INTRODUCTION: Osteocalcin plays a role in bone homeostasis. The vitamin K cycle is essential for the gamma-carboxylation of glutamic acid residues in osteocalcin. Some evidence suggests that long-term warfarin therapy, which inhibits the vitamin K cycle and prevents gamma-carboxylation, is associated with increased bone-fracture risk. The aim of this study was to determine the effects of warfarin and edoxaban, a direct factor Xa inhibitor, on the serum concentration of total, gamma-carboxylated (Gla-osteocalcin) and undercarboxylated osteocalcin (uc-osteocalcin) in rats. MATERIALS AND METHODS: Rats received orally administered warfarin or edoxaban, and 24h later serum and plasma were prepared. Osteocalcin level in serum was measured with ELISA. A Gla-osteocalcin was precipitated by the addition of hydroxyapatite, and the resulting supernatant was used for measuring uc-osteocalcin. Prothrombin time (PT) of plasma was also measured. RESULTS: Warfarin at 1mg/kg (a dose which prolonged PT 2.62-fold) markedly increased the serum level of uc-osteocalcin and slightly increased the total osteocalcin level compared with control in rats. Serum Gla-osteocalcin significantly decreased by warfarin. Edoxaban at 1mg/kg (an antithrombotic dose) and 54mg/kg (a dose which prolonged PT 2.25-fold) had no effects on total, uc-, and Gla-osteocalcin levels. CONCLUSIONS: This study demonstrates that warfarin impaired the carboxylation of osteocalcin in rats. In contrast, edoxaban at or higher doses than needed for an antithrombotic effect sustained the circulating Gla-osteocalcin level. These findings suggest that edoxaban has no effects on the production of Gla-osteocalcin and thus, may have a lower risk of adverse effects on bone health.
INTRODUCTION:Osteocalcin plays a role in bone homeostasis. The vitamin K cycle is essential for the gamma-carboxylation of glutamic acid residues in osteocalcin. Some evidence suggests that long-term warfarin therapy, which inhibits the vitamin K cycle and prevents gamma-carboxylation, is associated with increased bone-fracture risk. The aim of this study was to determine the effects of warfarin and edoxaban, a direct factor Xa inhibitor, on the serum concentration of total, gamma-carboxylated (Gla-osteocalcin) and undercarboxylated osteocalcin (uc-osteocalcin) in rats. MATERIALS AND METHODS:Rats received orally administered warfarin or edoxaban, and 24h later serum and plasma were prepared. Osteocalcin level in serum was measured with ELISA. A Gla-osteocalcin was precipitated by the addition of hydroxyapatite, and the resulting supernatant was used for measuring uc-osteocalcin. Prothrombin time (PT) of plasma was also measured. RESULTS:Warfarin at 1mg/kg (a dose which prolonged PT 2.62-fold) markedly increased the serum level of uc-osteocalcin and slightly increased the total osteocalcin level compared with control in rats. Serum Gla-osteocalcin significantly decreased by warfarin. Edoxaban at 1mg/kg (an antithrombotic dose) and 54mg/kg (a dose which prolonged PT 2.25-fold) had no effects on total, uc-, and Gla-osteocalcin levels. CONCLUSIONS: This study demonstrates that warfarin impaired the carboxylation of osteocalcin in rats. In contrast, edoxaban at or higher doses than needed for an antithrombotic effect sustained the circulating Gla-osteocalcin level. These findings suggest that edoxaban has no effects on the production of Gla-osteocalcin and thus, may have a lower risk of adverse effects on bone health.
Authors: Sung Huang Laurent Tsai; Ching-Wei Hu; Shih-Chieh Shao; Eric H Tischler; Olufunmilayo H Obisesan; Dominique Vervoort; Wei Cheng Chen; Jiun-Ruey Hu; Liang-Tseng Kuo Journal: Front Cardiovasc Med Date: 2022-05-23
Authors: Zhi-Chun Gu; Ling-Yun Zhou; Long Shen; Chi Zhang; Jun Pu; Hou-Wen Lin; Xiao-Yan Liu Journal: Front Pharmacol Date: 2018-04-10 Impact factor: 5.810