VKOR paralog VKORC1L1 supports vitamin K–dependent protein carboxylation in vivo
Julie Lacombe, … , Kathleen L. Berkner, Mathieu Ferron
Julie Lacombe, … , Kathleen L. Berkner, Mathieu Ferron
Published January 11, 2018
Citation Information: JCI Insight. 2018;3(1):e96501. https://doi.org/10.1172/jci.insight.96501.
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Research Article Development Hematology

VKOR paralog VKORC1L1 supports vitamin K–dependent protein carboxylation in vivo

Abstract

Vertebrates possess 2 proteins with vitamin K oxidoreductase (VKOR) activity: VKORC1, whose vitamin K reduction supports vitamin K–dependent (VKD) protein carboxylation, and VKORC1-like 1 (VKORC1L1), whose function is unknown. VKD proteins include liver-derived coagulation factors, and hemorrhaging and lethality were previously observed in mice lacking either VKORC1 or the γ-glutamyl carboxylase (GGCX) that modifies VKD proteins. Vkorc1–/– mice survived longer (1 week) than Ggcx–/– mice (midembryogenesis or birth), and we assessed whether VKORC1L1 could account for this difference. We found that Vkorc1–/–;Vkorc1l1–/– mice died at birth with severe hemorrhaging, indicating that VKORC1L1 supports carboxylation during the pre- and perinatal periods. Additional studies showed that only VKORC1 sustains hemostasis beyond P7. VKORC1 expression and VKOR activity increased during late embryogenesis and following birth, while VKORC1L1 expression was unchanged. At P0, most (>99%) VKOR activity was due to VKORC1. Prothrombin mRNA, protein, and carboxylation also increased during this period, as did mRNA levels of coagulation factors encoding genes F7, F9, and F10. VKORC1L1 levels in Vkorc1–/– mouse liver may therefore be insufficient for supporting carboxylation beyond day 7. In support of this conclusion, VKORC1L1 overexpression in liver rescued carboxylation and hemostasis in adult Vkorc1–/– mice. These findings establish that VKORC1L1 supports VKD protein carboxylation in vivo.

Authors

Julie Lacombe, Mark A. Rishavy, Kathleen L. Berkner, Mathieu Ferron

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Figure 2

Vkorc1 and Vkorc1l1 gene dosage affects vitamin K oxidoreduction and carboxylation in the perinatal mouse liver.

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Vkorc1 and Vkorc1l1 gene dosage affects vitamin K oxidoreduction and ca...
(A) Vitamin K epoxide reductase (VKOR) activity in liver was measured at P0 in controls (WT and Vkorc1l1+/–), Vkorc1–/–, Vkorc1–/–;Vkorc1l1+/–, and Vkorc1l1–/– pups (n = 2–6; mean ± SEM; unpaired, 2-tailed Student’s t test was used to compare Vkorc1–/– and Vkorc1–/–;Vkorc1l1+/– livers; ***P < 0.001). (B) PT and GGCX carboxylation in P0 livers from WT, Vkorc1–/–, Vkorc1–/–;Vkorc1l1+/–, and Vkorc1l1–/– was tested using α-Gla immunoprecipitation and subsequent Western blot analysis with α-PT and α-GGCX antibodies. β-Actin was used as a loading control. Input represents 2% of total protein extract. Duplicates represent biological replicates, and the image is representative of 2 independent experiments. (C) PT and GGCX carboxylation in livers from WT, Vkorc1–/–, Vkorc1–/–;Vkorc1l1+/–, Vkorc1–/–;Vkorc1l1–/– (c1–/–;c1l1–/–), and Vkorc1l1–/– e18.5 embryos were analyzed as in B.