Eun-A Kwak scite author profile

Fabrication of 3D biological structures reveals dynamic response to external stimuli. A liquid-crystalline bridge extrusion technique is used to generate 3D structures allowing the capture of Rayleigh-like instabilities, facilitating customization of smooth, helical, or undulating periodic surface textures. By integrating intrinsic biochemical functionality and synthetic components into controlled structures, this strategy offers a new form of adaptable materials.

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Controlled surface immobilization of viruses via site-specific enzymatic modification

Kwak

Jaworski

2013

J. Mater. Chem. B

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A unique method for the controlled attachment of viruses (or other protein based materials) to a range of surfaces is revealed through site-specific linkages engineered at the fd phage p3 protein coat. After genetic encoding of the virus coat position that is to be engineered, enzymatic modification with a formylglycine generating enzyme (FGE) affords the conversion of a single amino acid at a precise location to yield a reactive aldehyde group. By implementing this modification at a specific p3 coat position, we demonstrate the ability to control the directed immobilization of the virus selectively onto amine exposed surfaces including APTES treated glass, polymeric supports, and protein coated magnetic beads.While the immobilized virus remains stable for even a month, we also show by controlled release from the surface that liberated viruses retain their infectivity. The adaptability of this modification strategy for virus engineering is demonstrated showing great potential for bioconjugation with a range of amine functionalized chemical targets. This is expected to greatly enhance the possibilities for future virus based materials and related technologies.

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Regulation of mitochondrial fission by GIPC-mediated Drp1 retrograde transport

Ramonett

Kwak

Ahmed

et al. 2022

MBoC

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Drp1 is a key regulator of mitochondrial fission, a large cytoplasmic GTPase recruited to the mitochondrial surface via transmembrane adaptors to initiate scission. While Brownian motion likely accounts for the local interactions between Drp1 and the mitochondrial adaptors, how this essential enzyme is targeted from more distal regions like the cell periphery remains unknown. Based on proteomic interactome screening and cell-based studies, we report that GIPC mediates the actin-based retrograde transport of Drp1 towards the perinuclear mitochondria to enhance fission. Drp1 interacts with GIPC through its atypical C-terminal PDZ-binding motif. Loss of this interaction abrogates Drp1 retrograde transport resulting in cytoplasmic mislocalization and reduced fission despite retaining normal intrinsic GTPase activity. Functionally, we demonstrate that GIPC potentiates the Drp1-driven proliferative and migratory capacity in cancer cells. Together, these findings establish a direct molecular link between altered GIPC expression and Drp1 function in cancer progression and metabolic disorders.

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βIV-spectrin as a stalk cell-intrinsic regulator of VEGF signaling

et al. 2022

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Defective angiogenesis underlies over 50 malignant, ischemic and inflammatory disorders yet long-term therapeutic applications inevitably fail, thus highlighting the need for greater understanding of the vast crosstalk and compensatory mechanisms. Based on proteomic profiling of angiogenic endothelial components, here we report βIV-spectrin, a non-erythrocytic cytoskeletal protein, as a critical regulator of sprouting angiogenesis. Early loss of endothelial-specific βIV-spectrin promotes embryonic lethality in mice due to hypervascularization and hemorrhagic defects whereas neonatal depletion yields higher vascular density and tip cell populations in developing retina. During sprouting, βIV-spectrin expresses in stalk cells to inhibit their tip cell potential by enhancing VEGFR2 turnover in a manner independent of most cell-fate determining mechanisms. Rather, βIV-spectrin recruits CaMKII to the plasma membrane to directly phosphorylate VEGFR2 at Ser984, a previously undefined phosphoregulatory site that strongly induces VEGFR2 internalization and degradation. These findings support a distinct spectrin-based mechanism of tip-stalk cell specification during vascular development.

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Microfabrication of Custom Collagen Structures Capable of Guiding Cell Morphology and Alignment

2015

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The patterning of biological components into structural analogues of native tissues to simulate an environment for directing cell growth is one important strategy in biomaterials fabrication. It is widely accepted that chemical, mechanical, and topological cues from the extracellular matrix (ECM) provide important signals for guiding cells to exhibit characteristic polarity, orientation, and morphology. To fully understand the delicate relationship between cell behavior and ECM features, biomaterials fabrication requires improved techniques for tailoring nano/microstructured patterns from relevant biological building blocks rather than using nonbiological materials. Here we reveal a unique approach for the nano/microfabrication of custom patterned biomaterials using collagen as the sole building material. With this new fabrication technique, we further revealed that custom collagen patterns could direct the orientation and morphology of fibroblast growth as a function of vertex density and pattern spacing. Our findings suggest that this technique may be readily adopted for the free form fabrication of custom cell scaffolds purely from natural biological molecules including collagen, among other relevant ECM components.

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Virus-based surface patterning of biological molecules, probes, and inorganic materials

Ahn

Jeon

Kwak

et al. 2014

Colloids and Surfaces B: Biointerfaces

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Endothelial tip/stalk cell selection requires BMP9-induced β_IV-spectrin expression during sprouting angiogenesis

Ahmed

Ramonett

Kwak

et al. 2023

MBoC

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βIV-spectrin is a membrane cytoskeletal protein with specialized roles in the nervous system and heart. Recent evidence also indicates a fundamental role for βIV-spectrin in angiogenesis as its endothelial-specific gene deletion in mice enhances embryonic lethality due to hypervascularization and hemorrhagic defects. During early vascular sprouting, βIV-spectrin is believed to inhibit tip cell sprouting in favor of the stalk cell phenotype by mediating VEGFR2 internalization and degradation. Despite these essential roles, mechanisms governing βIV-spectrin expression remain unknown. Here we identify bone morphogenetic protein 9 (BMP9) as a major inducer of βIV-spectrin gene expression in the vascular system. We show that BMP9 signals through the ALK1/Smad1 pathway to induce βIV-spectrin expression, which then recruits CaMKII to the cell membrane to induce phosphorylation-dependent VEGFR2 turnover. Although BMP9 signaling promotes stalk cell behavior through activation of hallmark stalk cell genes ID-1/3 and Hes-1 and Notch signaling crosstalk, we find that βIV-spectrin acts upstream of these pathways as loss of βIV-spectrin in neonate mice leads to retinal hypervascularization due to excessive VEGFR2 levels, increased tip cell populations, and strong Notch inhibition irrespective of BMP9 treatment. These findings demonstrate βIV-spectrin as a BMP9 gene target critical for tip/stalk cell selection during nascent vessel sprouting.

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Simulation of mask induced polarization effect on imaging in immersion lithography

Kwak

Jung

Kim

et al. 2006

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The minimum feature size of the semiconductor device will be smaller and smaller because of the increasing demand for the high integration of the device. According to recently proposed roadmap, ArF immersion lithography will be used for 65 nm to 45 nm technology nodes. Polarization effect becomes a more important factor due to the increasing demand for high NA optical system and the use of immersion lithography.It is important to know that the polarization effect is induced by mask in small size patterning. The unpolarized plane waves leaving the illumination system are diffracted by the mask. So the light beam going through the mask will experience induced polarization by the mask. In this paper, we considered the change of polarization state as a function of mask properties. We calculated vector diffraction of 193 nm incident light. The masks considered are the chromeless mask, a binary chrome mask and 6 % attenuated phase shifting mask. We use the finite-difference time-domain method to solve the Maxwell equation. The aerial image depends on the polarization states induced by the mask properties such as materials, thickness, and pitch.

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Eun-A Kwak

Responsive 3D Microstructures from Virus Building Blocks

Controlled surface immobilization of viruses via site-specific enzymatic modification

Regulation of mitochondrial fission by GIPC-mediated Drp1 retrograde transport

βIV-spectrin as a stalk cell-intrinsic regulator of VEGF signaling

Microfabrication of Custom Collagen Structures Capable of Guiding Cell Morphology and Alignment

Virus-based surface patterning of biological molecules, probes, and inorganic materials

Endothelial tip/stalk cell selection requires BMP9-induced β_IV-spectrin expression during sprouting angiogenesis

Simulation of mask induced polarization effect on imaging in immersion lithography

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About

Eun-A Kwak

Responsive 3D Microstructures from Virus Building Blocks

Controlled surface immobilization of viruses via site-specific enzymatic modification

Regulation of mitochondrial fission by GIPC-mediated Drp1 retrograde transport

βIV-spectrin as a stalk cell-intrinsic regulator of VEGF signaling

Microfabrication of Custom Collagen Structures Capable of Guiding Cell Morphology and Alignment

Virus-based surface patterning of biological molecules, probes, and inorganic materials

Endothelial tip/stalk cell selection requires BMP9-induced βIV-spectrin expression during sprouting angiogenesis

Simulation of mask induced polarization effect on imaging in immersion lithography

Contact Info

Product

Resources

About

Endothelial tip/stalk cell selection requires BMP9-induced β_IV-spectrin expression during sprouting angiogenesis