Vitamin-K cycle

Pathway ID: SIGNOR-VKC

Description: Vitamin K plays an important role in blood coagulation and bone formation. Vitamin K obtained from the diet. Once transferred to the cells of the target tissue, vitamin K is metabolized by redox cycling in the intracellular endoplasmic reticulum body, in a process known as the “vitamin-K cycle”. This series of oxidation-reduction reactions begins with conversion of vitamin K from a stable oxidized form (quinone form) to a hydroquinone form by vitamin K epoxide reductase (VKOR). GGCX carboxylates the glutamic acid residues of vitamin K-dependent proteins (coagulation factors F2,F7, F9 and F10, PROS, PROC, and bone factor Osteocalcin (BGLAP) etc…), while simultaneously oxidizing the reduced form of vitamin K to an epoxide form. The epoxide form of vitamin K is reduced by epoxide reductase (VKORC1) to a reduced form and then to the reduced hydroquinone form. This reuse system allows for a very small amount of vitamin K in cells to act efficiently as a cofactor of GGCX in the post-translational carboxylation of VKDPs. Warfarin, an oral anticoagulant drug, inhibits VKOR, stops the vitamin K cycle, and prevents coagulation.

Curated by: Livia Perfetto

17 Seed Entities

Organism:
Name Primary ID
vitamin K epoxide CHEBI:28371
PROC P04070
F10 P00742
Food intake SIGNOR-PH152
BGLAP P02818
CALU O43852
PROZ P22891
F2 P00734
VKORC1 Q9BQB6
F9 P00740
warfarin CHEBI:10033
vitamin K CHEBI:28384
F7 P08709
PROS1 P07225
GAS6 Q14393
GGCX P38435
Reduced Vitamin K CHEBI:8784