Gla-Rich Protein Is a Potential New Vitamin K Target in Cancer: Evidences for a Direct GRP-Mineral Interaction

Viegas, Carla S. B.; Herfs, Marjolein; Rafael, Marta S.; Enriquez, Jose Luis; Teixeira, Alexandra; Luís, Inês M.; Hoofd, Cynthia M. R. van ‘t; João, Alexandre; Maria, V.L.; Cavaco, Sofia; Ferreira, Ana Carina; Serra, Manuel; Theuwissen, Elke; Vermeer, Cees; Simes, Dina C.

doi:10.1155/2014/340216

Cited by 31 publications

(40 citation statements)

References 44 publications

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“…However, the present dietary reference values for vitamin K (90 µg/day for women and 120 µg/day for men) [10] are based on proper functioning of the blood coagulation factors to maintain normal haemostasis, and not on the γ-carboxylation status of other VKDPs such as matrix Gla protein (MGP), Gla-rich protein (GRP), and osteocalcin (OC), known to be of vital importance in bone and/or vascular health [2][3][4][5][6][7]18,24]. Interestingly, extra-hepatic Gla proteins have been shown to be present as incompletely γ-carboxylated forms in the majority of healthy adults [4,25], and thus the biological activity of these proteins could be considered sub-optimal. Since VKOR is a dithiol dependent enzyme known to be inhibited by 4-hydroxycoumarin anticoagulant drugs, such as warfarin, acenocoumarol, and phenprocoumon, the widely use of these oral anticoagulants acting as vitamin K antagonists (VKAs), has also been linked to unwanted side effects in several extra-hepatic tissues with adverse clinical outcomes [4,[7][8][9]11,12].…”

Section: Vitamin K Forms and Recyclingmentioning

confidence: 99%

“…The metal binding properties of Gla residues within the VKDP family have been associated with binding of calcium ions or calcium crystals, either through Ca 2+ coordination in the Ca 2+-dependent binding of coagulation factors to anionic phospholipids membrane surfaces [68], or through binding to HA crystals, the major mineral component present in mineralized extracellular matrix, and associated either with physiological (eg., in bone) or pathological processes in soft tissues [69]. Fully γ-carboxylated GRP in human can include 15 Gla residues, which confers to this protein outstanding calcium and mineral binding capacity [25,63,64]. Undercarboxylation of GRP has been recently associated with several pathological calcification related diseases, as calcific aortic valve disease [66], osteoarthritis [67] and certain cancers [25], while only γ-carboxylated GRP has shown to display antimineralization capacity [66,67].…”

Section: Vitamin K Mechanism Of Actionmentioning

confidence: 99%

“…Fully γ-carboxylated GRP in human can include 15 Gla residues, which confers to this protein outstanding calcium and mineral binding capacity [25,63,64]. Undercarboxylation of GRP has been recently associated with several pathological calcification related diseases, as calcific aortic valve disease [66], osteoarthritis [67] and certain cancers [25], while only γ-carboxylated GRP has shown to display antimineralization capacity [66,67]. Interestingly, we have recently shown that GRP is involved in the crosstalk between inflammation and calcification of articular tissues in osteoarthritis, acting as an antiinflammatory agent [67].…”

Section: Vitamin K Mechanism Of Actionmentioning

confidence: 99%

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New Perspectives for the Nutritional Value of Vitamin K in Human Health

Viegas¹,

Simes²

2016

J Nutr Disorders Ther

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Vitamin K is an essential micronutrient in the post-translational modification of specific glutamic acid residues (Glu) into γ-carboxyglutamic acid residues (Gla) in target proteins known as vitamin K-dependent proteins (VKDPs). In healthy conditions of sufficient vitamin K status, a vitamin K recycling system maintains sufficient vitamin K levels for proper γ-carboxylation of VKDPs, and vitamin K antagonists (VKAs) widely used as anticoagulants inhibit vitamin K recycling. Besides its well-known function in the maintenance of normal coagulation, vitamin K has been reported to have other diverse physiological functions with impact in human health. In extra-hepatic tissues vitamin K deficiency results in impairment of VKDPs γ-carboxylation with important implications in bone and cardiovascular health. Although most of the vitamin K effects have been associated with regulation of mineralization in connective tissues through the action of matrix Gla protein (MGP) and osteocalcin (OC), the discovery of Gla-rich protein (GRP) opens new perspectives on the potential therapeutic range of vitamin K.

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Section: Vitamin K Forms and Recyclingmentioning

confidence: 99%

Section: Vitamin K Mechanism Of Actionmentioning

confidence: 99%

Section: Vitamin K Mechanism Of Actionmentioning

confidence: 99%

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New Perspectives for the Nutritional Value of Vitamin K in Human Health

Viegas¹,

Simes²

2016

J Nutr Disorders Ther

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“…This calcium binding property may determine whether calcium ends up in bone (full carboxylation) or soft tissue (undercarboxylation) although the study of MGP carboxylation has now become more complicated by the parallel assessment of its serine phosphorylation, thought to promote the cellular release of MGP, so that both γ-carboxylation and serine phosphorylation can impact CV calcification 12 . The recent discovery of Gla-rich protein (GRP) may additionally be of relevance since it also has calcium-binding properties and regulated extracellular calcium metabolism 13 ; both cGRP and ucGRP have been found at sites of microcalcification 14 . Similarly the vitamin K-dependent protein Gas-6 affects apoptosis of VSMCs and bone metabolism, while periostin regulates angiogenesis 14 , although very limited studies have so far been carried out.…”

Section: Introductionmentioning

confidence: 99%

“…The recent discovery of Gla-rich protein (GRP) may additionally be of relevance since it also has calcium-binding properties and regulated extracellular calcium metabolism 13 ; both cGRP and ucGRP have been found at sites of microcalcification 14 . Similarly the vitamin K-dependent protein Gas-6 affects apoptosis of VSMCs and bone metabolism, while periostin regulates angiogenesis 14 , although very limited studies have so far been carried out.…”

Section: Introductionmentioning

confidence: 99%

Cardiovascular Calcification and Bone: A Comparison of the Effects of Dietary and Serum Vitamin K and its Dependent Proteins

Nicoll¹,

Howard²,

Henein³

2015

ICFJ

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This review compares the effect of vitamin K on cardiovascular (CV) calcification and bone health and shows that, in principal, the γ-carboxylation of the vitamin K-dependent proteins matrix Gla protein (MGP) and its bone equivalent osteocalcin (OC), generally ensures that hydroxyapatite is kept out of the CV system and is deposited in bone. This is an important finding, since there is currently no reliable treatment for CV calcification.Vitamin K2 (menaquinone) may be more effective in the arteries, while vitamin K1 (phylloquinone) is more active in bone. Nevertheless, there remains considerable uncertainty over the precise scope of the functions of MGP and OC, and their carboxylated and under-carboxylated forms, as well as the newly discovered vitamin K-dependent proteins. Although a diet high in vegetables could deliver adequate phylloquinone, supplementation of menaquinone may be necessary for those at risk of CV calcification. Several animal studies and one human study have demonstrated that arterial calcification could be reduced with vitamin K supplementation and there are further trials in progress. Patients on warfarin are particularly prone to CV calcification but there has been concern that supplementation would either counter warfarin treatment or destabilise INR. In fact, studies suggest that low dose phylloquinone did not increase coagulation and may improve the stability of anticoagulant therapy. Furthermore, use of oral anticoagulants which do not affect vitamin K metabolism, such as ximelagatran, could be used when there is a need for vitamin K supplementation for artery or bone health.

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GGCX variants leading to biallelic deficiency to γ‐carboxylate GRP cause skin laxity in VKCFD1 patients

Ghosh¹,

Kraus²,

Biswas³

et al. 2021

Human Mutation

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γ‐Glutamyl carboxylase (GGCX) catalyzes the γ‐carboxylation of 15 different vitamin K dependent (VKD) proteins. Pathogenic variants in GGCX cause a rare hereditary bleeding disorder called Vitamin K dependent coagulation factor deficiency type 1 (VKCFD1). In addition to bleedings, some VKCFD1 patients develop skin laxity and skeletal dysmorphologies. However, the pathophysiological mechanisms underlying these non‐hemorrhagic phenotypes remain elusive. Therefore, we have analyzed 20 pathogenic GGCX variants on their ability to γ‐carboxylate six non‐hemostatic VKD proteins in an in vitro assay, where GGCX variants were expressed in GGCX‐/‐ cells and levels of γ‐carboxylated co‐expressed VKD proteins were detected by a functional ELISA. We observed that GGCX variants causing markedly reduced γ‐carboxylation of Gla rich protein (GRP) in vitro were reported in patients with skin laxity. Reduced levels of γ‐carboxylated Matrix gla protein (MGP) are not exclusive for causing skeletal dysmorphologies in VKCFD1 patients. In silico docking of vitamin K hydroquinone on a GGCX model revealed a binding site, which was validated by in vitro assays. GGCX variants affecting this site result in disability to γ‐carboxylate VKD proteins and hence are involved in the most severe phenotypes. This genotype‐phenotype analysis will help to understand the development of non‐hemorrhagic phenotypes and hence improve treatment in VKCFD1 patients.

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Gla-Rich Protein Is a Potential New Vitamin K Target in Cancer: Evidences for a Direct GRP-Mineral Interaction

Cited by 31 publications

References 44 publications

New Perspectives for the Nutritional Value of Vitamin K in Human Health

New Perspectives for the Nutritional Value of Vitamin K in Human Health

Cardiovascular Calcification and Bone: A Comparison of the Effects of Dietary and Serum Vitamin K and its Dependent Proteins

GGCX variants leading to biallelic deficiency to γ‐carboxylate GRP cause skin laxity in VKCFD1 patients

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