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1.  O-Phospho-L-Serine, Multi-functional Excipient for B Domain Deleted Recombinant Factor VIII 
The AAPS journal  2007;9(2):E251-E259.
Factor VIII (FVIII) is an important cofactor in the blood coagulation cascade. A deficiency or dysfunction of FVIII causes hemophilia A, a life-threatening bleeding disorder. FVIII circulates in plasma as a heterodimer comprising 6 domains (heavy chain, A1-A2-B and light chain, A3-C1-C2). Replacement therapy using FVIII is the leading therapy in the management of hemophilia A. However, ∼15% to 30% of patients develop inhibitory antibodies that neutralize the activity of the protein. Neutralizing antibodies to epitopes in the lipid binding region of FVIII are commonly identified in patients’ plasma. In this report, we investigated the effect of O-phospho-L-serine (OPLS), which binds to the lipid binding region, on the immunogenicity of B domain deleted recombinant factor VIII (BDDrFVIII). Sandwich enzyme-linked immunosorbent assay (ELISA) studies showed that OPLS specifically bind to the lipid binding region, localized in the C2 domain of the coagulation factor. Size exclusion chromatography and fluorescence anisotropy studies showed that OPLS interfered with the aggregation of BDDrFVIII. Immunogenicity of free-vs BDDrFVIII-OPLS complex was evaluated in a murine model of hemophilia A. Animals administered subcutaneous (sc) injections of BDDrFVIII-OPLS had lower neutralizing titers compared with animals treated with BDDrFVIII alone. Based on these studies, we hypothesize that specific molecular interactions between OPLS and BDDrFVIII may improve the stability and reduce the immunogenicity of BDDrFVIII formulations.
doi:10.1208/aapsj0902028
PMCID: PMC2573386  PMID: 17907766
B domain deleted recombinant factor VIII; O-phospho-L-serine; protein formulation; excipient; physical stability; immunogenicity; inhibitor development
2.  O-phospho-L-serine, multi-functional excipient for B domain deleted recombinant factor VIII 
The AAPS Journal  2007;9(2):E251-E259.
Factor VIII (FVIII) is an important cofactor in the blood coagulation cascade. A deficiency or dysfunction of FVIII causes hemophilia A, a life-threatening bleeding disorder. FVIII circulates in plasma as a heterodimer comprising 6 domains (heavy chain, A1-A2-B and light chain A3-C1-C2). Replacement therapy using FVIII is the leading therapy in the management of hemophilia A. However, ∼15% to 30% of patients develop inhibitory antibodies that neutralize the activity of the protein. Neutralizing antibodies to epitopes in the lipid binding region of FVIII are commonly identified in patients' plasma. In this report, we investigated the effect of O-phospho-L-serine (OPLS), which binds to the lipid bindinding region, on the immunogenicity of B domain deleted recombinant factor VIII (BDDrFVIII). Sandwich enzyme-linked immunosorbent assay (ELISA) studies showed that OPLS specifically bind to the lipid binding region, localized in the C2 domain of the coagulation factor. Size exclusion chromatography and fluorescence anisotropy studies showed that OPLS interfered with the aggregation of BDDrFVIII. Immunogenicity of free-vs BDDrFVIII-OPLS complex was evaluated in a murine model of hemophilia A. Animals administered subcutaneous (sc) injections of BDDrFVIII-OPLS had lower neutralizing titers compared with animals treated with BDDRFVIII alone. Based on these studies, we hypothesize that specific molecular interactions between OPLS and BDDrFVIII may improve the stability and reduce the immunogenicity of BDDrFVIII formulations.
doi:10.1208/aapsj0902028
PMCID: PMC2573386  PMID: 17907766
B domain deleted recombinant factor VIII; O-phospho-L-serine; protein formulation; excipient; physical stability; immunogenicity; inhibitor development
3.  Biopharmaceutic Planning in Pediatric Drug Development 
The AAPS Journal  2012;14(3):519-522.
Pediatric drug development is a required consideration for all drug development programs. Age-appropriate formulations such as suspensions, chewable tablets, oral disintegrating tablets, etc., are typically developed and used in the pediatric clinical studies. However, it is not uncommon to use enabling formulations in the pivotal pediatric clinical study followed by bridging bioavailability and/or bioequivalence studies. Development of age-appropriate formulations is an essential part of pediatric drug development and adds additional biopharmaceutical considerations to an already complex problem. Careful planning of biopharmaceutic data collection during the adult and pediatric development program can contribute significantly to the biopharmaceutic risk assessment and planning of appropriate clinical studies leading to successful development of pediatric formulations.
doi:10.1208/s12248-012-9364-3
PMCID: PMC3385835  PMID: 22562590
bioavailability; bioequivalence; biopharmaceutics; formulations; pediatric
4.  Interaction of Dicaproyl Phosphatidylserine With Recombinant Factor VIII and Its Impact on Immunogenicity 
The AAPS journal  2006;8(2):E362-E370.
Replacement therapy with exogenous recombinant factor VIII (rFVIII) to control bleeding episodes results in the development of inhibitory antibodies in 15% to 30% of hemophilia A patients. The inhibitory antibodies are mainly directed against specific and universal immunodominant epitopes located in the C2 domain. Previously we have shown that complexation of O-phospho-L-serine (phosphatidylserine head group) with the phospholipid binding region of the C2 domain can lead to an overall reduction in the immunogenicity of rFVIII. Here, we have investigated the hypothesis that dicaproyl phosphatidylserine, a short-chain water-soluble phospholipid, can reduce the immunogenicity of rFVIII. Circular dichroism and fluorescence spectroscopy studies suggest that dicaproyl phosphatidyl-serine interacts with rFVIII, causing subtle changes in the tertiary and secondary structure of the protein. Sandwich enzyme-linked immunosorbent assay studies indicate that dicaproyl phosphatidylserine probably interacts with the phospholipid binding region of the C2 domain. The immunogenicity of FVIII-dicaproyl phosphatidylserine complexes prepared at concentrations above and below the critical micellar concentrations of the lipid were evaluated in hemophilia A mice. Our results suggest that micellar dicaproyl phosphatidylserine may be useful to reduce the immunogenicity of rFVIII preparations.
doi:10.1208/aapsj080241
PMCID: PMC2574005  PMID: 16796387
Hemophilia A; inhibitor development; aggregation; recombinant human factor VIII; protein folding; factor VIII-DCPS complex
5.  Interaction of dicaproyl phosphatidylserine with recombinant factor VIII and its impact on immunogenicity 
The AAPS Journal  2006;8(2):E362-E370.
Replacement therapy with exogenous recombinant factor VIII (rFVIII) to control bleeding episodes results in the development of inhibitory antibodies in 15% to 30% of hemophilia A patients. The inhibitory antibodies are mainly directed against specific and universal immunodominant epitopes located in the C2 domain. Previously we have shown that complexation of O-phospho-L-serine (phosphatidylserine head group) with the phospholipid binding region of the C2 domain can lead to an overall reduction in the immunogenicity of rFVIII. Here, we have investigated the hypothesis that dicaproyl phosphatidylserine, a short-chain water-soluble phospholipid, can reduce the immunogenicity of rFVIII. Circular dichroism and fluorescence spectroscopy studies suggest that dicaproyl phosphatidyl-serine interacts with rFVIII, causing subtle changes in the tertiary and secondary structure of the protein. Sandwich enzyme-linked immunosorbent assay studies indicate that dicaproyl phosphatidylserine probably interacts with the phospholipid binding region of the C2 domain. The immunogenicity of FVIII-dicaproyl phosphatidylserine complexes prepared at concentrations above and below the critical micellar concentrations of the lipid were evaluated in hemophilia A mice. Our results suggest that micellar dicaproyl phosphatidylserine may be useful to reduce the immunogenicity of rFVIII preparations.
doi:10.1007/BF02854907
PMCID: PMC2574005  PMID: 16796387
Hemophilia A; inhibitor development; aggregation; recombinant human factor VIII; protein folding; factor VIII-DCPS complex

Results 1-5 (5)