Abstract
Arterial calcification is highly prevalent in chronic kidney disease (CKD) patients and is associated with cardiovascular (CV) morbidity and mortality. Patients at early CKD stages are more likely to suffer a fatal CV event than to develop end-stage renal disease and require hemodialysis treatment. The heavy CV burden of these patients cannot be solely explained by traditional calcification risk factors. Moreover, the pathophysiologic mechanisms underlying this association are complex and yet not fully understood. Although vascular calcification was regarded as a passive degenerative process for over a century, this theory changed by recent evidence that pointed toward an active process, where calcification promoters and inhibitors were involved. Matrix Gla Protein (MGP) has been established as a strong inhibitor of calcification both in vitro and in vivo. Not only it prevents mineralization of the arterial wall, but it is the only factor that can actually reverse it. To become fully active, MGP must undergo carboxylation of specific protein bound glutamate residues, a process fully dependent on the availability of vitamin K. Low vitamin K status leads to inactive, uncarboxylated forms of MGP and has been repeatedly associated with accelerated vascular calcification. Aim of this review is to present the pathophysiologic mechanisms underlying the activation and function of MGP and review the existing, accumulating data regarding the association between vitamin K, MGP and vascular calcification/CV disease in CKD patients.
Highlights
Cardiovascular (CV) disease (CVD) has an increased incidence and prevalence in patients with chronic kidney disease (CKD) and is directly associated with the high mortality observed in this population
Sheng et al, conducted a meta-analysis of 23 studies with 5,773 controls and 5,280 cases and found that Matrix Glu to γ-carboxyglutamate (Gla) Protein (MGP) G-7A polymorphism was an independent predictor of both intimal and medial calcification [23]. These findings suggest a possible genetic basis in the pathogenesis of vascular calcification (VC) and molecular activation of MGP
Since increased dp-ucMGP reflects poor vitamin K status and has been shown to predict CVD and mortality, it has been hypothesized that supplementation with vitamin K might ameliorate VC, through activation of MGP
Summary
Arterial calcification is highly prevalent in chronic kidney disease (CKD) patients and is associated with cardiovascular (CV) morbidity and mortality. Matrix Gla Protein (MGP) has been established as a strong inhibitor of calcification both in vitro and in vivo. It prevents mineralization of the arterial wall, but it is the only factor that can reverse it. Low vitamin K status leads to inactive, uncarboxylated forms of MGP and has been repeatedly associated with accelerated vascular calcification. Aim of this review is to present the pathophysiologic mechanisms underlying the activation and function of MGP and review the existing, accumulating data regarding the association between vitamin K, MGP and vascular calcification/CV disease in CKD patients
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