Nadeem Wajih1, John Owen, Reidar Wallin. 1. Department of Internal Medicine, Wake Forest University, Winston-Salem, North Carolina, USA.
Abstract
INTRODUCTION: Recombinant members of the vitamin K-dependent protein family (factors IX and VII and protein C) have become important pharmaceuticals in treatment of bleeding disorders and sepsis. However, because the in vivo gamma-carboxylation system in stable cell lines used for transfection has a limited capacity of post translational gamma-carboxylation, the recovery of fully gamma-carboxylated and functional proteins is low. MATERIALS AND METHODS: In this work we have engineered recombinant factor VII producing HEK 293 cells to stably overexpress VKORC1, the reduced vitamin K gamma-carboxylase cofactor and in addition stably silenced the gamma-carboxylase inhibitory protein calumenin. RESULTS AND CONCLUSIONS: Stable cell lines transfected with only a factor VII cDNA had a 9% production of functional recombinant factor VII. On the other hand, these recombinant factor VII producing cells when engineered to overexpress VKORC1 and having calumenin stably suppressed more than 80% by shRNA expression, produced 68% functional factor VII. The technology presented should be applicable to all vertebrae members of the vitamin K-dependent protein family and should lower the production cost of the clinically used factors VII, IX and protein C.
INTRODUCTION: Recombinant members of the vitamin K-dependent protein family (factors IX and VII and protein C) have become important pharmaceuticals in treatment of bleeding disorders and sepsis. However, because the in vivo gamma-carboxylation system in stable cell lines used for transfection has a limited capacity of post translational gamma-carboxylation, the recovery of fully gamma-carboxylated and functional proteins is low. MATERIALS AND METHODS: In this work we have engineered recombinant factor VII producing HEK 293 cells to stably overexpress VKORC1, the reduced vitamin K gamma-carboxylase cofactor and in addition stably silenced the gamma-carboxylase inhibitory protein calumenin. RESULTS AND CONCLUSIONS: Stable cell lines transfected with only a factor VII cDNA had a 9% production of functional recombinant factor VII. On the other hand, these recombinant factor VII producing cells when engineered to overexpress VKORC1 and having calumenin stably suppressed more than 80% by shRNA expression, produced 68% functional factor VII. The technology presented should be applicable to all vertebrae members of the vitamin K-dependent protein family and should lower the production cost of the clinically used factors VII, IX and protein C.
Authors: D Voora; D C Koboldt; C R King; P A Lenzini; C S Eby; R Porche-Sorbet; E Deych; M Crankshaw; P E Milligan; H L McLeod; S R Patel; L H Cavallari; P M Ridker; G R Grice; R D Miller; B F Gage Journal: Clin Pharmacol Ther Date: 2010-03-03 Impact factor: 6.875
Authors: Douglas S Annis; Hanqing Ma; Danika M Balas; Kraig T Kumfer; Nathan Sandbo; Gregory K Potts; Joshua J Coon; Deane F Mosher Journal: PLoS One Date: 2015-08-14 Impact factor: 3.240