Protein PEGylation for the design of biobetters: from reaction to purification processes

Santos, João H. P. M.; Torres-Obreque, Karin Mariana; Meneguetti, Giovanna Pastore; Amaro, Beatriz Panichi; Rangel-Yagui, Carlota de Oliveira

doi:10.1590/s2175-97902018000001009

Cited by 33 publications

(30 citation statements)

References 83 publications

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“…In contrast to foreign proteins modified with multiple, short PEG molecules, many pegylated biopharmaceutics are derived from human proteins and are conjugated with one long linear or branched PEG chain. [2] PEG-EPO is a good example of such a drug: it is derived from human erythropoietin and is modified with a single linear 30 kDa PEG chain. Until now, there is no evidence that the infusion of PEG-EPO induces the formation of new anti-PEG antibodies in human patients.…”

Section: Discussionmentioning

confidence: 99%

“…At least twenty pegylated drugs have been approved by the FDA ( Table 1) and dozens of pegylated medicines are in different stages of clinical development [1]. Pegylation ranges from the random attachment of multiple short PEG chains in drugs such as Adagen (11~17 5 kDa PEG molecules) and Oncaspar (69~82 5 kDa PEG molecules) to the site-specific introduction of a single long PEG chain in drugs such as Plegridy (20 kDa PEG) and Jivi (60 kDa branched PEG) [2][3][4][5]. The attachment of a single long linear or branched PEG chain has become the standard for recent pegylated medicines [1].…”

Section: Introductionmentioning

confidence: 99%

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Both IgM and IgG Antibodies against Polyethylene Glycol Can Alter the Biological Activity of Methoxy Polyethylene Glycol-Epoetin Beta in Mice

et al. 2019

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Pre-existing antibodies that bind polyethylene glycol are present in about 40% of healthy individuals. It is currently unknown if pre-existing anti-polyethylene glycol (PEG) antibodies can alter the bioactivity of pegylated drugs with a single long PEG chain, which represents the majority of newly developed pegylated medicines. Methoxy polyethylene glycol-epoetin beta (PEG-EPO) contains a single 30 kDa PEG chain and is used to treat patients suffering from anemia. We find that the pre-existing human anti-PEG IgM and IgG antibodies from normal donors can bind to PEG-EPO. The prevalence and concentrations of anti-PEG IgM and IgG antibodies were also higher in patients that responded poorly to PEG-EPO. Monoclonal anti-PEG IgM and IgG antibodies at concentrations found in normal donors blocked the biological activity of PEG-EPO to stimulate the production of new erythrocytes in mice and accelerated the clearance of 125 I-PEG-EPO, resulting in PEG-EPO accumulation primarily in the liver and spleen. Accelerated clearance by the anti-PEG IgG antibody was mediated by the Fc portion of the antibody. Importantly, infusing higher doses of PEG-EPO could compensate for the inhibitory effects of anti-PEG antibodies, suggesting that pre-existing anti-PEG antibodies can be "dosed through." Our study indicates that the bioactivity and therapeutic activity of PEG-EPO may be reduced in patients with elevated levels of pre-existing anti-PEG antibodies. New pegylated medicines with a single long PEG chain may also be affected in patients with high levels of anti-PEG antibodies.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Both IgM and IgG Antibodies against Polyethylene Glycol Can Alter the Biological Activity of Methoxy Polyethylene Glycol-Epoetin Beta in Mice

et al. 2019

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“…To overcome this problem, the C-terminal part of the Fab′ fragment has been covalently fused to a single 40 kDa PEG molecule. PEG is a biocompatible polymer used to enhance the pharmacokinetics of small therapeutic proteins 11 , 12 . The PEG polymer, as a conjugate, confers some advantages to proteins such as increasing half-life, hydrodynamic volume and solubility, while PEGylation harbors disadvantages including immunogenicity, hypersensitivity, vacuolation, decreased binding affinity and biological activity due to the shielding effect and increased viscosity of the sample (reviewed by Zhang et al . )…”

Section: Introductionmentioning

confidence: 99%

Improvement of Certolizumab Fab′ properties by PASylation technology

Mazaheri

Talebkhan

Mahboudi

et al. 2020

Sci Rep

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Certolizumab pegol is a Fab′ antibody fragment for treatment of rheumatoid arthritis and Crohn’s disease which is conjugated to a 40 kDa PEG molecule in order to increase the protein half-life. PEGylation may have disadvantages including immunogenicity, hypersensitivity, vacuolation, decreased binding affinity and biological activity of the protein. To overcome these problems, PASylation has been developed as a new approach. The nucleotide sequence encoding 400 amino acid PAS residues was genetically fused to the corresponding nucleotide sequences of both chains of certolizumab. Then, the bioactivity as well as physicochemical and pharmacokinetic properties of the recombinant PASylated expressed protein was assayed. Circular dichroism spectroscopy demonstrated that the random coil structure of PAS sequences did not change the secondary structure of the PASylated Fab′ molecule. It was observed that PASylation influenced the properties of the Fab′ molecule by which the hydrodynamic radius and neutralization activity were increased. Also, the antigen binding and binding kinetic parameters improved in comparison to the PEGylated Fab′ antibody. Pharmacokinetic studies also showed prolonged terminal half-life and improved pharmacokinetic parameters in PASylated recombinant protein in comparison to the PEGylated and Fab′ control molecules. The results reconfirmed the efficiency of PASylation approach as a potential alternative method in increasing the half-life of pharmaceutical proteins.

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“…It has advantage that usually protein N‐terminal groups have lower p Ka values (∼7.5–8.0) than lysine residues (∼10.5). Thus, the reaction is carried out under pH conditions in which the lysine residues are protonated, whereas the N‐terminal amino group is predominantly deprotonated and available for conjugation with the polymer . NHS ester of succinate of mPEG and NHS ester of carbonate of mPEG are the main agents to N‐terminal PEGylated proteins production …”

Section: Introductionmentioning

confidence: 99%

Production of a novel N‐terminal PEGylated crisantaspase

Torres-Obreque

Meneguetti

Custodio

et al. 2019

Biotech and App Biochem

Self Cite

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Crisantaspase is an asparaginase enzyme produced by Erwinia chrysanthemi and used to treat acute lymphoblastic leukemia (ALL) in case of hypersensitivity to Escherichia coli L-asparaginase (ASNase). The main disadvantages of crisantaspase are the short half-life (10 H) and immunogenicity. In this sense, its PEGylated form (PEG-crisantaspase) could not only reduce immunogenicity but also improve plasma half-life. In this work, we developed a process to obtain a site-specific N-terminal PEGylated crisantaspase (PEG-crisantaspase). Crisantaspase was recombinantly expressed in E. coli BL21(DE3) strain cultivated in a shaker and in a 2-L bioreactor. Volumetric productivity in bioreactor increased 37% compared to shaker conditions (460 and 335 U L −1 H −1 , respectively). Crisantaspase was extracted by osmotic shock and purified by cation exchange chromatography, presenting specific activity of 694 U mg −1 , 21.7 purification fold, and yield of 69%. Purified crisantaspase was PEGylated with 10 kDa methoxy polyethylene glycol-N-hydroxysuccinimidyl (mPEG-NHS) at different pH values (6.5-9.0). The highest N-terminal pegylation yield (50%) was at pH 7.5 with the lowest poly-PEGylation ratio (7%). PEG-crisantaspase was purified by size exclusion chromatography and presented a K M value three times higher than crisantaspase (150 and 48.5 µM, respectively). Nonetheless, PEG-crisantaspase was found to be more stable at high temperatures and over longer periods of time. In 2 weeks, crisantaspase lost 93% of its specific activity, whereas PEG-crisantaspase was stable for 20 days. Therefore, the novel PEG-crisantaspase enzyme represents a promising biobetter alternative for the treatment of ALL.

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Protein PEGylation for the design of biobetters: from reaction to purification processes

Cited by 33 publications

References 83 publications

Both IgM and IgG Antibodies against Polyethylene Glycol Can Alter the Biological Activity of Methoxy Polyethylene Glycol-Epoetin Beta in Mice

Both IgM and IgG Antibodies against Polyethylene Glycol Can Alter the Biological Activity of Methoxy Polyethylene Glycol-Epoetin Beta in Mice

Improvement of Certolizumab Fab′ properties by PASylation technology

Production of a novel N‐terminal PEGylated crisantaspase

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