Dec 27, 2021

Using hiPSC-CMs to Examine Mechanisms of Catecholarminergic Polymorphic Ventricular Tachycardia

Dec 27, 2021

The integration of nanotopographic patterns with hiPSC-CM culture have been shown to induce structural and phenotypic development of hiPSC-CM monolayers by enhancing cytoskeletal organization and cellular alignment and providing greater sensitivity to conduction-blocking compounds and overall dose-response relationships (Carson et al., 2016; Smith et al., 2020). The NanoSurface platform by Curi Bio (Seattle, WA) can be used as a versatile platform for enhancing the structural development of cells and improving their physiological relevance in disease modeling. Culturing hiPSC-CMs on nanopatterned 25-mm coverslips (e.g., Curi Bio ANFSCS25) placed in a 6-well plate may facilitate the development of CPVT-specific cell morphology characteristics related to dyadic ultrastructure and contractile function through hiPSC-CM maturation.

Originally Published in: Current Protocols (2021) (Link to Paper)

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Dec 27, 2021

Mar 11, 2021

Microtubules orchestrate local translation to enable cardiac growth

Mar 11, 2021

Hypertension, exercise, and pregnancy are common triggers of cardiac remodeling, which occurs primarily through the hypertrophy of individual cardiomyocytes. During hypertrophy, stress-induced signal transduction increases cardiomyocyte transcription and translation, which promotes the addition of new contractile units through poorly understood mechanisms. The cardiomyocyte microtubule network is also implicated in hypertrophy, but via an unknown role. Here, we show that microtubules are indispensable for cardiac growth via spatiotemporal control of the translational machinery. We find that the microtubule motor Kinesin-1 distributes mRNAs and ribosomes along microtubule tracks to discrete domains within the cardiomyocyte. Upon hypertrophic stimulation, microtubules redistribute mRNAs and new protein synthesis to sites of growth at the cell periphery. If the microtubule network is disrupted, mRNAs and ribosomes collapse around the nucleus, which results in mislocalized protein synthesis, the rapid degradation of new proteins, and a failure of growth, despite normally increased translation rates. Together, these data indicate that mRNAs and ribosomes are actively transported to specific sites to facilitate local translation and assembly of contractile units, and suggest that properly localized translation – and not simply translation rate – is a critical determinant of cardiac hypertrophy.

Originally Published in: Nature Communications (2021) (Link to Paper)

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Mar 11, 2021

Sep 4, 2020

Infarct Collagen Topography Regulates Fibroblast Fate via p38-Yes-Associated Protein Transcriptional Enhanced Associate Domain Signals

Sep 4, 2020

This study confirmed that focal adhesions transduce physical signals from topographical cues in the ECM into changes in cellular migration. Also, that aligned collagen organization induced myofibroblast differentiation, with a concomitant upregulation in myofibroblast-specific ECM genes like Postn and FnEDa.

Source: Darrian Bugg, Ross Bretherton, Peter Kim, Emily Olszewski, Abigail Nagle, Austin E. Schumacher, Nick Chu, Jagadambika Gunaje, Cole A. DeForest, Kelly Stevens, Deok-Ho Kim, Jennifer Davis. Infarct Collagen Topography Regulates Fibroblast Fate via p38-Yes-Associated Protein Transcriptional Enhanced Associate Domain Signals. Circulation Research, October 2020 (Link to Paper)

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Sep 4, 2020

Aug 24, 2020

A Live Cell Reporter of Exosome Secretion and Uptake Reveals Pathfinding Behavior of Migrating Cells

Aug 24, 2020

Small extracellular vesicles called exosomes affect multiple autocrine and paracrine cellular phenotypes and this study reports on a new fluorescent tool that allows for live imaging of cell migration. Researchers used this tool to visualize secreted exosomes in 3D culture and in vivo and identify a role for exosomes in promoting leader–follower behavior in 2D and 3D migration. Growing their cultures on nanopatterned plates allowed easy visualization of whether exosomes were secreted from the front or back of migrating cells, something impossible to determine on standard tissue culture plates. This new tool can now be used to understand a wide variety of roles for exosomes across tissue types.

Originally Published in: Nature Communications (2020) (Link to Paper)

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Aug 24, 2020

May 13, 2020

Cellular Locomotion Using Environmental Topography

May 13, 2020

This publication demonstrates that cells can transmit forces by coupling the retrograde flow of actin to a geometrically irregular environment, and that this can happen in the complete absence of any transmembrane receptors that link the cytoskeleton to the substrate.

Source: Reversat, A., Gaertner, F., Merrin, J. et al. Cellular locomotion using environmental topography. Nature 582, 582–585 (2020). (Link to Paper)

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May 13, 2020

May 9, 2020

Mechanical Tension in Syndecan-1 is Regulated by Extracellular Mechanical Cues and Fluidic Shear Stress

May 9, 2020

This study demonstarted that the mechanical tension across cell surface proteins is responsive to changes in substrate stiffness, nanotopographical cues and to fluidic shear stresses. Moreover, it showed that these mechanical stimuli cause alterations in the association of cell surface proteins with cytoskeletal and focal adhesion-related signaling pathways.

Source: (Link to Paper)

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May 9, 2020

Apr 28, 2020

A Balance Between Intermediate Filaments and Microtubules Maintains Nuclear Architecture in the Cardiomyocyte

Apr 28, 2020

Source: Heffler J, Shah PP, Robison P, et al. A Balance Between Intermediate Filaments and Microtubules Maintains Nuclear Architecture in the Cardiomyocyte. Circ Res. 126(3):e10–e26, Publication Date: 2020 (Link to Paper)

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Apr 28, 2020

Apr 22, 2020

Nanopatterned Nafion Microelectrode Arrays for In Vitro Cardiac Electrophysiology

Apr 22, 2020

This publication demonstrates that nanopatterned and ion permeable polymer‐coated electrodes can be utilized for enhancing the cellular environment of excitable cells within electrode‐based assays.

Source: (Link to Paper)

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Apr 22, 2020

Feb 14, 2020

Engineering Anisotropic 3D Tubular Tissues with Flexible Thermoresponsive Nanofabricated Substrates

Feb 14, 2020

Developed a novel method for patterning and layering individual cell sheets and casting them into 3D tubular geometries with curved surfaces.

(Link to Paper)

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Feb 14, 2020

Feb 10, 2020

Switch-like Enhancement of Epithelial-mesenchymal Transition by YAP Through Feedback Regulation of WT1 and Rho-family GTPases

Feb 10, 2020

The integrity of the expanding epithelial sheets depends on extracellular cues, including cell-cell and cell-matrix interactions. Researchers show that the nano-scale topography of the extracellular matrix underlying epithelial cell layers can strongly affect the speed and morphology of the fronts of the expanding sheet which is dependent on expression of the transcription factor YAP. This process is integral to epithelial to mesenchymal transitions which is a key stage of cancer progression and metastasis.

Originally Published in: Nature Communications (2019) (Link to Paper)

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Feb 10, 2020

NanoMEA: A Tool for High-Throughput, Electrophysiological Phenotyping of Patterned Excitable Cells

Feb 10, 2020

Alec S. T. Smith, Eunpyo Choi, Kevin Gray, Jesse Macadangdang, Eun Hyun Ahn, Elisa C. Clark, Michael A. Laflamme, Joseph C. Wu, Charles E. Murry, Leslie Tung, Deok-Ho Kim* Nano Lett. 2020, vol. 20, no. 3, pp. 1561-1570, Publication Date: December 17, 2019 (Link to Paper)

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Feb 10, 2020

Jan 17, 2020

Evolution of Placental Invasion and Cancer Metastasis are Causally Linked

Jan 17, 2020

Kshitiz, Afzal, J., Maziarz, J.D. et al. Nat Ecol Evol 3, pp. 1743–1753, Publication Date: 2019 (Link to Paper)

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Jan 17, 2020

Oct 18, 2019

Superresolution Architecture of Cornerstone Focal Adhesions in Human Pluripotent Stem Cells

Oct 18, 2019

This study aims to elucidate the role of cell adhesion to the extracellular matrix plays in maintenance of pluripotency. Researchers used superresolution two-color interferometric photo-activated localization microscopy to examine the three-dimensional architecture of cornerstone adhesions and report vertical lamination of FA proteins. Nanopatterned plates were used to accelerate differentiation of stem cell cultures to help examine the roles of these structural elements.

Originally Published in: Nature Communications (2019) (Link to Paper)

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Oct 18, 2019

Mar 20, 2019

Matrix Topography Regulates Synaptic Transmission at the Neuromuscular Junction

Mar 20, 2019

Recreation of a muscle that can be controlled by the nervous system would provide a major breakthrough for treatments of injury and diseases. However, the underlying basis of how neuron–muscle interfaces are formed is still not understood sufficiently. Here, it is hypothesized that substrate topography regulates neural innervation and synaptic transmission by mediating the cross-talk between neurons and muscles. This hypothesis is examined by differentiating neural stem cells on the myotubes, formed on the substrate with controlled groove width. The substrate with the groove width of 1600 nm, a similar size to the myofibril diameter, serves to produce larger and aligned myotubes than the flat substrate. The myotubes formed on the grooved substrate display increases in the acetylcholine receptor expression. Reciprocally, motor neuron progenitor cells differentiated from neural stem cells innervate the larger and aligned myotubes more actively than randomly oriented myotubes. The results of this study will be broadly useful for improving the quality of engineered muscle used in a series of applications including drug screening, regeneration therapies, and biological machinery assembly.

Originally Published in: Advanced Science (2019) (Link to Paper)

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Mar 20, 2019

Mar 14, 2019

pHluo_M153R-CD63, a Bright, Versatile Live Cell Reporter of Exosome Secretion and Uptake, Reveals Pathfinding Behavior of Migrating Cells

Mar 14, 2019

Bong Hwan Sung, Roxanne Pelletier, Alissa M. Weaver, bioRxiv 577346, Publication Date: 2019 (Link to Paper)

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Mar 14, 2019

Oct 9, 2018

Microtubule-Actomyosin Mechanical Cooperation During Contact Guidance Sensing

Oct 9, 2018

Cancer cell migration through and away from tumors is driven in part by migration along aligned extracellular matrix, a process known as contact guidance (CG). To concurrently study the influence of architectural and mechanical regulators of CG sensing, we developed a set of CG platforms. Using flat and nanotextured substrates with variable architectures and stiffness, we show that CG sensing is regulated by substrate stiffness and define a mechanical role for microtubules and actomyosin-microtubule interactions during CG sensing. Furthermore, we show that Arp2/3-dependent lamellipodia dynamics can compete with aligned protrusions to diminish the CG response and define Arp2/3- and Formins-dependent actin architectures that regulate microtubule-dependent protrusions, which promote the CG response. Thus, our work represents a comprehensive examination of the physical mechanisms influencing CG sensing.

Originally Published in: Cell Reports (2018) (Link to Paper)

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Oct 9, 2018

Sep 21, 2018

Biomechanical Interplay Between Anisotropic Re-organization of Cells and the Surrounding Matrix Underlies Transition to Invasive Cancer Spread

Sep 21, 2018

Kim, D., Ewald, A.J., Park, J. et al. Sci Rep 8, 14210, Publication Date: 2018 (Link to Paper)

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Sep 21, 2018

Apr 27, 2018

Conductive Silk–polypyrrole Composite Scaffolds with Bioinspired Nanotopographic Cues for Cardiac Tissue Engineering

Apr 27, 2018

Jonathan H. Tsui et al. J. Mater. Chem. B, 6, 7185-7196, Publication Date: 2018 (Link To Paper)

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Apr 27, 2018

Dec 31, 2017

Evaluation of the Periodontal Regenerative Properties of Patterned Human Periodontal Ligament Stem Cell Sheets

Dec 31, 2017

Joong-Hyun Kim et al. J Periodontal Implant Sci. , 47(6): 402–415, Publication Date: December 2017 (Link To Paper)

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Dec 31, 2017

Nov 20, 2017

Harnessing Sphingosine-1-Phosphate Signaling and Nanotopographical Cues To Regulate Skeletal Muscle Maturation and Vascularization

Nov 20, 2017

Jonathan H. Tsui et al. ACS Nano, 11, 12, 11954-11968, Publication Date: November 20, 2017 (Link To Paper)

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Nov 20, 2017

Jun 13, 2017

3D High-Content Screening of Organoids for Drug Discovery

Jun 13, 2017

Li, Linfeng & LaBarbera, D.V. 10.1016/B978-0-12-409547-2.12329-7., Publication Date: 2016 (Link To Paper)

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Jun 13, 2017

Apr 12, 2017

Anisotropic Forces from Spatially Constrained Focal Adhesions Mediate Contact Guidance Directed Cell Migration

Apr 12, 2017

Ray, A., Lee, O., Win, Z. et al. Nat Commun 8, 14923, Publication Date: 2017 (Link To Paper)

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Apr 12, 2017

Feb 11, 2016

Nanotopography-Induced Structural Anisotropy and Sarcomere Development in Human Cardiomyocytes Derived from Induced Pluripotent Stem Cells

Feb 11, 2016

Source: Nisa P. Williams, Marcus Rhodehamel, Calysta Yan, Alec S.T. Smith, Alex Jiao, Charles E. Murry, Marta Scatena, Deok-Ho Kim, Engineering anisotropic 3D tubular tissues with flexible thermoresponsive nanofabricated substrates, Biomaterials, Volume 240, 2020, 119856, ISSN 0142-9612.
(Link to Paper)

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Feb 11, 2016