AI Article Synopsis
- The text discusses how vitamin K-dependent proteins, known as Gla-proteins, play a crucial role in regulating vascular calcification (VC) and how their inactivation can lead to cardiovascular issues.
- It highlights specific Gla-proteins like osteocalcin, matrix Gla-protein, and Gla-rich protein, explaining their potential as biomarkers for VC and cardiovascular risks associated with vitamin K deficiency.
- The review suggests that dietary factors could influence the levels of these Gla-proteins, making them significant in both clinical practice and understanding the relationship between inflammation and calcification.
Article Abstract
One mechanism to regulate pathological vascular calcification (VC) is its active inhibition. Loss or inactivation of endogenic inhibitors is a major inductor of VC. Such inhibitors are proteins rich in gamma-glutamyl residues (Gla-proteins), whose function strongly depends on vitamin K. The current narrative review is focused on discussing the role of extrahepatic vitamin K-dependent Gla-proteins (osteocalcin, OC; matrix Gla-protein, MGP; Gla-rich protein, GRP) in cardio-vascular pathology. Gla-proteins possess several functionally active forms whose role in the pathogenesis of VC is still unclear. It is assumed that low circulating non-phosphorylated MGP is an indicator of active calcification and could be a novel biomarker of prevalent VC. High circulating completely inactive MGP is proposed as a novel risk factor for cardio-vascular events, disease progression, mortality, and vitamin K deficiency. The ratio between uncarboxylated (ucOC) and carboxylated (cOC) OC is considered as an indicator of vitamin K status indirectly reflecting arterial calcium. Despite the evidence that OC is an important energy metabolic regulator, its role on global cardio-vascular risk remains unclear. GRP acts as a molecular mediator between inflammation and calcification and may emerge as a novel biomarker playing a key role in these processes. Gla-proteins benefit clinical practice as inhibitors of VC, modifiable by dietary factors.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10971439 | PMC |
| http://dx.doi.org/10.3390/ijms25063517 | DOI Listing |
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