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HEMATOPOIETIC AND ANTI-ANEMIA AGENTS

HEMATOPOIETIC AND ANTI-ANEMIA AGENTS. February 13, 2013 Thomas M. Guenthner, PhD E-418, MSB 996-7635 tmg@uic.edu. Learning Objectives:. Basic knowledge of the epidemiology, pathophysiology, and etiology of common anemias Controlling factors in erythrocyte and heme biosynthesis

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HEMATOPOIETIC AND ANTI-ANEMIA AGENTS

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  1. HEMATOPOIETIC AND ANTI-ANEMIA AGENTS February 13, 2013 Thomas M. Guenthner, PhD E-418, MSB 996-7635 tmg@uic.edu

  2. Learning Objectives: • Basic knowledge of the epidemiology, pathophysiology, and etiology of common anemias • Controlling factors in erythrocyte and heme biosynthesis • Role of dietary iron and iron supplements in the therapy of iron-deficiency (microcytic) anemia • Consequences of iron overdose toxicity, and its treatment with chelating agents • Role of vitamin B12 and folic acid deficiency in megaloblastic (macrocytic) anemia • Cause of “Pernicous” anemia • Role of hematopoietic growth factors in erythrocyte maturation • Proper therapeutic role of erythropoietin • Consequences of improper use of erythropoietin • Basic knowledge of common hemoglobinopathies (Thalassemias, Sickle Cell Disease) • Current status of drug therapy for Sickle Cell Disease

  3. Anemia - (from Ancient Greek: ἀναιμία anaimia, meaning lack of blood, from ἀν- an-, "not" + αἷμα haima, "blood") is a decrease in the number of erythrocytes or in the normal quantity of hemoglobin in the blood. It can also include decreased oxygen-binding ability of the hemoglobin molecule due to structural abnormality.

  4. Erythrocyte Development • Normal total circulating erythrocyte population (adult) = 25 x 1012 (5 x 106 /ml) • Circulating RBC’s collectively contain 2.5 - 3 g heme iron (~65% of total body iron) • Life span of one RBC is ~120 days • Turnover of circulating RBC’s is 1-5 x 106 cells/second • Maturation of a circulating RBC requires ~ 7 days

  5. Hemoglobin Biosynthesis

  6. Normal Hemoglobin HbA (α2β2) Heme a subunit Heme b subunit a subunit b subunit Heme Heme

  7. Pathologies associated with anemia • Iron Deficiency (Microcytic) Anemia • Vitamin Deficiency (Macrocytic/Megaloblastic) Anemia • Anemias due to hematopoietic growth factor deficiency • Functional Anemias due to hemoglobinopathies (Thalassemias, Sickle Cell Disease)

  8. Iron Deficiency (Microcytic) Anemia • RBC numbers in normal range • Cells are hypochromic • Mean cell size is < 80% normal • Due to insufficient iron to maintain normal Hemoglobin biosynthesis

  9. Microcytic Anemia

  10. Incidence of Microcytic Anemia

  11. Iron metabolism in the Body

  12. Dietary Iron requirements in different populations

  13. Iron demands of pregnancy

  14. Treatment of Iron Deficiency Anemia • Increase Dietary Iron • Oral Iron Supplement

  15. Complications • Hindered ability to absorb iron

  16. Parenteral Iron Preparations • Iron dextran • Sodium ferric gluconate complex • Iron sucrose

  17. Complication – Iron overdose toxicity • Acute Iron Overdose • Corrosion of GI epithelium • Severe acidosis • Coma • Death • Chronic Iron Overdose (Hemochromatosis) • Iron deposition in tissues as hemosiderin (hemosiderosis)

  18. Hemosiderosis

  19. Antidote – Chelation Therapy Deferoxamine (Desferal) Deferasirox

  20. Macrocytic/Megaloblastic Anemia

  21. Fewer, larger RBC’s Hematocrit may approximate normal value Cells are normochromic, but fewer cells = less oxygen-carrying capacity Functional Anemia Many ovoid (football-shaped) erythrocytes, up to 2 -3 x normal size

  22. Treatment – Folate and Vitamin B12 Supplementation

  23. Pernicious Anemia – Inability to absorb dietary Vitamin B12 Treatment – Parenteral B12 (Hydroxocobalamin, Cyanocobolamin)

  24. Erythropoietin

  25. Erythropoietin Supplementation

  26. Erythropoietin

  27. Other Hemopoietic Growth Factors Multilineage Growth Factors • Granulocyte-Myocyte Colony-Stimulating Factor (GM-CSF) Sargramostim Leukocyte Growth Factors • Granulocyte Colony-Stimulating Factor (G-CSF) Filgrastim Thrombopoietic Growth Factors • Thrombopoietin • Interleukin 11 Oprelvekin

  28. Hemoglobinopathies -Sickle Cell Disease and Thalassemias Heme a subunit Heme b subunit a subunit b subunit Heme Heme Normal Hemoglobin A (α2β2)

  29. Types of Thalassemias • α Thalassemias result in decreased alpha-globin production, therefore fewer alpha-globin chains are produced, resulting in an excess of β chains in adults and excess γ chains in newborns. The excess β chains form unstable Hb tetramers, which have abnormal oxygen dissociation curves. However, even in the homozygous state this disorder will result only in a mild microcytic anemia. • βo or β Thalassemia major prevents any formation of β chains, the most severe form of β thalassemia. β+ or β Thalassemia intermedia allow some β chain formation to occur. In either case, there is a relative excess of α chains, but these do not form tetramers. Rather, they bind to the red cell membrane, producing membrane damage, and at high concentrations they form toxic cell aggregates. • δ Thalassemia About 3% of adult hemoglobin is made of alpha and delta chains. Mutations can occur which affect the ability to produce delta chains. Hematologically, however, this is innocuous because only 2-3% of normal adult hemoglobin is hemoglobin A2. The individual will have normal hematological parameters (erythrocyte count, total hemoglobin, mean red cell volume)

  30. Treatment of Thalassemias No drug treatment known. Palliative treatment involves blood transfusions. Curative treatment involves bone marrow transplant. Frequent transfusion can produce iron overload toxicity.

  31. Sickle Cell Disease • A hemoglobinopathy involving a point mutation on the beta chain • In sickle cell hemoglobin (HbS) glutamic acid in position 6 (in the beta chain) is mutated to valine. This change allows the deoxygenated form of the hemoglobin to adhere to itself and form large Hb aggregates.

  32. Sickle Cell Erythrocytes

  33. Treatment of Sickle Cell Disease • Transfusion • Bone Marrow Transplant • Drugs • Hydroxyurea • Increases g globin gene expression and HbF production • Mechanism of action not well understood • Well tolerated • Effective in ~60% of patients • (5-Azacytidine) • Increases g globin gene expression and HbF production • Mechanism of action related to DNA demethylation • Poorly tolerated • Major cytotoxicity and carcinogenic potential • Not considered useful

  34. Drug Therapy of Sickle Cell Disease • Strategy involves promoting production of Fetal Hemoglobin (HbF) g subunit • Even 20% replacement of b chain with g chain provides significant relief from sickling.

  35. Treatment of Sickle Cell Disease • Transfusion • Bone Marrow Transplant • Drugs • Hydroxyurea • Increases g globin gene expression and HbF production • Mechanism of action not well understood • Well tolerated • Effective in ~60% of patients • (5-Azacytidine) • Increases g globin gene expression and HbF production • Mechanism of action related to DNA demethylation • Poorly tolerated • Major cytotoxicity and carcinogenic potential • Not considered useful

  36. Drugs to know IRON SUPPLEMENTS Ferrous Sulfate Ferrous Gluconate Iron Dextran Iron Sucrose (Deferoxamine) VITAMINS Folic Acid Vitamin B12 (Cyanocobalamin) Hydroxocobalamin HEMATOPOIETIC GROWTH FACTORS Erythropoietins Epoetin Alfa Darbepoetin Myeloid Growth Factors Filgrastim Sargramostim Thrombopoietic Growth Factors Interleukin-11 Thrombopoietin SICKLE CELL DRUGS Hydroxyurea (5-Azacytidine)

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