Your search keyword '"Fc fusion"' showing total 103 results

1. Optimized Production of Fc Fusion Proteins by Sortase Enzymatic Ligation

Author

Kyle D. Apley, Stephanie N. Johnson, Brandon J. DeKosky, Cory Berkland, Noora Batrash, Amy D. Laflin, and J. Daniel Griffin

Subjects

chemistry.chemical_classification, biology, General Chemical Engineering, food and beverages, A protein, Peptide, General Chemistry, Industrial and Manufacturing Engineering, Fc domain, Fc fusion, Enzyme, chemistry, Biochemistry, Sortase, biology.protein, Antibody, Ligation

Abstract

Fc fusions are a growing class of drugs comprising an antibody Fc domain covalently linked to a protein or peptide and can pose manufacturing challenges. In this study we evaluated three synthetic ...

Published

2021

2. Magnetic bead extraction with acid dissociation immunoassay for the determination of serum CD80-Fc fusion protein

Author

Mason Brown, Christopher Hunter, Ago B Ahene, and Rosanna Kwok

Subjects

Recombinant Fusion Proteins, Clinical Biochemistry, Enzyme-Linked Immunosorbent Assay, 030226 pharmacology & pharmacy, Acid dissociation constant, Analytical Chemistry, 03 medical and health sciences, 0302 clinical medicine, Phase (matter), medicine, Humans, General Pharmacology, Toxicology and Pharmaceutics, 030203 arthritis & rheumatology, Chromatography, medicine.diagnostic_test, Chemistry, Magnetic Phenomena, Extraction (chemistry), General Medicine, Hydrogen-Ion Concentration, Fusion protein, Immunoglobulin Fc Fragments, Medical Laboratory Technology, Fc fusion, Magnetic bead, Immunoassay, B7-1 Antigen, CD80

Abstract

Background: To detect concentrations of subtherapeutic doses of the CD80-Fc fusion protein FPT155 in serum in Phase I studies, a highly sensitive assay was developed. Materials & methods: FPT155 was purified from human serum using magnetic beads coupled to cytotoxic T-lymphocyte-associated antigen-4. After washing away the serum components, FTP155 was released by acid dissociation and neutralization. The eluted drug was quantified in an ELISA using cytotoxic T-lymphocyte-associated antigen-4 as a capture reagent and biotinylated anti-human Fc for detection. The assay was validated with a calibration range of 5–40 ng/ml and a dilutional integrity of up to 100,000 ng/ml. Conclusion: A highly sensitive assay to determine serum concentrations of FPT155 using readily available reagents was developed. The results were in conformity with theoretical calculations.

Published

2021

3. Development of a nano-luciferase based assay to measure the binding of SARS-CoV-2 spike receptor binding domain to ACE-2

Author

Mark A. Skidmore, Alan Richardson, Farhat L. Khanim, and Marcelo A. Lima

Subjects

0301 basic medicine, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Biophysics, ACE2, medicine.disease_cause, Antiviral Agents, Biochemistry, Article, 03 medical and health sciences, 0302 clinical medicine, Protein Domains, HiBIT tag, medicine, Humans, Nanotechnology, Luciferase, Secretion, Luciferases, Receptor, Molecular Biology, Binding assay, Mutation, Binding Sites, SARS-CoV-2, Chemistry, Ligand binding assay, COVID-19, Cell Biology, R1, Nano-luciferase, COVID-19 Drug Treatment, Cell biology, Fc fusion, 030104 developmental biology, 030220 oncology & carcinogenesis, Spike Glycoprotein, Coronavirus, Angiotensin-converting enzyme 2, Receptors, Virus, Angiotensin-Converting Enzyme 2, hormones, hormone substitutes, and hormone antagonists, QD415, Protein Binding

Abstract

To identify drugs that could potentially be used to treat infection with SARS-CoV-2, a high throughput 384-well assay was developed to measure the binding of the receptor binding domain (RBD) of the viral S1 protein to its main receptor, angiotensin converting enzyme 2 (ACE2). The RBD was fused to both a HiBIT tag and an IL6 secretion signal to enable facile collection from the cell culture media. The addition of culture media containing this protein, termed HiBIT-RBD, to cells expressing ACE2 led to binding that was specific to ACE2 and both time and concentration dependant, Binding could be inhibited by both RBD expressed in E. coli and by a full length S1 - Fc fusion protein (Fc-fused S1) expressed in eukaryotic cells. The mutation of residues that are known to play a role in the interaction of RBD with ACE2 also reduced binding. This assay may be used to identify drugs which inhibit the viral uptake into cells mediated by binding to ACE2., Graphical abstract Image 1, Highlights 1.A high-throughput, 384-well plate assay was developed to measure the binding S1 RBD to ACE2; 2.HiBIT-RBD binds to cells expressing ACE2 specifically and in a time dependant fashion; 3.The binding of HiBIT-RBD to ACE2 can be inhibited using recombinantly expressed SARS-CoV-2 RBD and full-length, Spike S1; 4.Site specific mutations within the RBD demonstrate the specificity of this assay.

Published

2021

4. Signal Peptide Optimization to Prevent N-terminal Truncation of Glucagon Like Peptide-1/IgG-Fc Fusion Protein

Author

Suqin Song, Suzhen Wei, Cao Chunlai, Yongjie Lai, Xukun Xu, and Jing Li

Subjects

Signal peptide, Agonist, endocrine system, 010405 organic chemistry, Chemistry, medicine.drug_class, Chinese hamster ovary cell, digestive, oral, and skin physiology, Bioengineering, 01 natural sciences, Biochemistry, Fusion protein, Glucagon-like peptide-1, Molecular biology, Glucagon, 0104 chemical sciences, Analytical Chemistry, Fc fusion, Drug Discovery, medicine, Molecular Medicine, Dulaglutide, hormones, hormone substitutes, and hormone antagonists, medicine.drug

Abstract

Dulaglutide (glucagon like peptide-1/IgG-Fc fusion protein, GLP-1-Fc) is a long lasting GLP-1 agonist, which consists of two arms of GLP-1 moieties fused to IgG Fc fragment. Dulaglutide is a safe and effective medication for type 2 diabetes. In an attempt to develop a biosimilar version of dulaglutide, we found that up to 75% of GLP-1-Fc displayed N-terminal truncations in one or both GLP-1 arms. We proposed that the N-terminal heterogeneity was caused by mis-cleavage of signal peptide and solved this problem through signal peptide optimization. Murine immunoglobulin kappa light chain signal peptide (KASP) significantly improves GLP-1-Fc N-terminal integrity and homogeneity. 92.8–95.7% of GLP-1-Fc molecules directed by KASP contain intact N-terminus. The productivity of GLP-1-Fc could reach 2.2 g/L in shaking flask fed batch culture. KASP is an optimal signal peptide for GLP-1-Fc expression in Chinese hamster ovary (CHO) cells.

Published

2020

5. Selective depletion of radiolabeled HER2-specific antibody for contrast improvement during PET

Author

Guiyang Hao, Wei Sun, Su-Tang Lo, Sreevidhya Ramakrishnan, Kien Nham, E. Sally Ward, Priyanka Khare, Raimund J. Ober, Rafal Swiercz, and Xiankai Sun

Subjects

Receptor, ErbB-2, Immunology, Engineered Fc fusions, Antibodies, Mice, In vivo, Cell Line, Tumor, Neoplasms, Report, HER2, medicine, Animals, Immunology and Allergy, medicine.diagnostic_test, biology, Chemistry, Fc fusion, Specific antibody, PET, Selective degradation, Positron emission tomography, Positron-Emission Tomography, Cancer research, biology.protein, Molecular imaging, Antibody

Abstract

The prolonged in vivo persistence of antibodies results in high background and poor contrast during their use as molecular imaging agents for positron emission tomography (PET). We have recently described a class of engineered Fc fusion proteins that selectively deplete antigen-specific antibodies without affecting the levels of antibodies of other specificities. Here, we demonstrate that these Fc fusions (called Seldegs, for selective degradation) can be used to clear circulating, radiolabeled HER2-specific antibody during diagnostic imaging of HER2-positive tumors in mice. The analyses show that Seldegs have considerable promise for the reduction of whole-body exposure to radiolabel and improvement of contrast during PET.

Published

2021

6. Preparation of monovalent follistatin-like 3-Fc-fusion protein and evaluation of its effects on muscle mass in mice

Author

Kohei Miyazono, Takayuki Ozawa, and Masato Morikawa

Subjects

Follistatin, Science (General), Follistatin-Related Proteins, Endogeny, Muscle mass, General Biochemistry, Genetics and Molecular Biology, Q1-390, Mice, Model Organisms, Affinity chromatography, Transforming Growth Factor beta, Developmental biology, Health Sciences, Protocol, Animals, Humans, Microscopy, General Immunology and Microbiology, biology, Chemistry, General Neuroscience, Muscles, HEK 293 cells, Antagonist, Fusion protein, Cell biology, Fc fusion, HEK293 Cells, biology.protein, Protein expression and purification

Abstract

Summary Follistatin-like 3 (FSTL3) is an endogenous antagonist against transforming growth factor-β family ligands. Monovalent FSTL3-Fc fusion protein (mono-FSTL3-Fc) generated with knobs-into-holes technology overcomes limitations of current anti-myostatin therapies. We have developed a facile protocol for affinity purification of the Fc-fused protein from the supernatant of HEK293T cells stably expressing the protein. This protocol is advantageous by only requiring readily accessible equipment. We further outline the steps for validation of mono-FSTL3-Fc increasing systemic muscle mass in mice after intraperitoneal administration. For complete details on the use and execution of this protocol, please refer to Ozawa et al. (2021)., Graphical abstract, Highlights • Monovalent FSTL3-Fc (mono-FSTL3-Fc) improves anti-myostatin therapy • A protocol for the simple preparation of mono-FSTL3-Fc protein is described • mono-FSTL3-Fc protein is affinity purified from the supernatant of HEK293T cells • Systemic effects of mono-FSTL3-Fc on muscle mass can be confirmed in mice, Follistatin-like 3 (FSTL3) is an endogenous antagonist against transforming growth factor-β family ligands. Monovalent FSTL3-Fc fusion protein (mono-FSTL3-Fc) generated with knobs-into-holes technology overcomes limitations of current anti-myostatin therapies. We have developed a facile protocol for affinity purification of the Fc-fused protein from the supernatant of HEK293T cells stably expressing the protein. This protocol is advantageous by only requiring readily accessible equipment. We further outline the steps for validation of mono-FSTL3-Fc increasing systemic muscle mass in mice after intraperitoneal administration.

Published

2021

7. Methods for Functional Characterization of FcRn Interactions with Therapeutic Antibodies and Fc-Fusion Proteins

Author

Shan Chung, Van Nguyen, Yuwen L. Lin, and Chang Liu

Subjects

Drug, biology, medicine.drug_class, Chemistry, media_common.quotation_subject, Cell, Monoclonal antibody, Cell biology, Fc fusion, medicine.anatomical_structure, Neonatal Fc receptor, In vivo, medicine, biology.protein, Antibody, Intracellular, media_common

Abstract

The neonatal Fc receptor (FcRn) plays a key role in determining the pharmacokinetic behavior of therapeutic monoclonal antibodies (mAbs). FcRn-mediated intracellular trafficking mechanisms extend the half-lives of mAbs by rescuing them from lysosomal degradation and contribute to their transportation from the vascular space to tissue compartments such as placenta and mucosal surfaces. It is important to characterize the FcRn interactions of therapeutic mAbs and Fc-fusion proteins due to its potential impact on their in vivo pharmacokinetic properties such as clearance and half-life. In this chapter, we describe protocols for two cell-based assays that measure the total function of FcRn which involves pH-dependent association and dissociation with IgG-Fc, as well as FcRn-mediated intracellular trafficking parameters. These assays are suitable for characterization of FcRn interactions with therapeutic mAbs and Fc-fusion proteins for the purpose of assessing lot-to-lot consistency and the structural and functional integrity of the Fc domain. In addition, they may serve as cost-effective screening tools for the evaluation of mAb-based drug candidates during lead selection and optimization for desired pharmacokinetic properties.

Published

2021

8. A novel long-acting, follicle stimulating hormone-Fc fusion protein displays Gonal-f-like function in vitro and in vivo

Author

Yang Cuima, Wan Deyou, Gao Xin, Fang Chen, Yang Yi, Li Hongjie, Guili Xu, Lihou Dong, and Liu Yunhui

Subjects

Fc fusion, Follicle-stimulating hormone, Long acting, In vivo, Chemistry, Function (biology), In vitro, Cell biology

Abstract

Purpose To explore whether X002 can enhance bioactivity and has a long half-time in vitro and in vivo. Methods For the in vitro study, GVBD rate and COC expansion were applied. In the GVBD test, 21–24-day-old female KM mice were stimulated with PMSG for 46 h, and the naked oocytes of ovaries were then collected. Four hours after X002 treatment at 37℃, the GVBD rates of naked oocytes were counted. In COC expansion, COCs were collected from mice stimulated with PMSG. After coculture of COCs and X002 for 14 h, COC diameter was measured, and the expression of genes involved in COC expansion was also determined by RT-qPCR. For the in vivo study, 6–8-week-old female SD rats were administered a subcutaneous injection of X002 for pharmacokinetics. Serum was assayed by ELISA at different time points. For pharmacodynamics, 26-day-old female SD rats were used in ovarian weight and superovulation assay. To assay ovarian weight, rats were stimulated with hCG 84 h after X002 treatment. At 12 h after hCG injection, ovaries were weighted and E2 or P4 in serum was quantified. To assay superovulation, rats were treated with the above methods. At 108 h after X002 treatment, oocytes were counted from fallopian tubes. Results X002 promoted GVBD and COC expansion in vitro and effectively promoted significant ovarian weight gain and superovulation, similar to Gonal-f; Meanwhile, it had a longer T1/2. Conclusions X002 is a long-acting FSH-liked agent which has good bioactivity, similar to Gonal-f.

Published

2021

9. Molecular Design of Peptide-Fc Fusion Drugs

Author

Peng Zhou, Lin Ning, Jian Huang, Bifang He, and Ratmir Derda

Subjects

Pharmacology, chemistry.chemical_classification, 0303 health sciences, Computer science, Recombinant Fusion Proteins, Clinical Biochemistry, Rational design, Peptide, Receptors, Fc, Computational biology, Biopanning, Fragment crystallizable region, 03 medical and health sciences, Fc fusion, 0302 clinical medicine, chemistry, Drug Design, 030220 oncology & carcinogenesis, Humans, Computational design, Peptides, 030304 developmental biology

Abstract

Background:Peptide-Fc fusion drugs, also known as peptibodies, are a category of biological therapeutics in which the Fc region of an antibody is genetically fused to a peptide of interest. However, to develop such kind of drugs is laborious and expensive. Rational design is urgently needed.Methods:We summarized the key steps in peptide-Fc fusion technology and stressed the main computational resources, tools, and methods that had been used in the rational design of peptide-Fc fusion drugs. We also raised open questions about the computer-aided molecular design of peptide-Fc.Results:The design of peptibody consists of four steps. First, identify peptide leads from native ligands, biopanning, and computational design or prediction. Second, select the proper Fc region from different classes or subclasses of immunoglobulin. Third, fuse the peptide leads and Fc together properly. At last, evaluate the immunogenicity of the constructs. At each step, there are quite a few useful resources and computational tools.Conclusion:Reviewing the molecular design of peptibody will certainly help make the transition from peptide leads to drugs on the market quicker and cheaper.

Published

2019

10. Purification of Modified Therapeutic Proteins Available on the Market: An Analysis of Chromatography-Based Strategies

Author

Miguel Flores-Gatica, Daniela Enriquez-Ochoa, Marco Rito-Palomares, Calef Sánchez-Trasviña, and Karla Mayolo-Deloisa

Subjects

Fc-fusion, Histology, Chromatography, Downstream processing, purification, Chemistry, Biomedical Engineering, PEGylation, High resolution, Bioengineering and Biotechnology, Bioengineering, Proteolytic degradation, Lipid-anchored protein, Review, biopharmaceuticals, protein modification, Fc fusion, Posttranslational modification, chromatography, Purification methods, lipidation, TP248.13-248.65, Biotechnology

Abstract

Proteins, which have inherent biorecognition properties, have long been used as therapeutic agents for the treatment of a wide variety of clinical indications. Protein modification through covalent attachment to different moieties improves the therapeutic’s pharmacokinetic properties, affinity, stability, confers protection against proteolytic degradation, and increases circulation half-life. Nowadays, several modified therapeutic proteins, including PEGylated, Fc-fused, lipidated, albumin-fused, and glycosylated proteins have obtained regulatory approval for commercialization. During its manufacturing, the purification steps of the therapeutic agent are decisive to ensure the quality, effectiveness, potency, and safety of the final product. Due to the robustness, selectivity, and high resolution of chromatographic methods, these are recognized as the gold standard in the downstream processing of therapeutic proteins. Moreover, depending on the modification strategy, the protein will suffer different physicochemical changes, which must be considered to define a purification approach. This review aims to deeply analyze the purification methods employed for modified therapeutic proteins that are currently available on the market, to understand why the selected strategies were successful. Emphasis is placed on chromatographic methods since they govern the purification processes within the pharmaceutical industry. Furthermore, to discuss how the modification type strongly influences the purification strategy, the purification processes of three different modified versions of coagulation factor IX are contrasted.

Published

2021

11. A VHH-Fc Fusion Targeted to the Chloroplast Thylakoid Lumen Assembles and Neutralizes Enterohemorrhagic E. coli O157:H7

Author

Rima Menassa and Adam Chin-Fatt

Subjects

chemistry.chemical_classification, single domain antibody, biology, Fc fusion, Chemistry, Oxidative folding, thylakoid, Plant culture, Nicotiana benthamiana, VHH, Fc engineering, Context (language use), Plant Science, biology.organism_classification, enterohemorrhagic E. coli-EHEC, Fusion protein, SB1-1110, Cell biology, Single-domain antibody, chloroplast, Thylakoid, Glycoprotein, IgA, Chloroplast thylakoid lumen, Original Research

Abstract

Chimeric fusion proteins comprising a single domain antibody (VHH) fused to a crystallizable fragment (Fc) of an immunoglobulin are modular glycoproteins that are becoming increasingly in demand because of their value as diagnostics, research reagents and passive immunization therapeutics. Because ER-associated degradation and misfolding may potentially be limiting factors in the oxidative folding of VHH-Fc fusion proteins in the ER, we sought to explore oxidative folding in an alternative sub-compartment, the chloroplast thylakoid lumen, and determine its viability in a molecular farming context. We developed a set of in-house expression vectors for transient transformation of Nicotiana benthamiana leaves that target a VHH-Fc to the thylakoid lumen via either secretory (Sec) or twin-arginine translocation (Tat) import pathways. Compared to stromal [6.63 ± 3.41 mg/kg fresh weight (FW)], cytoplasmic (undetectable) and Tat-import pathways (5.43 ± 2.41 mg/kg FW), the Sec-targeted VHH-Fc showed superior accumulation (30.56 ± 5.19 mg/kg FW), but was less than that of the ER (51.16 ± 9.11 mg/kg FW). Additionally, the introduction of a rationally designed de novo disulfide bond enhances in planta accumulation when introduced into the Sec-targeted Fc fusion protein from 50.24 ± 4.08 mg/kg FW to 110.90 ± 6.46 mg/kg FW. In vitro immunofluorescent labeling assays on VHH-Fc purified from Sec, Tat, and stromal pathways demonstrate that the antibody still retains VHH functionality in binding Escherichia coli O157:H7 and neutralizing its intimate adherence to human epithelial type 2 cells. These results overall provide a proof of concept that the oxidative folding environment of the thylakoid lumen may be a viable compartment for stably folding disulfide-containing recombinant VHH-Fc proteins.

Published

2021

12. A Rationally Designed Bovine IgA Fc Scaffold Enhances in planta Accumulation of a VHH-Fc Fusion Without Compromising Binding to Enterohemorrhagic E. coli

Author

Adam Chin-Fatt, Reza Saberianfar, and Rima Menassa

Subjects

0106 biological sciences, 0301 basic medicine, Fc fusion, Secretory component, rational design antibody engineering, Mutant, single domain antibody (sdAb), Nicotiana benthamiana, Plant Science, lcsh:Plant culture, medicine.disease_cause, enterohemorrhagic E. coli-EHEC, 01 natural sciences, transient expression, 03 medical and health sciences, Chimera (genetics), medicine, lcsh:SB1-1110, Escherichia coli, Original Research, biology, Chemistry, biology.organism_classification, Molecular biology, Transformation (genetics), 030104 developmental biology, Single-domain antibody, VHH antibody fragment, Plantibody, plant-made antibodies, IgA, 010606 plant biology & botany

Abstract

We previously isolated a single domain antibody (VHH) that binds Enterohemorrhagic Escherichia coli (EHEC) with the end-goal being the enteromucosal passive immunization of cattle herds. To improve the yield of a chimeric fusion of the VHH with an IgA Fc, we employed two rational design strategies, supercharging and introducing de novo disulfide bonds, on the bovine IgA Fc component of the chimera. After mutagenizing the Fc, we screened for accumulation levels after transient transformation in Nicotiana benthamiana leaves. We identified and characterized five supercharging and one disulfide mutant, termed ‘(5 + 1)Fc’, that improve accumulation in comparison to the native Fc. Combining all these mutations is associated with a 32-fold increase of accumulation for the Fc alone, from 23.9 mg/kg fresh weight (FW) to 599.5 mg/kg FW, as well as a twenty-fold increase when fused to a VHH that binds EHEC, from 12.5 mg/kg FW tissue to 236.2 mg/kg FW. Co-expression of native or mutated VHH-Fc with bovine joining chain (JC) and bovine secretory component (SC) followed by co-immunoprecipitation suggests that the stabilizing mutations do not interfere with the capacity of VHH-Fc to assemble with JC and FC into a secretory IgA. Both the native and the mutated VHH-Fc similarly neutralized the ability of four of the seven most prevalent EHEC strains (O157:H7, O26:H11, O111:Hnm, O145:Hnm, O45:H2, O121:H19 and O103:H2), to adhere to HEp-2 cells as visualized by immunofluorescence microscopy and quantified by fluorometry. These results collectively suggest that supercharging and disulfide bond tethering on a Fc chain can effectively improve accumulation of a VHH-Fc fusion without impacting VHH functionality.

Published

2021

13. 380 GS-3583, a novel FLT3 agonist Fc fusion protein, expands conventional dendritic cells in healthy volunteers

Author

Nishanthan Rajakumaraswamy, Ahmed E. Othman, Angela Worth, Michelle R. Kuhne, Anshu Vashishtha, Torsten Trowe, Winnie Weng, Emon Elboudjwarej, Christian Schwabe, Kai-Wen Lin, Brian I. Carr, and Anees M. Dauki

Subjects

Pharmacology, Agonist, Cancer Research, Fc fusion, Oncology, medicine.drug_class, Chemistry, Immunology, Healthy volunteers, medicine, Molecular Medicine, Immunology and Allergy

Abstract

BackgroundConventional dendritic cells subtype 1 (cDC1) play a vital role in the priming and expansion of tumor specific CD8+ T cells and their recruitment to tumor microenvironment (TME). However, cDC1s are often underrepresented in the TME. Systemic administration of Fms-like tyrosine kinase 3 ligand (FLT3L), a hematopoietic growth factor that binds to FLT3 on myeloid and lymphoid progenitor cells, leads to expansion of cDC1s in the periphery which can then be recruited into the TME. FLT3 pathway stimulation using GS-3583, a novel FLT3 agonistic Fc fusion protein, has the potential to promote T cell mediated anti-tumor activity. We sought to evaluate the pharmacodynamic (PD) effect of a single dose of GS-3583 in healthy volunteers alongside its safety. Herein, we present the updated results of the study.MethodsThis was a first-in-human, placebo-controlled study of GS-3583 in healthy volunteers to evaluate the safety, pharmacokinetics (PK), and PD of escalating single doses (ranging from 75 micrograms to 2000 micrograms) of GS-3583. The study was blinded to the subjects and the investigator. Each dose cohort enrolled 8–12 healthy subjects who received GS-3583 or placebo as single IV infusion at 3:1 ratio. Subjects were observed in the phase 1 unit for 15 days and then for 12 weeks as outpatients. As part of the PD evaluation, we investigated the changes in the number of cDC1 and cDC2 cells.ResultsAs of 2nd July 2021, selected safety, PK and PD data from all 4 cohorts were available. GS-3583 was well tolerated and all subjects had been discharged. To date, there have been no serious or grade 3 or higher adverse events. Preliminary PK analysis suggested dose-dependent increase in GS-3583 exposure (AUC and Cmax). Preliminary PD analysis shows that administration of GS-3583 resulted in temporary, dose-dependent increases in cDC1/cDC2 cells that peaked between days 5–11 (higher doses resulted in later peaks) and returned to baseline within 3 weeks of drug administration (table 1, figure 1).Abstract 380 Table 1Selected subject characteristics and pharmacodynamic resultsAbstract 380 Figure 1A) Comparison of cDC1 cell quantitative changes in cohorts 1–4; B) Comparison of cDC2 cell quantitative changes in cohorts 1–4ConclusionsGS-3583 infusion was well tolerated and induced dose dependent expansion of dendritic cells in the periphery in healthy volunteers. In patients with cancer, this increase in dendritic cells can be utilized to enhance anti-tumor therapeutic effects of immuno-oncology therapies.AcknowledgementsFunding provided by Gilead Sciences, Inc.Ethics ApprovalThe study received study site IRB/Ethics Committee approval prior to enrollment of subjects.

Published

2021

14. The influence of antibody engineering on Fc conformation and Fc receptor binding properties: Analysis of FcRn-binding engineered antibodies and an Fc fusion protein

Author

Noritaka Hashii, Minoru Tada, Akiko Ishii-Watabe, and Takuo Suzuki

Subjects

engineered antibody, Endosome, Immunology, Antibody Affinity, Molecular Conformation, Receptors, Fc, Protein Engineering, Etanercept, 03 medical and health sciences, 0302 clinical medicine, Neonatal Fc receptor, Report, FcγR, medicine, Humans, Immunology and Allergy, HDX-MS, skin and connective tissue diseases, conformation of Fc, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, biology, Histocompatibility Antigens Class I, Antibodies, Monoclonal, Fc fusion protein, Amino acid, FcRn, Fc fusion, chemistry, Biochemistry, Drug Design, 030220 oncology & carcinogenesis, biology.protein, affinity, Fc receptor binding, Antibody, Function (biology), medicine.drug

Abstract

Therapeutic immunoglobulin G (IgG) antibodies have comparatively long half-lives because the neonatal Fc receptor (FcRn) binds to the IgG Fc at acidic pH in the endosome and protects IgG from degradation. To further prolong the half-lives, amino acid-substituted antibodies having high affinity to FcRn are being developed, and one such therapeutic antibody (ravulizumab) has been approved. In this study, we investigated the binding property to FcγR and the conformation of seven FcRn affinity-modulated adalimumab variants to clarify the impact of the amino acid substitutions on the function and conformation of IgG Fc. The amino acid substitutions in T254-P261 caused a change in deuterium uptake into some regions of Fc in HDX-MS analysis, but those at T311, M432 and N438 did not cause such a change. The conformations around F245-L255 (FLFPPKPKDTL) were particularly influenced by the amino acid substitution in M256-P261, and the conformational changes of this region were correlated with the decrease of the affinity to FcγRIIIa. Additionally, we investigated the conformational difference of Fc between a Fc fusion protein (etanercept) and a native IgG (adalimumab). Although the Fc fusion proteins were expected to have similar FcRn affinity to IgGs, the affinity of etanercept to FcRn was lower than that of adalimumab, and its half-life was shorter than those of the IgG antibodies. Differences in deuterium uptakes were observed in the two regions where they were also detected in the adalimumab variants, and the conformational differences appeared to be an important factor for the low FcRn affinity of etanercept.

Published

2021

15. Protein Engineering Strategies for Improved Pharmacokinetics

Author

Mireille Dumoulin, Aurélie Rondon, Sohaib Mahri, Rita Vanbever, Francisco Morales-Yanez, and UCL - SSS/LDRI - Louvain Drug Research Institute

Subjects

Materials science, General Chemical Engineering, Chemical conjugation, Polyethylene glycol, Protein engineering, Human serum albumin, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Biomaterials, chemistry.chemical_compound, Fc fusion, chemistry, Biochemistry, Pharmacokinetics, medicine, Electrochemistry, Electronic, Optical and Magnetic Materials, medicine.drug

Published

2021

16. A soluble ACE2 microbody protein fused to a single immunoglobulin Fc domain is a potent inhibitor of SARS-CoV-2

Author

Kenneth A. Stapleford, Jennifer S. Chen, Takuya Tada, Harry B. Gristick, Chen Fan, Crina M. Nimigean, Craig B. Wilen, Nathaniel R. Landau, Belinda M Dcosta, and Ramanjit Kaur

Subjects

0301 basic medicine, Male, Fc fusion, Immunoglobulin Fc, viruses, Protein domain, Mice, Transgenic, medicine.disease_cause, spike protein, Antiviral Agents, Microbodies, Virus, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, 0302 clinical medicine, Protein Domains, medicine, Microbody, Animals, Humans, soluble ACE2, Amino Acid Sequence, Disulfides, Coronavirus, Chemistry, SARS-CoV-2, Immunoglobulin Fc Fragments, Virion, COVID-19, virus diseases, Virus Internalization, D614G, Virology, Entry inhibitor, microbody, Disease Models, Animal, 030104 developmental biology, HEK293 Cells, Ectodomain, Spike Glycoprotein, Coronavirus, Female, lentiviral pseudotype, Angiotensin-Converting Enzyme 2, Protein Multimerization, 030217 neurology & neurosurgery, hormones, hormone substitutes, and hormone antagonists, medicine.drug

Abstract

Soluble forms of ACE2 have recently been shown to inhibit SARS-CoV-2 infection. We report on an improved soluble ACE2, termed a “microbody” in which the ACE2 ectodomain is fused to Fc domain 3 of the immunoglobulin heavy chain. The protein is smaller than previously described ACE2-Ig Fc fusion proteins and contains an H345A mutation in the ACE2 catalytic active site that inactivates the enzyme without reducing its affinity for the SARS-CoV-2 spike. The disulfide-bonded ACE2 microbody protein inhibits entry of SARS-CoV-2 spike protein pseudotyped virus and replication of live SARS-CoV-2 in vitro and in a mouse model. Its potency is 10-fold higher than soluble ACE2 and it can act after virus bound to the cell. The microbody inhibits the entry of β coronaviruses and virus with the variant D614G spike. The ACE2 microbody may be a valuable therapeutic for COVID-19 that is active against viral variants and future coronaviruses., Graphical Abstract

Published

2020

17. Therapeutic Fc-fusion proteins: Current analytical strategies

Author

Julien Camperi, Szabolcs Fekete, Davy Guillarme, Alain Beck, Bastiaan L. Duivelshof, Valentina D'Atri, and Amarande Murisier

Subjects

Glycosylation, medicine.drug_class, Recombinant Fusion Proteins, Filtration and Separation, Computational biology, Monoclonal antibody, 01 natural sciences, Analytical Chemistry, law.invention, 03 medical and health sciences, chemistry.chemical_compound, law, medicine, media_common.cataloged_instance, Animals, Humans, European union, 030304 developmental biology, media_common, 0303 health sciences, 010401 analytical chemistry, Biosimilar, 0104 chemical sciences, Immunoglobulin Fc Fragments, Fc fusion, Biopharmaceutical, chemistry, Recombinant DNA, Critical quality attributes

Abstract

Fc-Fusion proteins represent a successful class of biopharmaceutical products, with already 13 drugs approved in the European Union and United States as well as three biosimilar versions of etanercept. Fc-Fusion products combine tailored pharmacological properties of biological ligands, together with multiple functions of the fragment crystallizable domain of immunoglobulins. There is a great diversity in terms of possible biological ligands, including the extracellular domains of natural receptors, functionally active peptides, recombinant enzymes, and genetically engineered binding constructs acting as cytokine traps. Due to their highly diverse structures, the analytical characterization of Fc-Fusion proteins is far more complex than that of monoclonal antibodies and requires the use and development of additional product-specific methods over conventional generic/platform methods. This can be explained, for example, by the presence of numerous sialic acids, leading to high diversity in terms of isoelectric points and complex glycosylation profiles including multiple N- and O-linked glycosylation sites. In this review, we highlight the wide range of analytical strategies used to fully characterize Fc-fusion proteins. We also present case studies on the structural assessment of all commercially available Fc-fusion proteins, based on the features and critical quality attributes of their ligand-binding domains.

Published

2020

18. In vivo pharmacokinetic enhancement of monomeric Fc and monovalent bispecific designs through structural guidance

Author

Herren Wu, Kimberly M Cook, Sonia Dragulin-Otto, Nydia Van Dyk, Melissa Damschroder, Vaheh Oganesyan, Lu Shan, Martin J Borrok, Nantaporn Haskins, Ronit Mazor, Yu Jiang, Kim Rosenthal, and William F Dall'Acqua

Subjects

QH301-705.5, Medicine (miscellaneous), Mice, Transgenic, Receptors, Fc, Protein Engineering, General Biochemistry, Genetics and Molecular Biology, Article, chemistry.chemical_compound, Mice, In vivo, Animals, Humans, Biology (General), Receptor, X-ray crystallography, Protein therapeutics, biology, Molecular medicine, Chemistry, Histocompatibility Antigens Class I, Fusion protein, Immunoglobulin Fc Fragments, Fc fusion, Monomer, biology.protein, Biophysics, Antibody, General Agricultural and Biological Sciences, Fc fragment, Half-Life

Abstract

In a biologic therapeutic landscape that requires versatility in targeting specificity, valency and half-life modulation, the monomeric Fc fusion platform holds exciting potential for the creation of a class of monovalent protein therapeutics that includes fusion proteins and bispecific targeting molecules. Here we report a structure-guided approach to engineer monomeric Fc molecules to adapt multiple versions of half-life extension modifications. Co-crystal structures of these monomeric Fc variants with Fc neonatal receptor (FcRn) shed light into the binding interactions that could serve as a guide for engineering the half-life of antibody Fc fragments. These engineered monomeric Fc molecules also enabled the generation of a novel monovalent bispecific molecular design, which translated the FcRn binding enhancement to improvement of in vivo serum half-life., Lu Shan et al. present a structure-guided approach to engineer a monovalent form of the fragment crystallizable (Fc) region of an IgG4 antibody to adapt multiple versions of half-life extension modifications and bispecific targeting. Additionally, they report co-crystal structures of the variants bound to the Fc neonatal receptor that allow insights into the binding interactions.

Published

2020

19. Review: QTY code-designed water-soluble Fc-fusion cytokine receptors bind to their respective ligands — R0/PR1

Author

Mikael Akke

Subjects

Fc fusion, Code (set theory), Water soluble, Cytokine, Biochemistry, Chemistry, medicine.medical_treatment, medicine, Receptor

Published

2020

20. Review: QTY code-designed water-soluble Fc-fusion cytokine receptors bind to their respective ligands — R0/PR2

Author

Anders Liljas

Subjects

Fc fusion, Code (set theory), Cytokine, Water soluble, Biochemistry, Chemistry, medicine.medical_treatment, medicine, Receptor

Published

2020

21. Antigen improves binding of IgGs to FcγRs in SPR analysis

Author

Wei Wang and Qing Chen

Subjects

biology, Chemistry, Effector, Receptors, IgG, Biophysics, Cell Biology, Biochemistry, Cell biology, Fc fusion, Antigen, In vivo, biology.protein, Fc-Gamma Receptor, Antibody, Surface plasmon resonance, Molecular Biology, Function (biology)

Abstract

FcγR binding characterization is one of the critical attributes during the development of therapeutic antibodies. Here, we report a novel assay format to characterize IgG-FcγR interaction in the presence of antigen using Surface plasmon resonance (SPR). The new assay format was developed by creating stable antigen/antibody immunocomplexes on a sensor chip surface before injection of FcγRs. In this assay format, binding activity of both huIgG1 (including IgG1 Fc fusion Protein) and huIgG2 increased significantly to most activating human FcγRs, especially to FcγRI, FcγRIIa-131H and FcγRIIIa-158F. To our knowledge, this study provides the first set of evidence using a biophysical method to demonstrate antigen binding facilitating IgG-FcγR interaction, especially for huIgG2 where previous studies did not indicate its binding to human FcγRI or FcγRIIIa-158F. Although further studies are needed to investigate the correlation of the binding data with effector function data in vivo, our results suggest that it may be useful to evaluate the IgG-FcγR interaction in the presence of antigen to help design safer and more effective biotherapeutics.

Published

2022

22. Solution pH jump during antibody and Fc-fusion protein thaw leads to increased aggregation

Author

Chad E. Schroeder, Chandana Sharma, and Kevin P. Kent

Subjects

0301 basic medicine, medicine.drug_class, Kinetics, Pharmaceutical Science, Pharmacy, Protein aggregation, Monoclonal antibody, PH increase, Analytical Chemistry, 03 medical and health sciences, Protein stability, Drug Discovery, Electrochemistry, medicine, In patient, Spectroscopy, biology, Chemistry, lcsh:RM1-950, Freeze–thaw, Fc fusion, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, Percent aggregation, Biochemistry, biology.protein, Original Article, Monoclonal antibodies, Antibody

Abstract

Freeze-thaw cycles impact the amount of aggregation observed in antibodies and Fc-fusion proteins. Various formulation strategies are used to mitigate the amount of aggregation that occurs upon putting a protein solution through a freeze-thaw cycle. Additionally, low pH solutions cause native antibodies to unfold, which are prone to aggregate upon pH neutralization. There is great interest in the mechanism that causes therapeutic proteins to aggregate since aggregate species can cause unwanted immunogenicity in patients. Herein, an increase in aggregation is reported when the pH is adjusted from pH 3 up to a pH ranging from pH 4 to pH 7 during the thaw process of a frozen antibody solution. Raising the pH during the thaw process caused a significant increase in the percent aggregation observed. Two antibodies and one Fc-fusion protein were evaluated during the pH jump thaw process and similar effects were observed. The results provide a new tool to study the kinetics of therapeutic protein aggregation upon pH increase. Keywords: Monoclonal antibodies, Freeze–thaw, Protein aggregation, Protein stability

Published

2018

23. Gene Expression after Hemarthrosis Differs between FVIII-Deficient Mice Treated with Recombinant FVIII or FVIII-Fc Fusion Protein

Author

Samantha Ruiz, Esther J Cooke, Annette von Drygalski, Jenny Y Zhou, Bilgimol Chumappumkal Joseph, and Sonha Nguyen

Subjects

Chemistry, Immunology, Cell Biology, Hematology, Hemarthrosis, medicine.disease, Biochemistry, Molecular biology, law.invention, Fc fusion, law, Gene expression, Deficient mouse, medicine, Recombinant DNA

Abstract

Introduction Local and systemic molecular responses to hemarthroses in hemophilia are not well understood. Emerging clinical evidence suggests that treatment with FVIII-Fc Fusion protein (FcFVIII), using the Fc-portion of immunoglobulin for half-life extension, may mitigate joint inflammation and modulate immune stimulation. We analyzed gene expression profiles in synovium and spleen (a major immune regulatory organ) in FVIII-deficient mice at baseline and after hemarthrosis treated with recombinant human FVIII (rhFVIII) or murine (m)FcFVIII to characterize the respective differences and molecular pathways for each FVIII preparation. Methods Hemarthrosis was induced by sub-patellar needle puncture in FVIII-deficient mice treated with saline (vehicle), 100 IU/kg mFcFVIII (Fc murine due to species specificity) or 120 IU/kg rhFVIII (to account for differences in t 1/2) administered intravenously 2 hours before and 6 hours after injury. Spleen and synovium were harvested on day 3 or day 14 post-injury (n=3-5 per group). Spleen and synovium from uninjured mice served as controls. RNA libraries were prepared using the NEBNext Ultra II Directional RNA Library Prep Kit and sequenced on an Illumina NextSeq500 platform (single-end; 75bp reads). The limma-voom method (R Bioconductor) was used for differential expression analyses. The criteria for differential expression were: i) a log fold-change (logFC) >1 or Results Knee injury in FVIII-deficient mice resulted in hemarthrosis and a drop in mean hematocrit from 44.7% to 27.5% (saline), which was prevented by rhFVIII and mFcFVIII prophylaxis (mean day 2 hematocrit ~45%). In the spleen, differential gene expression (DGE) in saline treated mice was pronounced but fleeting with 5295 and 9 differentially expressed genes (DEG) on day 3 and 14. DGE was abrogated by either rhFVIII or mFcFVIII, without significant expression differences between rhFVIII and mFcFVIII at the single gene level. However, differences were noted between rhFVIII and mFcFVIII during KEGG pathway analyses, where rhFVIII predominantly perturbed pathways related to inflammation, T-cell signaling and innate immune regulation, while mFcFVIII perturbed pathways related to B-cell signaling and cellular homeostasis. In the synovium, DGE in saline treated mice was also pronounced on day 3 (3388 DEG) but, in contrast to the spleen, continued on day 14 (1030 DEG). Unlike in the spleen, DGE was not fully corrected with rhFVIII or mFcFVIII; moreover, gene expression differed between rhFVIII and mFcFVIII. This was particularly evident on day 14, with a partial reduction to 603 and 294 differentially expressed genes with rhFVIII and mFcFVIII, respectively. Only 163 genes overlapped, whereas 440 were unique to rhFVIII and 131 to mFcFVIII. A comparison between gene expression with rhFVIII and mFcFVIII yielded that ≥ 2 log-fold expression difference was present for 74 genes, with 72 genes upregulated with rhFVIII relative to mFcFVIII. Many of these genes are involved in pathways related to innate and adaptive immune responses, cell cycle regulation and extracellular matrix organization in the Reactome database. This response was dampened by mFcFVIII. Conclusions Joint bleeding in hemophilic mice induced pronounced systemic and synovial gene expression, which was diminished by rhFVIII or mFcFVIII. However, while there were many similarities with regard to regulation of gene expression and/or molecular pathways, there were also notable differences, especially involving immune regulatory, inflammatory and tissue repair functions. These observations provide new molecular insights regarding Fc-driven effects of FVIII after hemarthrosis, suggesting that the type of FVIII preparation used for bleed control may have implications beyond hemostasis. Disclosures von Drygalski: Hematherix, Inc: Membership on an entity's Board of Directors or advisory committees, Patents & Royalties: Super FVa; uniQure: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; Novo Nordisk: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; Pfizer: Research Funding; Takeda: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; CSL Behring: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; Biomarin: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; Genentech: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; Sanofi: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Research Funding, Speakers Bureau.

Published

2021

24. The structural basis for the functional comparability of factor VIII and the long‐acting variant recombinant factor VIII Fc fusion protein

Author

A. B. Goodman, Po-Lin Chiu, Thomas Walz, Nina C. Leksa, Robert T. Peters, John Kulman, C. Quan, Melissa G. Chambers, Michal Hammel, George M. Bou-Assaf, Susan E. Tsutakawa, and Zhiqian Liu

Subjects

0301 basic medicine, congenital, hereditary, and neonatal diseases and abnormalities, Recombinant Fusion Proteins, Hemorrhage, Crystallography, X-Ray, Hemophilia A, Recombinant factor viii, Mass Spectrometry, Article, law.invention, 03 medical and health sciences, Protein Domains, X-Ray Diffraction, law, hemic and lymphatic diseases, Fab Fragments, Scattering, Small Angle, Humans, C2 domain, Factor VIII, biology, Chemistry, Hematology, Surface Plasmon Resonance, Fusion protein, Peptide Fragments, Immunoglobulin Fc Fragments, Kinetics, Microscopy, Electron, Fc fusion, HEK293 Cells, 030104 developmental biology, Long acting, Immunology, biology.protein, Biophysics, Recombinant DNA, Antibody, Half-Life

Abstract

Author(s): Leksa, NC; Chiu, P-L; Bou-Assaf, GM; Quan, C; Liu, Z; Goodman, AB; Chambers, MG; Tsutakawa, SE; Hammel, M; Peters, RT; Walz, T; Kulman, JD | Abstract: Essentials Recombinant factor VIII (rFVIII) Fc fusion protein has a 1.5-fold longer half-life than rFVIII. Five orthogonal methods were used to characterize the structure of rFVIIIFc compared to rFVIII. The C-terminal Fc fusion does not perturb the structure of FVIII in rFVIIIFc. The FVIII and Fc components of rFVIIIFc are flexibly tethered and functionally independent.SummaryBackground Fusion of the human IgG1 Fc domain to the C-terminal C2 domain of B-domain-deleted (BDD) factor VIII (FVIII) results in the recombinant FVIII Fc (rFVIIIFc) fusion protein, which has a 1.5-fold longer half-life in humans. Objective To assess the structural properties of rFVIIIFc by comparing its constituent FVIII and Fc elements with their respective isolated components, and evaluating their structural independence within rFVIIIFc. Methods rFVIIIFc and its isolated FVIII and Fc components were compared by the use of hydrogen-deuterium exchange mass spectrometry (HDX-MS). The structure of rFVIIIFc was also evaluated by the use of X-ray crystallography, small-angle X-ray scattering (SAXS), and electron microscopy (EM). The degree of steric interference by the appended Fc domain was assessed by EM and surface plasmon resonance (SPR). Results HDX-MS analysis of rFVIIIFc revealed that fusion caused no structural perturbations in FVIII or Fc. The rFVIIIFc crystal structure showed that the FVIII component is indistinguishable from published BDD FVIII structures. The Fc domain was not observed, indicating high mobility. SAXS analysis was consistent with an ensemble of rigid-body models in which the Fc domain exists in a largely extended orientation relative to FVIII. Binding of Fab fragments of anti-C2 domain antibodies to BDD FVIII was visualized by EM, and the affinities of the corresponding intact antibodies for BDD FVIII and rFVIIIFc were comparable by SPR analysis. Conclusions The FVIII and Fc components of rFVIIIFc are structurally indistinguishable from their isolated constituents, and show a high degree of structural independence, consistent with the functional comparability of rFVIIIFc and unmodified FVIII.

Published

2017

25. Effective strategies for host cell protein clearance in downstream processing of monoclonal antibodies and Fc-fusion proteins

Author

Yifeng Li

Subjects

0301 basic medicine, Drug, medicine.drug_class, Recombinant Fusion Proteins, media_common.quotation_subject, Gene Expression, Monoclonal antibody, 01 natural sciences, Cell Line, law.invention, 03 medical and health sciences, law, medicine, Animals, Humans, media_common, Downstream processing, Host (biology), Chemistry, 010401 analytical chemistry, Antibodies, Monoclonal, food and beverages, Bioproduction, Immunoglobulin Fc Fragments, 0104 chemical sciences, Fc fusion, 030104 developmental biology, Biochemistry, Cell culture, Recombinant DNA, Biotechnology

Abstract

Recombinant therapeutic proteins are typically produced through cell culture process. Host cell proteins (HCPs) are endogenous proteins derived from the host cells used for such bioproduction. HCPs form a major class of process-related impurities and even at low levels they can potentially compromise the safety and efficacy of biopharmaceuticals. Therefore, they need to be adequately removed via the downstream process. HCPs are complex mixtures with diverse physiochemical properties, and certain subpopulations can bind to the intended product. Hence reducing them to the generally accepted level can be challenging. This article reviews effective HCP removing strategies at different stages of downstream process for monoclonal antibodies and Fc-fusion proteins. When used in combination, these strategies can greatly enhance the chance of meeting the drug substance specifications for residual HCP.

Published

2017

26. Bioluminescence imaging for monitoring therapeutic response of CD38-specific nanobody-Fc fusion proteins in a lymphoma model

Author

Peter Bannas, Gerhard Adam, K Schütze, L Schriewer, F Koch-Nolte, and W Fumey

Subjects

Fc fusion, Chemistry, medicine, Cancer research, Bioluminescence imaging, Radiology, Nuclear Medicine and imaging, CD38, medicine.disease, Lymphoma

Published

2017

27. Real-world assay variability between laboratories in monitoring of recombinant factor IX Fc fusion protein activity in plasma samples

Author

Annemieke J. Willemze, Margareta Wikén, Ali Sadeghi-Khomami, Jurg M. Sommer, and Christopher Barnowski

Subjects

Recombinant Fusion Proteins, Clinical Biochemistry, haemophilia B, 030204 cardiovascular system & hematology, Hemophilia B, Factor IX, 03 medical and health sciences, Plasma, 0302 clinical medicine, medicine, Potency, Humans, Haemophilia B, Protein activity, Blood Coagulation, chromogenic substrate assay, Chromatography, medicine.diagnostic_test, Plasma samples, Chemistry, Biochemistry (medical), Hematology, General Medicine, Original Articles, medicine.disease, Immunoglobulin Fc Fragments, one‐stage clotting assay, Fc fusion, Partial Thromboplastin Time, Original Article, recombinant factor IX Fc fusion protein, 030215 immunology, Recombinant factor IX, Partial thromboplastin time, medicine.drug, factor IX replacement therapy

Abstract

Introduction Monitoring of factor IX (FIX) replacement therapy in haemophilia B relies on accurate coagulation assays. However, considerable interlaboratory variability has been reported for one‐stage clotting (OSC) assays. This study aimed to evaluate the real‐world, interlaboratory variability of routine FIX activity assays used in clinical haemostasis laboratories for the measurement of recombinant FIX Fc fusion protein (rFIXFc) activity. Methods Human FIX‐depleted plasma was spiked with rFIXFc at 0.80, 0.20 or 0.05 IU/mL based on label potency. Participating laboratories tested samples using their own routine OSC or chromogenic substrate (CS) assay protocols, reagents and FIX plasma standards. Laboratories could perform more than one measurement and method, and were not fully blinded to nominal activity values. Results A total of 142 laboratories contributed OSC results from 175 sample kits using 11 different activated partial thromboplastin time (aPTT) reagents. The median recovered FIX activity for the 0.80, 0.20 and 0.05 IU/mL samples was 0.72 IU/mL, 0.21 IU/mL and 0.060 IU/mL, respectively. Across all OSC reagents, interlaboratory variability (% CV) per aPTT reagent ranged from 9.4% to 32.1%, 8.2% to 32.6% and 12.2% to 42.0% at the 0.80, 0.20 and 0.05 IU/mL levels, respectively. CS results showed excellent median recoveries at all nominal levels (87.5% to 115.0%; n = 11) with low interlaboratory variability (CV 3.6% to 15.4%). Conclusion This large, real‐world data set indicates that rFIXFc activity in plasma samples can be accurately measured with the majority of routine OSC and CS assay methods. Given the variation in FIX assay procedures between sites, it is important that individual laboratories qualify their in‐house methods for monitoring of rFIXFc activity.

Published

2019

28. Immunomodulation in Primary Immune Thrombocytopenia: A Possible Role of the Fc Fragment of Romiplostim?

Author

Thomas Kühne, Falk Nimmerjahn, and Alexandra Schifferli

Subjects

lcsh:Immunologic diseases. Allergy, 0301 basic medicine, Drug, media_common.quotation_subject, Mini Review, Recombinant Fusion Proteins, Immunology, Peptide, Receptors, Fc, immunomodulation, thrombopoietin receptor agonist, Etanercept, 03 medical and health sciences, 0302 clinical medicine, peptibody, medicine, Immunology and Allergy, Animals, Humans, Immunologic Factors, Fc-Fragment, media_common, chemistry.chemical_classification, Purpura, Thrombocytopenic, Idiopathic, Romiplostim, biology, business.industry, Receptors, IgG, Disease Management, romiplostim, Fc fusion protein, Immune thrombocytopenia, Immunoglobulin Fc Fragments, Fc fusion, 030104 developmental biology, chemistry, Thrombopoietin, biology.protein, ITP, Disease Susceptibility, Antibody, lcsh:RC581-607, business, 030215 immunology, Fc fragment, medicine.drug

Abstract

Fc fusion proteins and Fc fusion peptides or peptibodies are chimeric molecules composed of an active pharmacological protein or peptide and the Fc fragment of an immunoglobulin. The primary aim of this drug construct is to prolong the half-life of the active component. This molecular architecture is seen in drugs, such as etanercept, romiplostim, and the recombinant factor VIII (efmoroctocog alfa). A considerable number of Fc fusion proteins and peptibodies are currently in pre-clinical and clinical development. The isolated effect of the Fc fragment has been studied intensively during last years, but is still poorly understood in the clinical setting and in relation with the active drug and underlying disease. In this short review, we will propose new hypotheses of possible immunomodulatory functions of the Fc fragment of romiplostim in patients with primary immune thrombocytopenia.

Published

2019

29. A Rationally Engineered Hyperactive Actin‐Resistant DNase1‐Fc Fusion Protein Ameliorates Autoimmune Glomerulonephritis

Author

Eric Suto, Jefferey Eastham‐Anderson, Lydia Santell, Peng Luan, Yanmei Lu, Yvonne Franke, Susan Haller, Maria Mouchess, Jason A. Hackney, Craig Blanchette, Christine Tam, Robert A. Lazarus, Sara Chan, Martine Darwish, Cary D. Austin, Dongping He, Wyne P. Lee, Bingbing Dai, Tangsheng Yi, and Yi Cao

Subjects

Fc fusion, Chemistry, Genetics, medicine, Glomerulonephritis, medicine.disease, Molecular Biology, Biochemistry, Actin, Biotechnology, Cell biology

Published

2019

30. Engineering of a Lectibody Targeting High-Mannose-Type Glycans of the HIV Envelope

Author

Francois Villinger, Tiffany N. Grooms, Steven D. Hume, Carl V. Hanson, J. Calvin Kouokam, Krystal Teasley Hamorsky, Mary Kate Morris, Kenneth A. Rogers, Matthew Dent, Adam S. Husk, and Nobuyuki Matoba

Subjects

Protein Conformation, medicine.disease_cause, Macaque, law.invention, 0302 clinical medicine, law, Drug Discovery, chemistry.chemical_classification, 0303 health sciences, biology, Chemistry, env Gene Products, Human Immunodeficiency Virus, Flow Cytometry, 3. Good health, Cell killing, 030220 oncology & carcinogenesis, Recombinant DNA, Molecular Medicine, Female, Simian Immunodeficiency Virus, Genetic Engineering, Glycan, Fc fusion, Recombinant Fusion Proteins, Genetic Vectors, Article, 03 medical and health sciences, Polysaccharides, biology.animal, Genetics, medicine, Nicotiana benthamiana, Animals, Amino Acid Sequence, Molecular Biology, 030304 developmental biology, Pharmacology, high-mannose-type glycan, Lectin, HIV, protein engineering, Protein engineering, Simian immunodeficiency virus, Virology, Macaca mulatta, Rats, plant virus vector, biology.protein, HIV-1, lectin, Glycoprotein, Mannose

Abstract

High-mannose-type glycans (HMGs) are aberrantly enriched on HIV envelope glycoproteins. However, there is currently no drug selectively targeting HIV-associated HMGs. Here, we describe a novel HMG-targeting “lectibody,” a recombinant Fc-fusion protein comprising human IgG1 Fc and a novel actinohivin lectin variant (Avaren) obtained by structure-guided modifications for improved overall surface charge properties (AvFc). AvFc was engineered and produced using a rapid and scalable plant-based transient overexpression system. The lectibody exhibited potent antiviral activity against HIV-1 groups M and O primary viruses, as well as HIV-2 and simian immunodeficiency virus (SIV) strains, without affecting normal human blood cells. Furthermore, the lectibody induced Fc-mediated cell killing activity against HIV-1-infected cells and selectively recognized SIVmac239-infected macaque mesenteric lymph node cells in vitro. AvFc showed an extended serum half-life in rats and rhesus macaques, while no discernible toxicity was observed upon repeated systemic dosing in mice. These results highlight AvFc’s potential as a biotherapeutic targeting HIV-associated HMGs of cell-free virions, as well as productively infected cells, providing a foundation for new anti-HIV strategies. Efficient and cost-effective bioproduction in greenhouse facilities may open unique possibilities for further development of AvFc., High-mannose-type glycans are clustered on HIV envelope, but there is currently no drug targeting these glycans. Matoba and colleagues developed a novel lectin-Fc fusion protein, or “lectibody,” selectively recognizing this glycobiomarker, which exhibited potent HIV neutralization and Fc-mediated HIV+ cell-killing activities without affecting uninfected normal cells.

Published

2019

31. The effects of buffer condition on the fouling behavior of MVM virus filtration of an Fc-fusion protein

Author

Fnu Namila, Tung Nguyen, Ranil Wickramasinghe, Steven J. Traylor, Da Zhang, Xianghong Qian, and Nripen Singh

Subjects

Chromatography, biology, Fouling, Chemistry, Recombinant Fusion Proteins, Bioengineering, Buffers, biology.organism_classification, Applied Microbiology and Biotechnology, Buffer (optical fiber), Transmembrane protein, Virus, law.invention, Immunoglobulin Fc Fragments, Fc fusion, Mice, Membrane, law, Minute Virus of Mice, Animals, Minute virus of mice, Filtration, Biotechnology

Abstract

A combined pore blockage and cake filtration model was applied to the virus filtration of an Fc-fusion protein using the three commercially available filters, F-1, F-2, and F-3 in a range of buffer conditions including sodium-phosphate and tris-acetate buffers with and without 200 mM NaCl at pH 7.5. The fouling behaviors of the three filters for the feed solutions spiked with minute virus of mice were described well by this combined model for all the solution conditions. This suggests that fouling of the virus filters is dominated by the pore blockage mechanism during the initial stage of the filtration and transformed to the cake filtration mechanism during the later stage of the filtration. Both flux and transmembrane resistance can be described well by this model. The pore blockage rate and the rate of increase of protein layer resistance over blocked pores are found to be affected by membrane properties as well as the solution conditions resulting from the modulation of interactions between virus, protein, and membrane by the solution conditions.

Published

2019

32. Biophysical evaluation of hybrid Fc fusion protein of hGH to achieve basal buffer system

Author

Hye Seong Lim, Seong Hoon Jeong, Sang In Yang, In Bok An, and Nam Ah Kim

Subjects

0301 basic medicine, Circular dichroism, Protein Conformation, Pharmaceutical Science, Buffers, 030226 pharmacology & pharmacy, 03 medical and health sciences, Basal (phylogenetics), 0302 clinical medicine, Drug Stability, Zeta potential, chemistry.chemical_classification, Calorimetry, Differential Scanning, Human Growth Hormone, Chemistry, Circular Dichroism, Human growth hormone, technology, industry, and agriculture, Hydrogen-Ion Concentration, Fusion protein, Conjugated protein, Immunoglobulin Fc Fragments, Fc fusion, 030104 developmental biology, Biochemistry, Immunoglobulin G, Conformational stability

Abstract

A newly developed hybrid Fc (hyFc) is a non-immunogenic and non-cytolytic Fc with intact Ig structure derived from human IgD and IgG4. It is fused with the human growth hormone (GXD-9) and was evaluated by various biophysical techniques. Two thermal transitions were evident by DSC, reflecting the unfolding of IgG4 and the conjugated protein. The highest Tm of the initial GXD-9 was 68.17°C and the Tm of the two domains were around 66°C and 70°C. Although Tm increased with decreasing concentration, which reflects increasing conformational stability, aggregation issues were still observed by DLS. This might be caused by decreasing or low zeta potential due to a highly complex structure. The protein was dialyzed to various pH (6.2-8.2) values to enhance conformational stability and to overcome aggregation issues. The results of CD spectroscopy were correlated with DSC measurements to evaluate its conformational stability. Changes in secondary structural contents were similar as determined by DSC and DLS. In conclusion, GXD-9 was found to be most stable at pH 7.0. The investigation of the biophysical stability of a hyFc-fusion protein has demonstrated a positive feasibility of developing more stable formulations to facilitate the initial drug development process for further clinical trials.

Published

2016

33. PROMOTION OF EFFECTIVE HUMAN REGULATORY T CELL TRANSFER IN VIVO WITH MUTEIN FC-FUSION IL-2

Author

Fadi Issa, Amy Cross, and Joanna Hester

Subjects

Transplantation, Fc fusion, medicine.anatomical_structure, Promotion (rank), Regulatory T cell, In vivo, Chemistry, media_common.quotation_subject, medicine, media_common, Cell biology

Published

2020

34. Evaluation of the high affinity IgE receptor alpha-IgG1 Fc fusion protein (FCER1A-Fc) as a topical ocular anti-allergic agent

Author

Takashi Sakamoto, Toshiki Homma, Kazumasa Yokoyama, Yasuhiko Suzuki, Fumiaki Itoh, Yoichi Inada, Mika Yamagishi, and Chisei Ra

Subjects

Fc fusion, biology, Chemistry, Immunology, biology.protein, Immunology and Allergy, Anti allergy, Alpha (ethology), Receptor, Immunoglobulin E, FCER1A

Published

2020

35. Clotting and chromogenic factor VIII assay variability in post-infusion and spiked samples containing full-length recombinant FVIII or recombinant factor VIII Fc fusion protein (rFVIIIFc)

Author

Steve Kitchen, Timothy A. L. Woods, Dianne P. Kitchen, Ian Jennings, Michael Makris, and Isobel D. Walker

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, Recombinant Fusion Proteins, Clinical Biochemistry, 030204 cardiovascular system & hematology, Pharmacology, Haemophilia, Recombinant factor viii, law.invention, 03 medical and health sciences, 0302 clinical medicine, law, hemic and lymphatic diseases, medicine, Humans, Blood Coagulation, Blood coagulation test, Factor VIII, Chemistry, Chromogenic, Biochemistry (medical), Hematology, General Medicine, medicine.disease, Chromogenic factor VIII assay, Immunoglobulin Fc Fragments, Fc fusion, Coagulation, Recombinant DNA, Blood Coagulation Tests, 030215 immunology

Abstract

INTRODUCTION: Variability in FVIII measurement is a recognized problem. There are limited data for samples containing recombinant Factor VIII Fc fusion protein (rFVIIIFc). Many studies use samples for which factor concentrate has been spiked into FVIII deficient plasma in vitro. This approach requires validation. AIM/METHODS: Four samples were distributed in a UK National External Quality Assessment Scheme for Blood Coagulation (NEQAS BC) survey. One contained Advate (full-length recombinant FVIII) (rFVIII) added to FVIII deficient plasma, one was from a severe haemophilia A patient after infusion of Advate, one was prepared by addition of rFVIIIFc (marketed as Elocta/Eloctate) to FVIII deficient plasma and the fourth was collected from a severe haemophilia A patient following rFVIIIFc (Eloctate) infusion. Fifty-three haemophilia centres (UK and Scandinavia) performed one-stage FVIII assays and 27 performed chromogenic FVIII assays. RESULTS/CONCLUSIONS: One-stage assays gave significantly lower results than chromogenic assays by 7% (P

Published

2018

36. Evaluation of the toxicology and pharmacokinetics of recombinant factor VIII Fc fusion protein in animals

Author

Kenneth S. Loveday, Jennifer A. Dumont, David R. Light, Haiyan Jiang, and Glenn F. Pierce

Subjects

Male, No-observed-adverse-effect level, Fc fusion, Recombinant Fusion Proteins, Cmax, Pharmacology, Hemophilia A, Rats, Sprague-Dawley, Toxicology, Neonatal Fc receptor, Species Specificity, Von Willebrand factor, Pharmacokinetics, hemophilia, medicine, Animals, Humans, rFVIIIFc, Volume of distribution, Prothrombin time, Factor VIII, biology, medicine.diagnostic_test, Chemistry, Thrombosis, Hematology, Recombinant Proteins, Immunoglobulin Fc Fragments, Rats, Macaca fascicularis, HEK293 Cells, Area Under Curve, biology.protein, Female, Biological half-life, toxicology

Abstract

Introduction Recombinant factor VIII Fc fusion protein (rFVIIIFc) is a novel recombinant factor VIII with a prolonged half-life, developed for the treatment of hemophilia A. Studies that evaluated the toxicological effects of rFVIIIFc in 2 pharmacologically relevant species, cynomolgus monkeys and Sprague Dawley rats, are reported here. Materials and Methods In repeat-dose toxicology studies, rats and monkeys received 0, 50, 250, or 1000 IU/kg rFVIIIFc every other day for 4 weeks. In a high-dose tolerance study, monkeys received 1 rFVIIIFc dose of 3000, 10,000, or 20,000 IU/kg. Evaluations included in-life observations, laboratory and post-mortem evaluations, pharmacokinetics, and local tolerance. Allometric scaling, using data from 4 animal species and humans, was used to evaluate the relationship between animal and human pharmacokinetics. Results rFVIIIFc was well tolerated with no adverse toxicological findings directly attributable to rFVIIIFc. As expected, antibodies to this fully human protein developed in rats and monkeys in a time-dependent fashion following repeated dosing, leading to increased clearance in both species. There were no local reactions (infusion site) or evidence of thrombosis at high doses in rats and monkeys. Allometric scaling demonstrated more rapid clearance in small animals compared with humans and a volume of distribution (steady state) proportional to body weight across species, suggesting that animal pharmacokinetics are predictive of human pharmacokinetics. Conclusions Repeated doses of rFVIIIFc in 2 relevant animal species and high doses of rFVIIIFc in monkeys were well tolerated. These results supported the clinical safety of rFVIIIFc observed in phase 1/2a and phase 3 clinical trials.

Published

2015

37. Effect of protein aggregates on characterization of FcRn binding of Fc-fusion therapeutics

Author

Svetlana Bergelson, Zoran Sosic, Andrew Blum, Marina Feschenko, Chongfeng Xu, and Adriana Bajardi-Taccioli

Subjects

Time Factors, Recombinant Fusion Proteins, Immunology, Receptors, Fc, Plasma protein binding, Protein aggregation, Protein Aggregates, Methionine, Neonatal Fc receptor, Stress, Physiological, Humans, Molecular Biology, biology, Chemistry, Histocompatibility Antigens Class I, Immunoglobulin Fc Fragments, Titrimetry, Fragment crystallizable region, Fc fusion, Interferometry, Förster resonance energy transfer, Chromatography, Gel, Biophysics, biology.protein, Biological Assay, Indicators and Reagents, Antibody, Oxidation-Reduction, Protein Binding

Abstract

Recycling of antibodies and Fc containing therapeutic proteins by the neonatal Fc receptor (FcRn) is known to prolong their persistence in the bloodstream. Fusion of Fc fragment of IgG1 to other proteins is one of the strategies to improve their pharmacokinetic properties. Accurate measurement of Fc-FcRn binding provides information about the strength of this interaction, which in most cases correlates with serum half-life of the protein. It can also offer insight into functional integrity of Fc region. We investigated FcRn binding activity of a large set of Fc-fusion samples after thermal stress by the method based on AlphaScreen technology. An unexpected significant increase in FcR binding was found to correlate with formation of aggregates in these samples. Monomer purified from a thermally-stressed sample had normal FcRn binding, confirming that its Fc portion was intact. Experiments with aggregates spiked into a sample with low initial aggregation level, demonstrated strong correlation between the level of aggregates and FcRn binding. This correlation varied significantly in different methods. By introducing modifications to the assay format we were able to minimize the effects of aggregated species on FcRn binding, which should prevent masking functional changes of Fc-fusion protein. Biolayer interferometry (BLI) was used as an alternative method to measure FcRn binding. Both optimized AlphaScreen- and BLI-based assays were sensitive to structural changes in Fc portion of the molecule, such as oxidation of methionines 252 and 428, and therefore suitable for characterization of FcRn binding.

Published

2015

38. Evaluation of the toxicology, pharmacokinetics, and local tolerance of recombinant factor IX Fc fusion protein in animals

Author

Jennifer A. Dumont, Haiyan Jiang, Glenn F. Pierce, Kenneth S. Loveday, and David R. Light

Subjects

medicine.medical_specialty, Maximum Tolerated Dose, Metabolic Clearance Rate, Fc fusion, Recombinant Fusion Proteins, Toxicology, Antithrombins, Rats, Sprague-Dawley, Factor IX, Neonatal Fc receptor, Species Specificity, Pharmacokinetics, Internal medicine, medicine, Animals, Allometric scaling, Hemophilia, Prothrombin time, Hematology, Dose-Response Relationship, Drug, medicine.diagnostic_test, Chemistry, Thrombosis, Drug Tolerance, Prothrombin complex concentrate, Immunoglobulin Fc Fragments, Rats, Macaca fascicularis, Coagulation, Blood chemistry, rFIXFc, Immunology, Rabbits, medicine.drug

Abstract

Introduction Recombinant factor IX Fc fusion protein (rFIXFc) is a recombinant coagulation factor composed of a single molecule of recombinant factor IX (rFIX) covalently fused to the Fc domain of human immunoglobulin G1 (IgG1) with no intervening sequence. An extensive nonclinical program was performed to support the clinical development of rFIXFc for treatment of people with hemophilia B. Materials and Methods Repeat-dose toxicology studies of rFIXFc were performed in 2 relevant species: Sprague Dawley rats (4-week study) and cynomolgus monkeys (5- and 27-week studies). Assessments included in-life observations, electrocardiograms (monkeys only), laboratory evaluations (including hematology and blood chemistry), postmortem analyses, local tolerance, and pharmacokinetics (PK). Allometric scaling was performed with PK data from multiple species, including humans. Local tolerance (single-dose study) and thrombogenic potential (Wessler stasis model) of rFIXFc were tested in New Zealand White rabbits. Results There were no significant local or systemic toxicity findings in the repeat-dose studies. Allometric scaling data suggested that animal rFIXFc PK results are predictive of human PK parameters. There were no findings from the local tolerance study in rabbits; thrombogenic activity was less than that elicited by rFIX and a prothrombin complex concentrate, and similar to vehicle control. Conclusions rFIXFc was well tolerated in toxicology studies and demonstrated a low thrombogenic potential. These results are consistent with phase 1/2a and phase 3 clinical studies of rFIXFc in people with hemophilia B.

Published

2015

39. Monitoring sialylation levels of Fc-fusion protein using size-exclusion chromatography as a process analytical technology tool

Author

Jintao Liu, Wen-Song Tan, Xiancun Deng, Xinning Chen, H. Fai Poon, Xuping Liu, and Li Fan

Subjects

Glycosylation, Process analytical technology, Size-exclusion chromatography, Bioengineering, CHO Cells, Applied Microbiology and Biotechnology, chemistry.chemical_compound, Cricetulus, Cricetinae, Animals, Chromatography, High Pressure Liquid, Chromatography, Chemistry, Sec hplc, food and beverages, General Medicine, N-Acetylneuraminic Acid, Recombinant Proteins, Immunoglobulin Fc Fragments, Sialic acid, Fc fusion, Carbohydrate Sequence, Biochemistry, Chromatography, Gel, Critical quality attributes, Biotechnology

Abstract

To develop a rapid process analytical technology (PAT) tool that can measure sialic acid content of an Fc-fusion protein from cell culture samples.A statistical significant correlation between the sialic acid content and size-exclusion chromatography (SEC)-HPLC retention time of an Fc-fusion protein was observed when analyzing the titer of the samples. Using linear fitting analysis, the data fit the model well with R (2) = 0.985. Based on the SDS-PAGE and oligosaccharide analysis, we speculate that the amounts of the glycans could expand the structure of the Fc-fusion protein. This was manifested by the SEC-HPLC method in which proteins were separated based on its molecular size. In order to development a robust PAT method, an internal standard was used to improve the precision of the method by reducing systematic errors. We found the change of SEC retention time (delta t) and sialic acid content were highly correlated (R (2) = 0.992). This method was further validated by a 1500 l production process.SEC-HPLC is a promising PAT tool to monitor the sialic acid content of Fc-fusion protein during biomanufacturing or medium optimization processes.

Published

2015

40. Efficient Expression of sTNFRII-gAD-Fc Fusion Protein in CHO Cell

Subjects

endocrine system, Fc fusion, Chromatography, Chemistry, Chinese hamster ovary cell, Molecular biology

Abstract

构建了人肿瘤坏死因子受体II胞外区、人脂联素球部与人IgG1 Fc的融合基因sTNFRII-gAD-Fc的真核表达载体，在CHO-S细胞中快速高效表达，探索了无血清悬浮流加培养工艺。应用重组PCR将人IgG1 Fc基因片段与sTNFRII-gAD基因片段融合，构建pMH3-sTNFRII-gAD-Fc表达载体，电转染至CHO-S细胞，挑选G418抗性的高表达单克隆，斑点杂交半定量分析和Western blot分析sTNFRII-gAD-Fc的表达，Protein A-Agarose纯化，以及拮抗TNFα的生物活性测定。最后在摇瓶、转瓶及生物反应器中进行了逐级放大的无血清悬浮批次及流加培养，即：2.0 × 106 cells/mL的接种密度，当达到4.0 × 106 cells/mL以上时开始流加培养并以每日葡萄糖的残余量2 g/L左右作为流加体积的控制参数。成功构建pMH3- sTNFRII-gAD-Fc表达载体，检测到sTNFRII-gAD-Fc在CHO-S细胞培养上清中以二聚体和多聚体形式表达，获得了高表达(75 μg/mL)单克隆细胞株，且该蛋白具有显著抑制TNFα杀伤L929细胞的活性。在摇瓶中无血清批次培养和转瓶及生物反应器中流加培养时产量分别为10.0 mg/L、18.3 mg/L和20.5 mg/L。利用CHO-S细胞系统成功实现了sTNFRII-gAD-Fc 融合蛋白的快速高效表达，为建立一套高密度、高效表达该融合蛋白的悬浮流加培养中试工艺打下了良好基础。 In order to produce the soluble TNF receptor (sTNFR) II with good neutralizing activity against TNFα, we constructed the fusion gene sTNFRII-gAD-Fc, which encoded human sTNFRII, the globular domain of adiponectin (gAD) and IgG1 Fc, and efficiently expressed it through a “GC-rich” method for mammalian gene expression in CHO-S cells, and further established the process of serum-free suspension fed-batch culture. The fusion gene of sTNFRII-gAD-Fc was obtained by recombinant PCR, and then cloned into pMH3 expression plasmid with GC-rich motif. The plasmid was electrotransfected into CHO-S cells, which were selected by G418. sTNFRII-gAD-Fc fusion protein was analyzed by dot blot and Western blot. The TNFα-antagonizing activity of sTNFRII-gAD- Fc was determined through TNFα-induced L929 cytotoxicity assay. The suspension cultures of sTNFRII-gAD-Fc-expressing CHO-S cells were performed in a step-wise manner. We assessed the expression levels of sTNFRII-gAD-Fc in batch culture in shake flaskes (500 mL), fed-batch culture in roller bottles (2 L), and the bioreactor (7.5 L) with inoculating concentration of 2 × 106 cells/ml of sTNFRII-gAD-Fc-expressing CHO-S cells, respectively. Having reached up to more than 4 × 106 cells/ml in fed-batch cultures, the cells were added semi-continuously with the feed medium to keep the glucose concentration at 2 g/L. Stable expression clones (75 μg/mL) were obtained, and sTNFRII-gAD-Fc fusion protein was expressed as dimer and polymer forms in the supernatant, and displayed very strong TNFα-neutralizing activity. The yields of sTNFRII-gAD-Fc fusion protein were about 10.0 mg/L, 18.3 mg/L and 20.5 mg/L, respectively, in 60 mL batch culture, 200 mL and 3 L fed-batch cultures. Our efficient expression of sTNFRII-gAD-Fc fusion protein by CHO-S cells had laid a good basis for the development of pilot production process in the suspension fed-batch culture.

Published

2015

41. Characterization and Detection of Erythropoietin Fc Fusion Proteins Using Liquid Chromatography-Mass Spectrometry

Author

Natalia V. Mesonzhnik, Svetlana A. Appolonova, Pavel V. V. Postnikov, and Grigory Krotov

Subjects

0301 basic medicine, Proteases, Recombinant Fusion Proteins, Mass spectrometry, 01 natural sciences, Biochemistry, 03 medical and health sciences, Liquid chromatography–mass spectrometry, Tandem Mass Spectrometry, medicine, Humans, Erythropoiesis, Amino Acid Sequence, Peptide sequence, Erythropoietin, Chromatography, Chemistry, 010401 analytical chemistry, Protein primary structure, General Chemistry, Fusion protein, 0104 chemical sciences, Immunoglobulin Fc Fragments, Fc fusion, 030104 developmental biology, medicine.drug, Chromatography, Liquid, Peptide Hydrolases

Abstract

Erythropoietin Fc (EPO-Fc) fusion proteins are potential drug candidates that have been designed for the treatment of anemia in humans by stimulating erythrocyte production. Such compounds can be considered performance-enhancing agents that may be used by athletes in endurance sports. This study describes the primary structure of commercially available EPO-Fc based on comprehensive liquid chromatography coupled with mass spectrometry (LC–MS) analysis. A bottom-up approach and the intact molecular weight (MW) measurement of deglycosylated protein and its IdeS proteolytic fractions was used to determine the amino acid sequence of EPO-Fc. Using multiple proteases, peptides covering unknown fusion breakpoints (spacer peptides) were identified. We demonstrated that “spacer peptides” can be used in the determination of EPO-Fc fusion proteins in biological samples using common LC–tandem MS methods.

Published

2017

42. DOWNSTREAM PROCESSING OF Fc FUSION PROTEINS, BISPECIFIC ANTIBODIES, AND ANTIBODY-DRUG CONJUGATES

Author

Abhinav A. Shukla and Carnley L. Norman

Subjects

0301 basic medicine, Drug, Bispecific antibody, Downstream processing, biology, Chemistry, media_common.quotation_subject, Molecular biology, Antibody fragments, 03 medical and health sciences, Fc fusion, 030104 developmental biology, 0302 clinical medicine, Cell killing, 030220 oncology & carcinogenesis, biology.protein, Antibody, Conjugate, media_common

Published

2017

43. PF327 RECOMBINANT FACTOR VIII FC FUSION PROTEIN IN SURGERIES IN HEMOPHILIA A

Author

V. Patil, C. S, F. Jijina, S. Shetty, S. Mohanty, and N. Wasekar

Subjects

Fc fusion, Chemistry, Hematology, Virology, Recombinant factor viii

Published

2019

44. Application of a Kosmotrope-Based Solubility Assay to Multiple Protein Therapeutic Classes Indicates Broad Use as a High-Throughput Screen for Protein Therapeutic Aggregation Propensity

Author

Michael L. Doyle, Preeti Sejwal, Jun Dai, Aaron P. Yamniuk, Noah Ditto, Mehul Patel, and Paul Stetsko

Subjects

Kosmotropic, Low protein, Protein therapeutics, Protein Stability, Drug discovery, medicine.drug_class, Chemistry, Recombinant Fusion Proteins, Pharmaceutical Science, Protein aggregation, Monoclonal antibody, Antibodies, Cell Line, Fc fusion, Solubility, Biochemistry, Ammonium Sulfate, Drug Discovery, medicine, Animals, Humans

Abstract

Aggregation propensity is a critical attribute of protein therapeutics that can influence production, manufacturing, delivery, and potential activity and safety (immunogenicity). It is therefore imperative to select molecules with low aggregation propensity in the early stages of drug discovery to mitigate the risk of delays or failure in clinical development. Although many biophysical methods have been developed to characterize protein aggregation, most established methods are low-throughput, requiring large quantities of protein, lengthy assay times, and/or significant upstream sample preparation, which can limit application in early candidate screening. To avoid these limitations, we developed a reliable method to characterize aggregation propensity, by measuring the relative solubility of protein therapeutic candidates in the presence of the kosmotropic salt ammonium sulfate. Manual bench-scale and automated plate-based methods were applied to different protein therapeutic formats including Adnectins, domain antibodies, PEGylated Adnectins, Fc fusion proteins, and monoclonal antibodies. The kosmotrope solubility data agreed well with the aggregation propensity observed by established methods, while being amenable to high-throughput screening because of speed, simplicity, versatility and low protein material requirements. The results suggest that kosmotrope-based solubility assessment has broad applicability to selecting protein therapeutic candidates with low aggregation propensity and high “developability” to progress into development. © 2013 Wiley Periodicals, Inc. and the American Pharmacists Association J Pharm Sci 102:2424–2439, 2013

Published

2013

45. Analytical characterization of biosimilar antibodies and Fc-fusion proteins

Author

Alain Beck, Hélène Diemer, Christine Carapito, François Debaene, Daniel Ayoub, Elsa Wagner-Rousset, Alain Van Dorsselaer, and Sarah Sanglier-Cianférani

Subjects

Chromatography, biology, medicine.drug_class, Chemistry, Biosimilar, Computational biology, Mass spectrometry, Monoclonal antibody, Analytical Chemistry, Fc fusion, Therapeutic antibody, biology.protein, medicine, Antibody, Primary sequence, Spectroscopy

Abstract

Mass spectrometry (MS) is one of the key analytical techniques to detect and to identify primary sequence differences, to assess similarity and to evaluate batch variability of reference monoclonal antibodies (mAbs). The next generation of high-resolution mass spectrometers and the early use of improved MS-based methodologies will help bring biosimilar mAbs and Fc-fusion proteins into highly regulated markets.

Published

2013

46. Analysis and characterization of aggregation of a therapeutic Fc-fusion protein

Author

Szilan Fodor, Izydor Apostol, Tian Wang, Suminda Hapuarachchi, Xinzhao Grace Jiang, Kenneth Chen, and Gang Huang

Subjects

Recombinant Fusion Proteins, Clinical Biochemistry, Pharmaceutical Science, Salt (chemistry), Peptide, Protein aggregation, medicine.disease_cause, Mass Spectrometry, Analytical Chemistry, Freezing, Drug Discovery, Protein purification, Escherichia coli, medicine, Moiety, Sulfhydryl Compounds, Spectroscopy, Inclusion Bodies, chemistry.chemical_classification, biology, Protein Stability, Temperature, Hydrogen-Ion Concentration, Immunoglobulin Fc Fragments, Fc fusion, chemistry, Biochemistry, biology.protein, Salts, Protein G, Chromatography, Liquid

Abstract

Protein aggregation was observed in a purification intermediate of a therapeutic Fc-fusion protein stored at -30 °C, even though the protein was stable at 4 and -80 °C. The protein was expressed in Escherichia coli as an inclusion body, refolded, and purified using chromatography columns. To study the nature of this aggregation, a series of experiments were conducted to investigate factors that contributed to the protein instability during freezing. We found that the presence of free thiols in the protein is the intrinsic cause. The free thiol cross-linking sites were determined to be at the peptide moiety of the Fc-fusion protein using LC-MS. Partially frozen accompanied by the elevated pH and increased salt and protein concentrations were identified as extrinsic factors that facilitated the aggregation. These results provided important insights into purification process improvement and solution storage of this Fc-fusion protein.

Published

2013

47. Antibody fragments: Prolonging circulation half-life special issue-antibody research

Author

Annabelle Patricia Herrington-Symes, Hanieh Khalili, Steve Brocchini, and Monika Farys

Subjects

Fc fusion, biology, Chemistry, PEG ratio, PEGylation, biology.protein, Half-life, General Medicine, Antibody, Virology, Molecular biology, Extravasation, Antibody fragments

Abstract

Antibodies are currently the fastest growing class of therapeutic proteins. When antibody fragments are included, there are over thirty-five antibody-based medicines approved for human therapy. Many more antibody and antibody-like fragments are being evaluated clinically. Production of antibody fragments can be efficient and their compact size can allows for better tissue extravasation into solid tumors than full antibodies. Unfortunately, a key limitation of antibody fragments for systemic use is their short half-life in circulation. Prolonging their circulation half-life can be accomplished clinically by the covalent conjugation of the antibody fragment to the water-soluble polymer, poly(ethylene glycol) (PEG). Many polymers and strategies are also being pursued to increase antibody fragment half-life.

Published

2013

48. Biochemical and functional characterization of a recombinant monomeric factor VIII–Fc fusion protein

Author

Qi Lu, John Kulman, Glenn F. Pierce, Robert T. Peters, Low Susan, Alan J. Bitonti, Garabet G. Toby, and Tongyao Liu

Subjects

Male, Protein Conformation, Protein Engineering, Mass Spectrometry, law.invention, Mice, law, hemic and lymphatic diseases, Cloning, Molecular, medicine.diagnostic_test, biology, Protein Stability, Chemistry, long-acting, Hematology, Neoplasm Proteins, Thrombelastography, Cysteine Endopeptidases, Biochemistry, Recombinant DNA, Partial Thromboplastin Time, Half-Life, Partial thromboplastin time, medicine.drug, congenital, hereditary, and neonatal diseases and abnormalities, Fc fusion, Recombinant Fusion Proteins, Context (language use), Hemophilia A, Peptide Mapping, Structure-Activity Relationship, Thrombin, Von Willebrand factor, In vivo, von Willebrand Factor, medicine, Animals, Humans, Amino Acid Sequence, Blood Coagulation, rFVIIIFc, Binding Sites, Factor VIII, Coagulation, Coagulants, Fusion protein, Immunoglobulin Fc Fragments, Disease Models, Animal, biology.protein, Ex vivo, Protein C

Abstract

Background: Hemophilia A results from a deficiency in factor VIII activity. Current treatment regimens require frequent dosing, owing to the short half-life of FVIII. A recombinant FVIII–Fc fusion protein (rFVIIIFc) was molecularly engineered to increase the half-life of FVIII, by 1.5–2-fold, in several preclinical animal models and humans. Objective: To perform a biochemical and functional in vitro characterization of rFVIIIFc, with existing FVIII products as comparators.Methods: rFVIIIFc was examined by utilizing a series of structural and analytic assays, including mass spectrometry following lysyl endopeptidase or thrombin digestion. rFVIIIFc activity was determined in both one-stage clotting (activated partial thromboplastin time) and chromogenic activity assays, in the context of the FXase complex with purified components, and in both in vitro and ex vivo rotational thromboelastometry (ROTEM) assays performed in whole blood. Results: rFVIIIFc contained the predicted primary structure and post-translational modifications, with an FVIII moiety that was similar to other recombinant FVIII products. The von Willebrand factor-binding and specific activity of rFVIIIFc were also found to be similar to those of other recombinant FVIII molecules. Both chromogenic and one-stage assays of rFVIIIFc gave similar results. Ex vivo ROTEM studies demonstrated that circulating rFVIIIFc activity was prolonged in mice with hemophilia A in comparison with B-domain-deleted or full-length FVIII. Clot parameters at early time points were similar to those for FVIII, whereas rFVIIIFc showed prolonged improvement of clot formation. Conclusions: rFVIIIFc maintains normal FVIII interactions with other proteins necessary for its activity, with prolonged in vivo activity, owing to fusion with the Fc region of IgG1.

Published

2013

49. In Situ Protein Binding Assay Using Fc-Fusion Proteins

Author

Tabrez J. Siddiqui and Nirmala Padmanabhan

Subjects

0301 basic medicine, In situ, Chemistry, Ligand binding assay, Plasma protein binding, Adhesion, Protein–protein interaction, law.invention, Dissociation constant, 03 medical and health sciences, Fc fusion, 030104 developmental biology, 0302 clinical medicine, Biochemistry, law, Recombinant DNA, 030217 neurology & neurosurgery

Abstract

This protocol describes an in situ protein-protein interaction assay between tagged recombinant proteins and cell-surface expressed synaptic proteins. The assay is arguably more sensitive than other traditional protein binding assays such as co-immunoprecipitation and pull-downs and provides a visual readout for binding. This assay has been widely used to determine the dissociation constant of binding of trans-synaptic adhesion proteins. The step-wise description in the protocol should facilitate the adoption of this method in other laboratories.

Published

2016

50. Characterization of Aggregation Propensity of a Human Fc-Fusion Protein Therapeutic by Hydrogen/Deuterium Exchange Mass Spectrometry

Author

Li Tao, Stanley R. Krystek, Adrienne A. Tymiak, Richard Y.-C. Huang, Hui Wei, Tapan K. Das, Guodong Chen, Mi Jin, Roxana E. Iacob, and John R. Engen

Subjects

0301 basic medicine, Models, Molecular, Protein Conformation, Recombinant Fusion Proteins, Mass spectrometry, 01 natural sciences, Mass Spectrometry, 03 medical and health sciences, Protein Aggregates, Biopharmaceutical industry, Structural Biology, Humans, Spectroscopy, Chromatography, Protein therapeutics, Chemistry, 010401 analytical chemistry, Deuterium Exchange Measurement, 0104 chemical sciences, Characterization (materials science), Aberrant protein, Immunoglobulin Fc Fragments, Fc fusion, 030104 developmental biology, Immunoglobulin G, Spatial aggregation, Biophysics, Hydrogen–deuterium exchange, Protein Multimerization

Abstract

Aggregation of protein therapeutics has long been a concern across different stages of manufacturing processes in the biopharmaceutical industry. It is often indicative of aberrant protein therapeutic higher-order structure. In this study, the aggregation propensity of a human Fc-fusion protein therapeutic was characterized. Hydrogen/deuterium exchange mass spectrometry (HDX-MS) was applied to examine the conformational dynamics of dimers collected from a bioreactor. HDX-MS data combined with spatial aggregation propensity calculations revealed a potential aggregation interface in the Fc domain. This study provides a general strategy for the characterization of the aggregation propensity of Fc-fusion proteins at the molecular level.Graphical Abstract.

Published

2016