Abstract
Gamma-carboxylation, performed by gamma-glutamyl carboxylase (GGCX), is an enzymatic process essential for activating vitamin K-dependent proteins (VKDP) with important functions in various biological processes. Mutations in the encoding GGCX gene are associated with multiple phenotypes, amongst which vitamin K-dependent coagulation factor deficiency (VKCFD1) is best known. Other patients have skin, eye, heart or bone manifestations. As genotype–phenotype correlations were never described, literature was systematically reviewed in search of patients with at least one GGCX mutation with a phenotypic description, resulting in a case series of 47 patients. Though this number was too low for statistically valid correlations—a frequent problem in orphan diseases—we demonstrate the crucial role of the horizontally transferred transmembrane domain in developing cardiac and bone manifestations. Moreover, natural history suggests ageing as the principal determinant to develop skin and eye symptoms. VKCFD1 symptoms seemed more severe in patients with both mutations in the same protein domain, though this could not be linked to a more perturbed coagulation factor function. Finally, distinct GGCX functional domains might be dedicated to carboxylation of very specific VKDP. In conclusion, this systematic review suggests that there indeed may be genotype–phenotype correlations for GGCX-related phenotypes, which can guide patient counseling and management.
Highlights
The gamma-glutamyl carboxylase enzyme (GGCX) catalyzes the conversion of specific glutamate (Glu) residues to gamma-carboxyglutamate (Gla) residues, a process called gamma-carboxylation [1]
Based on the data, we identified a trend that the presence of at least one GGCX mutations in the HTTM domain may predispose for the occurrence of a cardiac and/or osseous phenotype
Gamma-carboxylation is an essential process in the activation of vitamin K (VK)-dependent proteins (VKDP), which are important in numerous biological processes, such as blood clotting, inflammation, bone formation and cell proliferation
Summary
The gamma-glutamyl carboxylase enzyme (GGCX) catalyzes the conversion of specific glutamate (Glu) residues to gamma-carboxyglutamate (Gla) residues, a process called gamma-carboxylation [1]. This posttranslational modification process uses vitamin K (VK) as an essential cofactor and is part of the so-called VK cycle (Figure 1) [2]. GGCX catalyzes gamma-carboxylation of other VKDP, involved in various biological processes such as inflammation (e.g., ProS, and gla-rich protein (GRP)), bone formation (osteocalcin (OC; OMIM*112260)), cell proliferation (growth arrest-specific 6 (Gas; OMIM*600441)) and soft tissue mineralization (matrix gla protein (MGP; OMIM*154870)) [3,4].
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