Hong Jai Lee scite author profile

A common problem with the in vivo therapeutic applications of cells is that cells can rapidly disappear into the circulatory system after an injection. Magnetic nanoparticles can be used to solve this problem. Bacterial magnetic nanoparticles were used in this study for targeting stem cells at a specific location within a microfluidic channel. Magnetic nanoparticles were isolated from Magnetospirillum sp. AMB-1 and delivered to endothelial progenitor cells (EPCs). Cellular uptake of magnetic nanoparticles and their functional feasibility was characterized in vitro. The environment of a human blood vessel was simulated using a microfluidic channel. Magnetic nanoparticle-incorporated EPCs were injected into a microchannel and the flow rate of cells was uniformly controlled by use of a syringe pump. EPCs were effectively targeted to a specific location within the microchannel by an external magnetic field (about 400 mT). About 40% of EPCs were efficiently targeted with a flow rate of 5 microl min(-1) when 10 microg of magnetic nanoparticles were used per 10(4) cells. This microfluidic system provides a useful tool towards a better understanding of the behavior of magnetic nanoparticle-incorporated cells within the human circulatory system for clinical use.

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Enzyme delivery using the 30Kc19 protein and human serum albumin nanoparticles

Lee

Park

Kim

et al. 2014

Biomaterials

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Soluble expression and stability enhancement of transcription factors using 30Kc19 cell-penetrating protein

Ryu

Park

et al. 2015

Appl Microbiol Biotechnol

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Transcription factors have been studied as an important drug candidate. Ever since the successful generation of induced pluripotent stem cells (iPSCs), there has been tremendous interest in reprogramming transcription factors. Because of the safety risks involved in a virus-based approach, many researchers have been trying to deliver transcription factors using nonintegrating materials. Thus, delivery of transcription factors produced as recombinant proteins in E. coli was proposed as an alternative method. However, the low level of soluble expression and instability of such recombinant proteins are potential barriers. We engineered a Bombyx mori 30Kc19 protein as a fusion partner for transcription factors to overcome those problems. We have previously reported that 30Kc19 protein can be produced as a soluble form in E. coli and has a cell-penetrating property and a protein-stabilizing effect. Transcription factors fused with 30Kc19 (Oct4-30Kc19, Sox2-30Kc19, c-Myc-30Kc19, L-Myc-30Kc19, and Klf4-30Kc19) were produced as recombinant proteins. Interestingly, Oct4 and L-Myc were expressed as a soluble form by conjugating with 30Kc19 protein, whereas Oct4 alone and L-Myc alone aggregated. The 30Kc19 protein also enhanced the stability of transcription factors both in vitro and in cells. In addition, 30Kc19-conjugated transcription factors showed rapid delivery into cells and transcriptional activity significantly increased. Overall, 30Kc19 protein conjugation simultaneously enhanced soluble expression, stability, and transcriptional activity of transcription factors. We propose that the conjugation with 30Kc19 protein is a novel approach to solve the technical bottleneck of gene regulation using transcription factors.

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Protein‐stabilizing and cell‐penetrating properties of α‐helix domain of 30Kc19 protein

Ryu

Kim

Park

et al. 2016

Biotechnology Journal

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The protein‐stabilizing and cell‐penetrating activities of Bombyx mori 30Kc19 α‐helix domain (30Kc19α) are investigated. Recently, 30Kc19 protein has been studied extensively as it has both protein‐stabilizing and cell‐penetrating properties. However, it is unknown which part of 30Kc19 is responsible for those properties. 30Kc19 protein is composed of two distinct domains, an α‐helix N‐terminal domain (30Kc19α) and a β‐trefoil C‐terminal domain (30Kc19β). The authors construct and produce truncated forms of 30Kc19 to demonstrate their biological functions. Interestingly, 30Kc19α was shown to be responsible for both the protein‐stabilizing and cell‐penetrating properties of 30Kc19 protein. 30Kc19α shows even higher protein delivery activity than did whole 30Kc19 protein and has low cytotoxicity when added to cell culture medium. Therefore, based on its multifunctional properties, 30Kc19α can be developed as a novel candidate for a therapeutic protein carrier into various cells and tissues.

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Identification and characterization of a novel cell-penetrating peptide of 30Kc19 protein derived from Bombyx mori

Park

Sohn

Yeo

et al. 2014

Process Biochemistry

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Hong Jai Lee

The targeting of endothelial progenitor cells to a specific location within a microfluidic channel using magnetic nanoparticles

Enzyme delivery using the 30Kc19 protein and human serum albumin nanoparticles

Soluble expression and stability enhancement of transcription factors using 30Kc19 cell-penetrating protein

Protein‐stabilizing and cell‐penetrating properties of α‐helix domain of 30Kc19 protein

Identification and characterization of a novel cell-penetrating peptide of 30Kc19 protein derived from Bombyx mori

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