Dominique Cartier scite author profile

Immune responses to factor VIII remain the greatest complication in the treatment of severe hemophilia A. Recent epidemiological evidence has highlighted that recombinant factor VIII produced in baby hamster kidney cells is more immunogenic than factor VIII produced in Chinese hamster ovary cells. Glycosylation differences have been hypothesized to influence the immunogenicity of these synthetic concentrates. In two hemophilia A mouse models, baby hamster kidney cell-derived factor VIII elicited a stronger immune response compared to Chinese hamster ovary cell-derived factor VIII. Furthermore, factor VIII produced in baby hamster kidney cells exhibited accelerated clearance from circulation independent of von Willebrand factor. Lectin and mass spectrometry analysis of total N-linked glycans revealed differences in high-mannose glycans, sialylation, and the occupancy of glycan sites. Factor VIII desialylation did not influence binding to murine splenocytes or dendritic cells, nor surface co-stimulatory molecule expression. We did, however, observe increased levels of immunoglobulin M specific to baby hamster kidney-derived factor VIII in naïve hemophilia A mice. De-N-glycosylation enhanced immunoglobulin M binding, suggesting that N-glycan occupancy masks epitopes. Elevated levels of immunoglobulin M and immunoglobulin G specific to baby hamster kidney-derived factor VIII were also observed in healthy individuals, and de-N-glycosylation increased immunoglobulin G binding. Collectively, our data suggest that factor VIII produced in baby hamster kidney cells is more immunogenic than that produced in Chinese hamster ovary cells, and that incomplete occupancy of N-linked glycosylation sites leads to the formation of immunoglobulin M- and immunoglobulin G-factor VIII immune complexes that contribute to the enhanced clearance and immunogenicity in these mouse models of hemophilia A.

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Dicationic Lipophosphoramidates as DNA Carriers

Mével

Montier

Lamarche

et al. 2007

Bioconjugate Chem.

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Lipophosphoramidates with two different permanent cations as polar heads were synthesized and evaluated for their gene transfer activity. Physicochemical measurements (particle size, zeta potentials) and gel retardation assays were also performed. In vitro biological evaluation was conducted with A542 and HeLa cell lines, and cytotoxicity determined by a chemiluminescent assay. The set of results indicates that, on the whole, dicationic lipophosphoramidates constitute an interesting alternative to their monocationic analogues.

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Dominique Cartier

Cationic Lipophosphoramidates and Lipophosphoguanidines Are Very Efficient for in Vivo DNA Delivery

N-linked glycosylation modulates the immunogenicity of recombinant human factor VIII in hemophilia A mice

Dicationic Lipophosphoramidates as DNA Carriers

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