Pr Zhu scite author profile

Fusion of cancer cells is thought to contribute to tumor development and drug resistance. The low frequency of cell fusion events and the instability of fused cells have hindered our ability to understand the molecular mechanisms that govern cell fusion. We have demonstrated that several breast cancer cell lines can fuse into multinucleated giant cells in vitro, and the initiation and longevity of fused cells can be regulated solely by biophysical factors. Dynamically tuning the adhesive area of the patterned substrates, reducing cytoskeletal tensions pharmacologically, altering matrix stiffness, and modulating pattern curvature all supported the spontaneous fusion and stability of these multinucleated giant cells. These observations highlight that the biomechanical microenvironment of cancer cells, including the matrix rigidity and interfacial curvature, can directly modulate their fusogenicity, an unexplored mechanism through which biophysical cues regulate tumor progression.

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Pulsed laser deposition of ilmenite FeTiO 3 epitaxial thin film onto sapphire substrate

Dai

Zhu

Yamamoto

et al. 1999

Thin Solid Films

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Heavy Metal Exposure Leads to Rapid Changes in Cellular Biophysical Properties

Zhu

Hawkins²,

Linthicum

et al. 2020

ACS Biomater. Sci. Eng.

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Biophysical properties of cells, such as cell mechanics, cell shape, and cell migration, are emerging hallmarks for characterizing various cell functions. Conversely, disruptions to these biophysical properties may be used as reliable indicators of disruptions to cell homeostasis, such as in the case of chemical-induced toxicity. In this study, we demonstrate that treatment of lead(II) nitrate and cadmium nitrate leads to dosage-dependent changes in a collection of biophysical properties, including cellular traction forces, focal adhesions, mechanical stiffness, cell shape, migration speed, permeability, and wound-healing efficacy in mammalian cells. As those changes appear within a few hours after the treatment with a trace amount of lead/cadmium, our results highlight the promise of using biophysical properties to screen environmental chemicals to identify potential toxicants and establish dose response curves. Our systematic and quantitative characterization of the rapid changes in cytoskeletal structure and cell functions upon heavy metal treatment may inspire new research on the mechanisms of toxicity.

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A model of plasma source ion implantation for inner surface modification

Sun

Zhu

Yang

1996

J. Phys. D: Appl. Phys.

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A model has been developed that describes the propagation of the transient sheath which forms inside a cylindrical target immersed in a plasma for inner surface implantation. Following this model, a differential equation and its integrated solution are obtained for the sheath-edge position as a function of time. This result can be used to predict the final sheath extent during each pulse for inner surface implantation of a cylindrical target.

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Reduction of crystalline disorder in molecular beam epitaxy GaAs on Si by MeV ion implantation and subsequent annealing

Xiao

She

Zhang

et al. 1992

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Molecular beam epitaxy GaAs films on Si, with thicknesses ranging from O-9-2.0 ,um, were implanted with Si ions at 1.2-2.6 MeV to doses in the range 10'5-1016 cm-'. Subsequent rapid infrared thermal annealing was carried out at 850 "C for 15 s in a flowing Nz atmosphere. Crystalline quality was analyzed by using Rutherfold backscattering/channeling technique and Raman scattering spectrometry. The experimental results show that the recrystallization process greatly depends on the dose and energy of implanted ions. Complete recrystallization with better crystalline quality can be obtained under proper implantation and subsequent annealing. In the improved layer the defect density was much lower than in the as-grown layer, especially near the interface. 4844

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Pr Zhu

Biomechanical Microenvironment Regulates Fusogenicity of Breast Cancer Cells

Pulsed laser deposition of ilmenite FeTiO 3 epitaxial thin film onto sapphire substrate

Heavy Metal Exposure Leads to Rapid Changes in Cellular Biophysical Properties

A model of plasma source ion implantation for inner surface modification

Reduction of crystalline disorder in molecular beam epitaxy GaAs on Si by MeV ion implantation and subsequent annealing

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