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Biochemistry of Vitamin K

Biochemistry of Vitamin K. GIT | 1 Lecture | Dr. Usman Ghani. Overview. Types and chemistry of vitamin K Sources and daily requirements Functions: Synthesis of g - carboxyglutamate in: Prothrombin and blood clotting factors Osteocalcin

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Biochemistry of Vitamin K

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  1. Biochemistry of Vitamin K GIT | 1 Lecture | Dr. Usman Ghani

  2. Overview • Types and chemistry of vitamin K • Sources and daily requirements • Functions: • Synthesis of g-carboxyglutamate in: • Prothrombin and blood clotting factors • Osteocalcin • Interaction of prothrombin with platelets • Deficiency and disorders • Clinical manifestations

  3. Types and Chemistry Occurs in several forms: • Vitamin K1 (Phylloquinone) • Vitamin K2 (Menaquinone) • Vitamin K3 (Menadione) – synthetic form

  4. Types and Chemistry Vitamin K1 (Phylloquinone) Vitamin K2 (Menaquinone) Vitamin K3 (Menadione)

  5. Sources of Vitamin K • Phylloquinone: Green leafy vegetables • Menaquinone: Intestinal bacteria • Intestinal bacterial synthesis meets the daily requirement of vitamin K even without dietary supplement • Menadione: synthetic form

  6. Infant (0-1 year): 2-2.5 Children (1-8): 30-55 Men (19+): 120 Women (19+): 90 Pregnancy / lactation: 90 / 90 UL: Not established RDA for Vitamin K(mg/day)

  7. Functions of Vitamin K • Coenzyme for the synthesis of prothrombin and blood clotting factors in the liver • Prothrombin and clotting factors are protein in nature • Synthesis of prothrombin, clotting factors VII, IX, X require carboxylation of their glutamic acid (Glu) residue

  8. Active form Warfarin

  9. Functions of Vitamin K • Mature prothrombin and clotting factors contain g-carboxyglutamate (Gla) after carboxylation reaction • Vitamin K is essential for the carboxylase enzyme involved • Dihydroquinone form of vitamin K is essential for this reaction

  10. Active form Warfarin

  11. Functions of Vitamin K • Anticoagulant drugs: warfarin and dicoumarol • Structural analogs of vitamin K • They inhibit the activation of vitamin K to hydorquinone form • Hence prothrombin and clotting factors are not carboxylated • Blood coagulation time increases upon injury

  12. Prothrombin – platelet interaction

  13. Functions of Vitamin K • Prothrombin – platelet interaction • Carboxylated prothrombin contains two carboxylate groups (COO–) • These groups bind to Ca2+ forming prothrombin-calcium complex • The complex then binds to phosholipids on the surface of platelets (important for blood clotting) • Converting prothrombin to thrombin and initiating clot formation

  14. Functions of Vitamin K • Synthesis of g-carboxyglutamate in osteocalcin • Osteocalcin is a bone protein • May have a role in bone formation and mineralization • g-carboxyglutamate is required for osteocalcin binding to hydroxyapatite (a mineral) in the bone • The function of bone osteocalcin is unclear

  15. Deficiency of Vitamin K • Deficiencies are rare: it is synthesized by the intestinal bacteria • Hypoprothrombinemia: increased blood coagulation time • May affect bone growth and mineralization • Malabsorption of lipids leads to vitamin K deficiency

  16. Deficiency of Vitamin K • Prolonged antibiotic therapy • Gastrointestinal infections with diarrhea • Both of the above destroy the bacterial flora leading to vitamin K deficiency • Deficiency most common in newborn infants • Newborns lack intestinal flora • Human milk cannot provide enough vitamin K • Supplements are given by injection

  17. Clinical Manifestations of the Deficiency • Hemorrhagic disease of the newborn • Bruising tendency, ecchymotic patches (bleeding underneath the skin) • Mucus membrane hemorrhage • Post-traumatic bleeding / internal bleeding • Prolonged prothrombin time

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