Jinho Bang scite author profile

Jinho Bang

2Publications

9Citation Statements Received

77Citation Statements Given

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Affiliations

Korea Institute of Ceramic Engineering and Technology

Publications

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Purification of Therapeutic Antibodies Using the Ca²⁺-Dependent Phase-Transition Properties of Calsequestrin

et al. 2022

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Affinity chromatography utilizing specific interactions between therapeutic proteins and bead-immobilized capturing agents is a standard method for protein purification, but its scalability is limited by long purification times, activity loss by the capturing molecules and/or purified protein, and high costs. Here, we report a platform for purifying therapeutic antibodies via affinity precipitation using the endogenous calcium ion-binding protein, calsequestrin (CSQ), which undergoes a calcium ion-dependent phase transition. In this method, ZZ-CSQ fusion proteins with CSQ and an affinity protein (Z domain of protein A) capture antibodies and undergo multimerization and subsequent aggregation in response to calcium ions, enabling the antibody to be collected by affinity precipitation. After robustly validating and optimizing the performance of the platform, the ZZ-CSQ platform can rapidly purify therapeutic antibodies from industrial harvest feedstock with high purity (>97%) and recovery yield (95% ± 3%). In addition, the ZZ-CSQ platform outperforms protein A-based affinity chromatography (PAC) in removing impurities, yielding ∼20-fold less DNA and ∼4.8-fold less host cell protein (HCP) contamination. Taken together, this platform is rapid, recyclable, scalable, and cost-effective, and it shows antibody-purification performance superior or comparable to that of the standard affinity chromatography method.

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Selection and identification of a novel bone-targeting peptide for biomedical imaging of bone

Bang

Park

Yoo

et al. 2020

Sci Rep

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The global burden of bone-related diseases is increasing in the aging society; thus, improved bone targeted imaging for their early identification and treatment are needed. In this study, we screened novel peptide ligands for hydroxyapatite, a major inorganic component of teeth and bones, and identified a peptide enabling in vivo bone targeting and real-time fluorescence bone detection. To isolate peptides highly specific for hydroxyapatite, we used negative and positive selection from a randomized 8-mer peptide phage library and identified hydroxyapatite-specific peptides (HA-pep2, HA-pep3, and HA-pep7). Among these three peptides, HA-pep3 showed the highest binding capacity and superior dissociation constant towards hydroxyapatite surfaces over time (~ 88.3% retained on hydroxyapatite after two weeks). Furthermore, HA-pep3 was highly specific for hydroxyapatite compared to other calcium salt-based materials. Using this superior specificity, HA-pep3 showed higher accumulation in skull, spine, and joints in comparison with scrambled control peptide during real-time whole-body imaging. Ex vivo analysis of the major organs and bone from mice demonstrated that the fluorescence intensity in bone was about 3.32 folds higher in the case of HA-pep3 than the one exhibited by the scrambled control peptide. Our study identified a novel approach for targeting ligands for bone specific imaging and can be useful for drug delivery applications.

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Jinho Bang

Purification of Therapeutic Antibodies Using the Ca²⁺-Dependent Phase-Transition Properties of Calsequestrin

Selection and identification of a novel bone-targeting peptide for biomedical imaging of bone

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Jinho Bang

Purification of Therapeutic Antibodies Using the Ca2+-Dependent Phase-Transition Properties of Calsequestrin

Selection and identification of a novel bone-targeting peptide for biomedical imaging of bone

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Product

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Purification of Therapeutic Antibodies Using the Ca²⁺-Dependent Phase-Transition Properties of Calsequestrin