Aqueous Stability of Recombinant Human Thrombopoietin as a Function of Processing Schemes

Senderoff, Richard I.; Kontor, Kathleen M.; Heffernan, Jane K.; Clarke, Holly J.; Garrison, L.; Kreilgaard, Lotte; Lasser, Gerald W.; Rosenberg, Gary B.

doi:10.1021/js950377g

Cited by 8 publications

(8 citation statements)

References 13 publications

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“…Also, during process development and optimization, changes in bioreactor operating parameters and downstream harvesting and purification methods can have a dramatic effect on the N-glycan structures in the final product 10-14. Storage conditions of process intermediates and even final vialed product can also affect the glycan profile 1,15-17. Therefore, it is essential to ensure consistency of glycosylation, particularly sialylated glycans.…”

Section: Introductionmentioning

confidence: 99%

High Throughput Quantification of N-Glycans Using One-Pot Sialic Acid Modification and Matrix Assisted Laser Desorption Ionization Time-of-Flight Mass Spectrometry

et al. 2010

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Appropriate glycosylation of recombinant therapeutic glycoproteins has been emphasized in biopharmaceutical industries because the carbohydrate component can affect safety, efficacy, and consistency of the glycoproteins. Reliable quantification methods are essential to ensure consistency of their products with respect to glycosylation, particularly sialylation. Mass spectrometry (MS) has become a popular tool to analyze glycan profiles and structures, showing high resolution and sensitivity with structure identification ability. However, quantification of sialylated glycans using MS is not as reliable because of the different ionization efficiency between neutral and acidic glycans. We report here that amidation in mild acidic conditions can be used to neutralize acidic N-glycans still attached to the protein. The resulting amidated N-glycans can then released from the protein using PNGase F, and labeled with permanent charges on the reducing end to avoid any modification and the formation of metal adducts during MS analysis. The N-glycan modification, digestion, and desalting steps were performed using a single-pot method that can be done in microcentrifuge tubes or 96-well microfilter plates, enabling high throughput glycan analysis. Using this method we were able to perform quantitative MALDI-TOF MS of a recombinant human glycoprotein to determine changes in fucosylation and changes in sialylation that were in very good agreement with a normal phase HPLC oligosaccharide mapping method.

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Section: Introductionmentioning

confidence: 99%

High Throughput Quantification of N-Glycans Using One-Pot Sialic Acid Modification and Matrix Assisted Laser Desorption Ionization Time-of-Flight Mass Spectrometry

et al. 2010

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“…In addition to the process‐related impurities, contaminants can be brought into the final DS preparations through any of the above processes. The difference in the type and level of impurities or contaminants in different protein preparations could explain the different extent and mechanism of degradation for recombinant human thrombopoietin (rhTPO), and different aggregation behaviors of three commercially holo‐α‐lactalbumin products—Sigmaα‐La, IEXα‐La, and Cα‐La, at different pHs …”

Section: Drug Substance Manufacturingmentioning

confidence: 99%

“…In contrast, presence of residual proteases in the DS can significantly influence the long‐term storage stability depending on their level in the preparations . Rapid protease‐catalyzed hydrolysis was observed for affinity‐purified rhTPO at pH 6–8, and a Chinese hamster ovary‐derived high‐purity human IgG1 mAb . The carboxypeptidase‐catalyzed C‐terminal lysine clipping in mAb's leads to charge heterogeneity, which may potentially impact the protein stability, as the number of charges in mAb's plays a role in protein aggregation .…”

Section: Drug Substance Manufacturingmentioning

confidence: 99%

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Impact of Residual Impurities and Contaminants on Protein Stability

Wang

Arunkumar

Thakkar

2014

Journal of Pharmaceutical Sciences

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“…This complicates the recombinant production and purification of homogeneous protein preparations having the desired biological and physicochemical characteristics. 1,2 Our studies involving glucagon-like peptide-1 (GLP-1) address these issues and illustrate the importance of physicochemical characterization in support of process development (in addition to formulation and analytical development) of recombinant proteins and peptides.…”

mentioning

confidence: 99%

Consideration of Conformational Transitions And Racemization During Process Development of Recombinant Glucagon-Like Peptide-1

Senderoff

Kontor

Kreilgaard

et al. 1998

Journal of Pharmaceutical Sciences

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Physicochemical characterization of dry, excipient-free recombinant glucagon-like peptide-1 (rGLP-1) indicates the conformation and purity of the bulk peptide is dependent on the purification scheme and the in-process storage and handling. The recombinant peptide preparations were highly pure and consistent with the expected primary structure and bioactivity. However, variations in solubility were observed for preparations processed by different methods. The differences in solubility were shown to be due to conformational differences induced during purification. A processing scheme was identified to produce rGLP-1 in its native, soluble form, which exhibits FT-IR spectra, consistent with glucagon-like peptide-1 synthesized by solid-state peptide synthesis. rGLP-1 was also found to undergo base-catalyzed amino acid racemization. Racemization can impact the yield and impurity profile of bulk rGLP-1, since the peptide is exposed to alkali during its purification. A combination of enzymatic digestion using leucine aminopeptidase (which cleaves N-terminal L-amino acids >> D-amino acids) and matrix-assisted laser desorption ionization mass spectrometry was used to identify racemization as a degradation pathway. The racemization rate increased with increasing temperature and base concentration, but decreased with increasing peptide concentration. The racemized peptides were shown to be less bioactive than rGLP-1.

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Aqueous Stability of Recombinant Human Thrombopoietin as a Function of Processing Schemes

Cited by 8 publications

References 13 publications

High Throughput Quantification of N-Glycans Using One-Pot Sialic Acid Modification and Matrix Assisted Laser Desorption Ionization Time-of-Flight Mass Spectrometry

High Throughput Quantification of N-Glycans Using One-Pot Sialic Acid Modification and Matrix Assisted Laser Desorption Ionization Time-of-Flight Mass Spectrometry

Impact of Residual Impurities and Contaminants on Protein Stability

Consideration of Conformational Transitions And Racemization During Process Development of Recombinant Glucagon-Like Peptide-1

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