Regression of warfarin-induced medial elastocalcinosis by high intake of vitamin K in rats

Abstract: Arterial calcification (AC) is generally regarded as an independent risk factor for cardiovascular morbidity and mortality. Matrix Gla protein (MGP) is a potent inhibitor of AC, and its activity depends on vitamin K (VK). In rats, inactivation of MGP by treatment with the vitamin K antagonist warfarin leads to rapid calcification of the arteries. Here, we investigated whether preformed AC can be regressed by a VK-rich diet. Rats received a calcification-inducing diet containing both VK and warfarin (W&K). Duri… Show more

“…The effects of vitamin K were not consistent or dose-dependent, reaching at most a 30% (not statistically significant) reduction in calcification with the remaining calcium levels being still seven times higher than in the control cells. This limited efficiency of vitamin K in vitro is in agreement with a 50% reduction of arterial calcification observed in the rat model of warfarin-induced elastocalcinosis supplemented with high dose of vitamin K2 (48). Altogether, these observations indicate that although ablation of GlaMGP probably contributes to the effects of high warfarin concentrations on vascular cells, the role for this mechanism in clinically relevant warfarin-induced VC is relatively minor.…”

Quercetin Attenuates Warfarin-induced Vascular Calcification in Vitro Independently from Matrix Gla Protein

“…The effects of vitamin K were not consistent or dose-dependent, reaching at most a 30% (not statistically significant) reduction in calcification with the remaining calcium levels being still seven times higher than in the control cells. This limited efficiency of vitamin K in vitro is in agreement with a 50% reduction of arterial calcification observed in the rat model of warfarin-induced elastocalcinosis supplemented with high dose of vitamin K2 (48). Altogether, these observations indicate that although ablation of GlaMGP probably contributes to the effects of high warfarin concentrations on vascular cells, the role for this mechanism in clinically relevant warfarin-induced VC is relatively minor.…”

Quercetin Attenuates Warfarin-induced Vascular Calcification in Vitro Independently from Matrix Gla Protein

“…Non-carboxylated MGP (ucMGP) is inactive in preventing the calcification. [22][23][24] MGP-deficient KO mice manifest extensive calcification of the aorta and of the articular cartilage and they die at an early age. 25 The carboxylation step in the vascular smooth muscle cells can become rate-limiting if the vitamin K supply is inadequate.…”

Does the absence of ABCC6 (Multidrug Resistance Protein 6) in patients withPseudoxanthoma elasticumprevent the liver from providing sufficient vitamin K to the periphery?

“…Warfarin Resistance of Extrahepatic Tissues May Be Explained by VKORC1L1-During long term anticoagulation therapy, effects on VKDPs involved in coagulation process are observed whereas effects on VKDPs produced in extrahepatic tissues are not apparent or quite difficult to observe. Indeed, to induce arterial calcification by warfarin in rats, excessive doses of anticoagulants widely superior to the therapeutic doses were used in the various studies previously published (20,32,33). Price et al (33) had to treat rats twice a day with 150 mg/kg warfarin (ϳ4000-fold higher than the therapeutic dose used in human medicine) to induce rapid calcification of the elastic lamellae in the media of major arteries and in aortic heart valves.…”

VKORC1L1, an Enzyme Rescuing the Vitamin K 2,3-Epoxide Reductase Activity in Some Extrahepatic Tissues during Anticoagulation Therapy