New therapeutic agents are urgently needed for the treatment of sickle cell disease (SCD), the world's most common genetic disease. Our long-term goal is to develop a drug for use in children that prevents the inexorable progression of SCD. SCD affects approximately 100,000 people in the United States and millions worldwide. It kills more children in Africa than HIV, but while HIV commands vast attention from the international community, SCD is "virtually invisible." In the US, those with SCD have an average mortality in their 40s and an estimated aggregate cost of medical care in excess of $1.4 billion per year. In less developed countries, 80% of children with SCD die before the age of five. The only FDA approved disease-modifying drug for use in SCD is the anti-cancer drug hydroxyurea, which has serious side effects and is only approved for use in adults. SCD results from a mutation in the ¿-globin gene (Hb S), a variant of Hb A, the common adult hemoglobin. When deoxygenated, Hb S polymerizes, forming long polymers that deform the biconcave red blood cells (RBCs) into rigid, adherent, sickle-shaped cells. The rigid sickled RBCs are easily trapped in the microvasculature, blocking blood flow to tissues and organs with resultant ischemic tissue damage. Best supportive therapies for SCD include folic acid for anemia, penicillin to prevent infections, pneumococcal and influenza vaccinations, pain medication, and intravenous injection of fluids. Chronic transfusion therapy can modify the course of the disease, but hyperviscosity, alloimmune reaction, infection, and iron overload are just a few of the complications of transfusion therapy. Bone marrow transplants can cure SCD, but the morbidity and mortality of the procedure, coupled with difficulty in finding a donor match and the cost of the procedure, leave this an uncommon treatment option. We have identified a botanical extract with potent antisickling activity. We propose to isolate the active compounds in the botanical by bio-assay guided fractionation of the botanical extract using an in vitro assay that measures sickling of human RBCs under hypoxic conditions. The active fractions will be further fractionated, the compounds in the sub-fractions identified using mass spectroscopy and NMR, and in vivo activity confirmed in 100% human Hb S transgenic mice.
Public Health Relevance Statement: Public Health Relevance: This proposal supports development of a botanical to treat sickle cell disease in children. Sickle cell disease is an inherited blood disorder that affects ovr 100,000 persons in the U.S. Those affected often have high medical costs, a poor quality of life, and early death. The development of this drug addresses a critical unmet medical to treat this disease in children.
NIH Spending Category: Complementary and Alternative Medicine; Hematology; Orphan Drug; Pain Conditions - Chronic; Pain Research; Rare Diseases; Sickle Cell Disease
Project Terms: Address; Adult; Adverse effects; Affect; Africa; Age; Analgesics; Anemia; Antineoplastic Agents; Attention; Biological Assay; Blood flow; Bone Marrow Transplantation; Botanicals; Cell Shape; Cessation of life; Child; Chronic; Clinical Data; Communities; cost; Coupled; Data; Developing Countries; Development; Disease; Disease Progression; drug development; Drug usage; effective therapy; Erythrocytes; Event; FDA approved; Folic Acid; Fractionation; Funding; Genes; Globin; Goals; Grant; Hematological Disease; Hemoglobin; Hereditary Disease; HIV; Human; hydroxyurea; Hyperviscosity; Hypoxia; In Vitro; in vitro Assay; in vivo; Infection; Infection prevention; Influenza vaccination; Inherited; International; intravenous injection; Iron Overload; Killings; Laboratories; Lead; Left; Legal patent; Liquid Chromatography; Liquid substance; Manuscripts; Mass Spectrum Analysis; Measures; Medical; Medical Care Costs; Molecular; Morbidity - disease rate; Mortality Vital Statistics; mouse model; Mutation; Neurocognitive; Nigeria; Niprisan; novel therapeutics; Organ; Organ failure; Pain; Pathogenesis; Patients; Penicillins; Persons; Pharmaceutical Preparations; Phase; Plant Leaves; polymerization; Polymers; Preparation; prevent; Procedures; Process; Property; public health relevance; Publishing; Quality of life; Reaction; Renal function; Research; scale up; Sickle Cell; Sickle Cell Anemia; sickle cell crisis; sickling; Signs and Symptoms; Small Business Innovation Research Grant; Sorghum (Plant); Spleen; stroke; Structure; Supportive care; Symptoms; Testing; Therapeutic Agents; Tissues; Traditional Medicine; Transfusion; Transgenic Mice; Transgenic Organisms; United States; United States National Institutes of Health; Universities; Variant
