John Schaeck scite author profile

BACKGROUND:The transfer of pathogenic immunoglobulin G antibodies from mother to fetus is a critical step in the pathophysiology of alloimmune and autoimmune diseases of the fetus and neonate. Immunoglobulin G transfer across the human placenta to the fetus is mediated by the neonatal Fc receptor, and blockade of the neonatal Fc receptor may provide a therapeutic strategy to prevent or minimize pathological events associated with immune-mediated diseases of pregnancy. M281 is a fully human, aglycosylated monoclonal immunoglobulin G1 antineonatal Fc receptor antibody that has been shown to block the neonatal Fc receptor with high affinity in nonclinical studies and in a phase 1 study in healthy volunteers. OBJECTIVE: The objective of the study was to determine the transplacental transfer of M281 and its potential to inhibit transfer of immunoglobulin G from maternal to fetal circulation. STUDY DESIGN: To determine the concentration of M281 required for rapid cellular uptake and complete saturation of the neonatal Fc receptor in placental trophoblasts, primary human villous trophoblasts were incubated with various concentrations of M281 in a receptor occupancy assay. The placental transfer of M281, immunoglobulin G, and immunoglobulin G in the presence of M281 was studied using the dually perfused human placental lobule model. Immunoglobulin G transfer was established using a representative immunoglobulin G molecule, adalimumab, a human immunoglobulin G1 monoclonal antibody, at a concentration of 270 mg/ mL. Inhibition of immunoglobulin G transfer by M281 was determined by cotransfusing 270 mg/mL of adalimumab with 10 mg/mL or 300 mg/mL of M281. Concentrations of adalimumab and M281 in sample aliquots from maternal and fetal circuits were analyzed using a sandwich enzyme-linked immunosorbent assay and Meso Scale Discovery assay, respectively. RESULTS: In primary human villous trophoblasts, the saturation of the neonatal Fc receptor by M281 was observed within 30e60 minutes at 0.15e5.0 mg/mL, suggesting rapid blockade of neonatal Fc receptor in placental cells. The transfer rate of adalimumab (0.23% AE 0.21%) across dually perfused human placental lobule was significantly decreased by 10 mg/mL and 300 mg/mL of M281 to 0.07 AE 0.01% and 0.06 AE 0.01%, respectively. Furthermore, the transfer rate of M281 was 0.002% AE 0.02%, approximately 100-fold lower than that of adalimumab. CONCLUSION: The significant inhibition of immunoglobulin G transfer across the human placental lobule by M281 and the minimal transfer of M281 supports the development of M281 as a novel agent for the treatment of fetal and neonatal diseases caused by transplacental transfer of alloimmune and autoimmune pathogenic immunoglobulin G antibodies.

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Rapid Cage Degradation of 1-Formyl- and 1-Alkyloxycarbonyl-Substituted 1,2-Dicarba-closo-dodecaboranes by Water or Methanol in Polar Organic Solvents

Schaeck

Kahl

1998

Inorg. Chem.

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Characterization of heparin–protein interaction by saturation transfer difference (STD) NMR

Roy

Arevalo

et al. 2014

Anal Bioanal Chem

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The binding affinity and specificity of heparin to proteins is widely recognized to be sulfation-pattern dependent. However, for the majority of heparin-binding proteins (HBPs), it still remains unclear what moieties are involved in the specific binding interaction. Here, we report our study using saturation transfer difference (STD) nuclear magnetic resonance (NMR) to map out the interactions of synthetic heparin oligosaccharides with HBPs, such as basic fibroblast growth factor (FGF2) and fibroblast growth factor 10 (FGF10), to provide insight into the critical epitopes of heparin ligands involved. The irradiation frequency of STD NMR was carefully chosen to excite the methylene protons so that enhanced sensitivity was obtained for the heparin-protein complex. We believe this approach opens up additional application avenues to further investigate heparin-protein interactions.

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Improved Methods for the Synthesis of Porphyrin Alcohols and Aldehydes from Protoporphyrin IX Dimethyl Ester and Their Further Modification

1997

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Identification of a Novel Structure in Heparin Generated by Sequential Oxidative–Reductive Treatment

Beccati¹,

Roy²,

Lech³

et al. 2012

Anal. Chem.

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Unfractionated heparin is isolated from animal organs, predominantly porcine intestinal mucosa, and goes through an extensive process of purification before it can be used for pharmaceutical purposes. While the structural microheterogeneity of heparin is predominantly biosynthetically imprinted in the Golgi, subsequent steps involved in the purification and manufacture of commercial heparin can lead to the introduction of additional modifications. Postheparin crisis of 2008, it has become increasingly important to identify what additional structural diversity is introduced as a function of the purification process and thus can be determined as being heparin-related, as opposed to being an adulterant or contaminant, e.g., oversulfated chondroitin sulfate. Our study focuses on the identification of a previously unreported structure in heparin that arises due to specific steps used in the manufacturing process. This structure was initially observed as a disaccharide peak in a complete enzymatic digest of heparin, but its presence was later identified in the NMR spectra of intact heparin as well. Structural elucidation experiments involved isolation of this structure and analysis based on multidimensional NMR and liquid chromatography coupled with mass spectrometry (LC-MS). Heparin was also subjected to specific chemical reactions to determine which steps in the manufacturing process are responsible for this novel structure. Our results allowed for the definitive assignment of the structure of this novel process-related modification and enabled an identification of the putative steps in the process that give rise to the structure.

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John Schaeck

M281, an anti-FcRn antibody, inhibits IgG transfer in a human ex vivo placental perfusion model

Rapid Cage Degradation of 1-Formyl- and 1-Alkyloxycarbonyl-Substituted 1,2-Dicarba-closo-dodecaboranes by Water or Methanol in Polar Organic Solvents

Characterization of heparin–protein interaction by saturation transfer difference (STD) NMR

Improved Methods for the Synthesis of Porphyrin Alcohols and Aldehydes from Protoporphyrin IX Dimethyl Ester and Their Further Modification

Identification of a Novel Structure in Heparin Generated by Sequential Oxidative–Reductive Treatment

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