in SCD.
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