Publications by authors named "Yeu Chun Kim"

Human cells, such as fibroblasts and particularly human mesenchymal stem cells (hMSCs), represent a promising and effective therapeutic tool for a range of cell-based therapies used to treat various diseases. The effective delivery of therapeutic cells remains a challenge due to limitations in targeting, invasiveness, and cell viability. To address these challenges, we developed a microneedle (MN) system for minimally invasive cell delivery with high cellular stability.

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Multidrug resistance (MDR) is a major obstacle to traditional cancer treatment using chemotherapeutic agents like doxorubicin (DOX). MDR affects drug dosage regimens and enables the recurrence and metastasis of cancer. Because DOX causes severe side effects at high dosages, it is important to use an MDR modulator to make cancer cells sensitive to DOX.

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Type I interferons (IFNs) are essential for activating dendritic cells (DCs) and presenting tumor-associated antigens to T cells. IFNs are primarily produced from DCs among immune cells. A combination of chemotherapy and metalloimmunotherapy induces IFN production by activating the cyclic GMP-AMP synthase-stimulator of interferon genes (cGAS-STING) pathway.

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Article Synopsis
  • Recent research shows that nitric oxide (NO) can trigger immunogenic cell death (ICD) in tumor cells by causing stress in the endoplasmic reticulum (ER) and destabilizing the mitochondrial membrane.
  • Because NO is unstable, the study introduces a new delivery method using a cell-penetrating polypeptide called poly(l-guanidine) (PLG), which can generate NO inside cells.
  • The helical structure of PLG not only penetrates cells but also creates reactive oxygen species (ROS) that lead to the production of NO, effectively inducing ICD through combined mechanisms involving ER stress and mitochondrial disruption.
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Liposomes are applied to various anticancer treatments as representative drug delivery carriers. However, liposomes do not have their own targeting properties; therefore, there are limitations in drug delivery to specific tissues or cells. High targetability in drug delivery is an important factor in improving bioavailability and drug efficacy and reducing side effects; recent research has been actively investigated to modify the surface of liposomes to give them specific functions.

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Anticancer chemo-immunotherapy has gained considerable attention across various scientific domains as a prospective approach for the comprehensive eradication of malignant tumors. Recent research has particularly been focused on traditional anthracycline chemo drugs, such as doxorubicin and mitoxantrone. These compounds trigger apoptosis in tumor cells and evoke immunogenic cell death (ICD).

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Immunogenic cell death (ICD) holds the potential for in situ tumor vaccination while concurrently eradicating tumors and stimulating adaptive immunity. Most ICD inducers, however, elicit insufficient immune responses due to negative feedback against ICD biomarkers, limited infiltration of antitumoral immune cells, and the immunosuppressive tumor micro-environment (TME). Recent findings highlight the pivotal roles of stimulators of interferon gene (STING) activation, particularly in stimulating antigen-presenting cells (APCs) and TME reprogramming, addressing ICD limitations.

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Immunogenic cell death (ICD) has emerged as a promising approach to cancer immunotherapy. During ICD, cancer cell death and the release of damage-associated molecular pattern (DAMP) signals occur simultaneously. Increased production of reactive oxygen species (ROS) and severe endoplasmic reticulum stress are necessary for enhanced ICD.

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The discovery and implementation of media that derive from bioinspired designs and bear optical readouts featuring large Stokes shifts are of continued interest to a wide variety of researchers and clinicians. Myco-F, a novel mycophenolic acid precursor-based probe features a cleavable -butyldimethylsiloxy group to allow for fluoride detection. Myco-F exhibits high selectivity and specificity towards F (Stokes shift = 120 nm).

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Even though chemotherapy regimens for treating cancer by inducing apoptosis are extensively utilized, their therapeutic effect is hindered by multiple limitations. Thus, a combination of other types of anticancer modalities is urgently needed. Herein, a tannic acid (TA)-Fe-coated doxorubicin (DOX)-encapsulated 1,2-distearoyl--glycero-3-phosphoethanolamine--[methoxy(poly(ethylene glycol))-2000] (ammonium salt) (DSPE-PEG) micelle (TFDD) for apoptosis/ferroptosis-mediated immunogenic cell death (ICD) is reported.

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Synthesis, design, characterization, and application of carbon-based nanostructures (CBNSs) as drug carriers have attracted a great deal of interest over the past half of the century because of their promising chemical, thermal, physical, optical, mechanical, and electrical properties and their structural diversity. CBNSs are well-known in drug delivery applications due to their unique features such as easy cellular uptake, high drug loading ability, and thermal ablation. CBNSs, including carbon nanotubes, fullerenes, nanodiamond, graphene, and carbon quantum dots have been quite broadly examined for drug delivery systems.

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Antigen delivery through an oral route requires overcoming multiple challenges, including gastrointestinal enzymes, mucus, and epithelial tight junctions. Although each barrier has a crucial role in determining the final efficiency of the oral vaccination, transcytosis of antigens through follicle-associated epithelium (FAE) represents a major challenge. Most of the research is focused on delivering an antigen to the M-cell for FAE transcytosis because M-cells can easily transport the antigen from the luminal site.

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Immunogenic cell death (ICD) is a key factor for generating antitumor immunity. Endoplasmic reticulum (ER) stress triggers the release of damage-associated molecular patterns (DAMPs), thus inducing immunogenicity. We developed a polypeptide-based K ionophore that perturbed ion homeostasis and elicited a prolonged ER stress.

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Introduction: Antimicrobial peptides are potential therapeutics as anti-bacteria, anti-viruses, anti-fungi, or anticancers. However, they suffer from a short half-life and drug resistance which limit their long-term clinical usage.

Methods: Herein, we captured the encapsulation of antimicrobial peptide HA-FD-13 into boron nitride nanotube (BNNT) (20,20) and its release due to subsequent insertion of BNNT (14,14) with molecular dynamics simulation.

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Despite the potential of photothermal therapy (PTT) for cancer treatments, PTT alone has limitations in treating metastatic tumors and preventing tumor recurrence, highlighting the need to combine PTT with immunotherapy. This study reports tumor microenvironment (TME)-targeting, near-infrared (NIR) dye derivative-based nanomedicine for effective combined PTT-immunotherapy. Amphiphilic NIR dye cyanine derivatives are used not only for constructing the nanoparticle mass, but also for creating a stable complex with CpG adjuvant; a peptide specific to fibronectin extra domain B (APT) is also introduced as a TME-targeting ligand, yielding the TME-targeting nanomedicine, APT-cyNP@CpG.

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Herein, a bile acid-inspired triple padlock oral gene delivery platform is developed, facilitating the protection of the therapeutic gene from gastrointestinal degradation, selective intestinal accumulation through a bile acid-specific transporter, and transportation of pDNA NPs through the enterohepatic recycling system. This nonviral oral gene delivery nanoparticle exhibits excellent gene expression kinetics in , , and studies. A single oral dose leads to maintaining normoglycemia for up to 7 days in three different diabetes mouse models and 14 days in diabetic monkeys.

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Human enterokinase light chain (hEK) specifically cleaves the sequence (Asp)-Lys↓X (DK), making this a frequently used enzyme for site-specific cleavage of recombinant fusion proteins. However, hEK production from is limited due to intramolecular disulphide bonds. Here, we present strategies to obtain soluble and active hEK from by expressing the hEK variant C112S fused with maltose-binding protein (MBP) through DK and molecular chaperons including GroEL/ES.

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Immunogenic cell death (ICD) is distinguished by the release of tumor-associated antigens (TAAs) and danger-associated molecular patterns (DAMPs). This cell death has been studied in the field of cancer immunotherapy due to the ability of ICD to induce antitumor immunity. Herein, endoplasmic reticulum (ER) stress-mediated ICD inducing fluorinated mitochondria-disrupting helical polypeptides (MDHPs) are reported.

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Vitamin D plays an important role in many physiological processes, particularly calcium and phosphorous homeostasis. The biochemistry of vitamin D is also complex, encompassing a range of active molecules that may be either endogenous or dietary in origin. The role of lipids and fats in the production, processing and use of vitamin D is an interesting one, with a relative paucity of model studies into the interactions of vitamin D with lipidic systems such as micelles and vesicles.

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The strategy of co-loading therapeutic agents in a single nanocarrier is the most common method in theranostic cancer research. However, it is still challenging to encapsulate theranostic agents that have different physicochemical properties in a single nanocarrier system because of the immiscibility between the hydrophobic fluorescent molecule and the hydrophilic drug molecule. Thus, we report a novel concept of a theranostic nanoparticle (NP) consisting of an amphiphilic near-infrared (NIR) dye as a hydrophilic drug delivery carrier with enhanced NIR imaging capability.

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Branched polymers as drug delivery carriers have been widely attempted due to their outstanding drug loading capability and complex stability like branched polyethyleneimine (B-PEI). However, branched polymers without biodegradability may cause toxicity as they can accumulate in the body. Herein, we report branched modified nona-arginine (B-mR9) composed of redox-cleavable disulfide bonds to form stable complexes with methotrexate (MTX) as an anticancer agent, which is further coated with hyaluronic acid (HA).

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Background: Growth factors (GFs) are signaling proteins that affect cellular processes such as growth, proliferation, and differentiation. GFs are used as cosmeceuticals, exerting anti-wrinkle, anti-aging, and whitening effects, and also as pharmaceuticals to treat wounds, growth failure, and oral mucositis. However, in mammalian and bacterial cells, low productivity and expression in inclusion bodies, respectively, of GFs does not satisfy the consumer demand.

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Recent technical advances related to the CRISPR/Cas9-based genome editing system have enabled sophisticated genome editing in microalgae. Although the demand for research on genome editing in microalgae has increased over time, methodological research has not been established to date for the delivery of a ribonucleoprotein (Cas9/sgRNA complex) using a cell penetrating peptide into microalgal cell lines. Here, we present a ribonucleoprotein delivery system for Chlamydomonas reinhardtii mediated by the cell penetrating peptide pVEC (LLIILRRRIRKQAHAHSK) which is in a non-covalent form.

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Near-infrared (NIR)-induced dye-based theranostic drug delivery carriers are used for critical image-guided chemo-photothermal cancer therapy. However, most carriers fail to deliver sufficient heat and fluorescence efficiently due to direct π-π stacking of the aromatic rings of the NIR dye and drug. In the work reported herein, we examined a self-assembled heptamethine cyanine dye dimer (CyD) with improved heat and fluorescence delivery that was developed by manipulating the unique structural and optical properties of the dimer.

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Keloids are induced by skin injuries such as surgeries, skin piercings, burns, and trauma. The intra-lesional injection of 5-fluorouracil (5-FU) is a promising therapy to treat keloid. However, local 5-FU injections have caused several side effects such as pain at administration and hyperpigmentation.

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