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1. Twist-Programmable Superconductivity in Spin-Orbit Coupled Bilayer Graphene

Author

Zhang, Yiran, Shavit, Gal, Ma, Huiyang, Han, Youngjoon, Watanabe, Kenji, Taniguchi, Takashi, Hsieh, David, Lewandowski, Cyprian, von Oppen, Felix, Oreg, Yuval, and Nadj-Perge, Stevan

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

The relative twist angle between layers of near-lattice-matched van der Waals materials is critical for the emergent correlated phenomena associated with moire flat bands. However, the concept of angle rotation control is not exclusive to moir\'e superlattices in which electrons directly experience a twist-angle-dependent periodic potential. Instead, it can also be employed to induce programmable symmetry-breaking perturbations with the goal of stabilizing desired correlated states. Here, we experimentally demonstrate `moireless' twist-tuning of superconductivity together with other correlated orders in Bernal bilayer graphene proximitized by tungsten diselenide. The alignment between the two materials systematically controls the strength of the induced Ising spin-orbit coupling (SOC), profoundly altering the phase diagram. As Ising SOC is increased, superconductivity onsets at a higher displacement field and features a higher critical temperature, reaching up to 0.5K. Within the main superconducting dome and in the strong Ising SOC limit, we find an unusual phase transition characterized by a nematic redistribution of holes among trigonally warped Fermi pockets and enhanced resilience to in-plane magnetic fields. The behavior of the superconducting phase is well captured by our theoretical model, which emphasizes the role of interband interactions between Fermi pockets arising due to interaction-enhanced symmetry breaking. Moreover, we identify two additional superconducting regions, one of which descends from an inter-valley coherent normal state and exhibits a Pauli-limit violation ratio exceeding 40, among the highest for all known superconductors. Our results provide new insights into ultra-clean graphene-based superconductors and underscore the potential of utilizing moireless-twist engineering across a range of van der Waals heterostructures., Comment: main text with four figures, extended data and supplementary information

Published
2024

4. Keldysh space control of charge dynamics in a strongly driven Mott insulator

Author

Li, Xinwei, Ning, Honglie, Mehio, Omar, Zhao, Hengdi, Lee, Min-Cheol, Kim, Kyungwan, Nakamura, Fumihiko, Maeno, Yoshiteru, Cao, Gang, and Hsieh, David

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The fate of a Mott insulator under strong low frequency optical driving conditions is a fundamental problem in quantum many-body dynamics. Using ultrafast broadband optical spectroscopy, we measured the transient electronic structure and charge dynamics of an off-resonantly pumped Mott insulator Ca$_2$RuO$_4$. We observe coherent bandwidth renormalization and nonlinear doublon-holon pair production occurring in rapid succession within a sub-100 femtosecond pump pulse duration. By sweeping the electric field amplitude, we demonstrate continuous bandwidth tuning and a Keldysh cross-over from a multi-photon absorption to quantum tunneling dominated pair production regime. Our results provide a procedure to control coherent and nonlinear heating processes in Mott insulators, facilitating the discovery of novel out-of-equilibrium phenomena in strongly correlated systems., Comment: 6 pages main text, 4 figures, 16 pages supplementary information

Published
2022
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6. Controlling ligand-mediated exchange interactions in periodically driven magnetic materials

Author

Chaudhary, Swati, Ron, Alon, Hsieh, David, and Refael, Gil

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

A periodic drive could alter the effective exchange interactions in magnetic materials. Here, we explore how exchange pathways affect the effective interactions of periodically driven magnetic materials. Aiming to apply Floquet engineering methods to two-dimensional magnetic materials, we consider realistic models and discuss the effect of a periodic drive on ligand-mediated exchange interactions. We show that depending on bond angles and the number of ligand ions involved in the exchange process, drive-induced changes can be very different from those calculated from direct-hopping models considered earlier. We study these effects and find that the presence of ligand ions must be taken into account, especially for TMTCs where ligand ion mediated next-neighbor interactions play a crucial role in determining the magnetic ground state of the system.

Published
2020

7. Orbital Floquet Engineering of Exchange Interactions in Magnetic Materials

Author

Chaudhary, Swati, Hsieh, David, and Refael, Gil

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We present a new scheme to control the spin exchange interactions between two magnetic ions by manipulating the orbital degrees of freedom using a periodic drive. We discuss two different protocols for orbital Floquet engineering. In one case, we modify the properties of the ligand orbitals which mediate magnetic interactions between two transition metal ions. While in the other case, we mix the d orbitals on each magnetic ion. In contrast to previous works on Floquet engineering of magnetic properties, the present scheme makes use of the AC Stark shift of the states involved in the exchange process.

Published
2019
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9. Doping driven structural distortion in the bilayer iridate (Sr$_{1-x}$La$_x$)$_3$Ir$_2$O$_7$

Author

Hogan, Tom, Wang, Xiaoping, Chu, H., Hsieh, David, and Wilson, Stephen D.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

Neutron single crystal diffraction and rotational anisotropy optical second harmonic generation data are presented resolving the nature of the structural distortion realized in electron-doped (Sr$_{1-x}$La$_x$)$_3$Ir$_2$O$_7$ with $x=0.035$ and $x=0.071$. Once electrons are introduced into the bilayer spin-orbit assisted Mott insulator Sr$_3$Ir$_2$O$_7$, previous studies have identified the appearance of a low temperature structural distortion and have suggested the presence of a competing electronic instability in the phase diagram of this material. Our measurements resolve a lowering of the structural symmetry from monoclinic $C2/c$ to monoclinic $P2_1/c$ and the creation of two unique Ir sites within the chemical unit cell as the lattice distorts below a critical temperature $T_S$. Details regarding the modifications to oxygen octahedral rotations and tilting through the transition are discussed as well as the evolution of the low temperature distorted lattice as a function of carrier substitution., Comment: 8 pages, 4 figures

Published
2017
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10. Inversion symmetry and bulk Rashba effect in methylammonium lead iodide perovskite single crystals.

Author

Frohna, Kyle, Deshpande, Tejas, Harter, John, Peng, Wei, Barker, Bradford A, Neaton, Jeffrey B, Louie, Steven G, Bakr, Osman M, Hsieh, David, and Bernardi, Marco

Abstract

Methylammonium lead iodide perovskite (MAPbI3) exhibits long charge carrier lifetimes that are linked to its high efficiency in solar cells. Yet, the mechanisms governing these unusual carrier dynamics are not completely understood. A leading hypothesis-disproved in this work-is that a large, static bulk Rashba effect slows down carrier recombination. Here, using second harmonic generation rotational anisotropy measurements on MAPbI3 crystals, we demonstrate that the bulk structure of tetragonal MAPbI3 is centrosymmetric with I4/mcm space group. Our calculations show that a significant Rashba splitting in the bandstructure requires a non-centrosymmetric lead iodide framework, and that incorrect structural relaxations are responsible for the previously predicted large Rashba effect. The small Rashba splitting allows us to compute effective masses in excellent agreement with experiment. Our findings rule out the presence of a large static Rashba effect in bulk MAPbI3, and our measurements find no evidence of dynamic Rashba effects.

Published
2018

12. Structural investigation of the bilayer iridate Sr3Ir2O7

Author

Hogan, Tom, Bjaalie, Lars, Zhao, Liuyan, Belvin, Carina, Wang, Xiaoping, Van de Walle, Chris G., Hsieh, David, and Wilson, Stephen D.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

A complete structural solution of the bilayer iridate compound Sr3Ir2O7 presently remains outstanding. Previously reported structures for this compound vary and all fail to explain weak structural violations observed in neutron scattering measurements as well as the presence of a net ferromagnetic moment in the basal plane. In this paper, we present single crystal neutron diffraction and rotational anisotropy second harmonic generation measurements unveiling a lower, monoclinic symmetry inherent to Sr3Ir2O7 . Combined with density functional theory, our measurements identify the correct structural space group as No. 15 (C2/c) and provide clarity regarding the local symmetry of Ir 4+ cations within this spin-orbit Mott material., Comment: 7 pages, 3 figures

Published
2016
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14. Nonlinear and Nonreciprocal Transport Effects in Untwinned Thin Films of Ferromagnetic Weyl Metal SrRuO3

Author

Kar, Uddipta, primary, Lu, Elisha Cho-Hao, additional, Singh, Akhilesh Kr., additional, Reddy, P. V. Sreenivasa, additional, Han, Youngjoon, additional, Li, Xinwei, additional, Cheng, Cheng-Tung, additional, Yang, Song, additional, Lin, Chun-Yen, additional, Cheng, I-Chun, additional, Hsu, Chia-Hung, additional, Hsieh, David, additional, Lee, Wei-Cheng, additional, Guo, Guang-Yu, additional, and Lee, Wei-Li, additional

Published
2024
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17. Experimental Discovery of Topological Surface States - A New Type of 2D Electron Systems (Review Article)

Author

Hasan, M. Zahid, Xu, Su-Yang, Hsieh, David, Wray, L. Andrew, and Xia, Yuqi

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

Topological Surface States (TSS) represent new types of two dimensional electron systems with novel and unprecedented properties distinct from any quantum Hall-like or spin-Hall effects. Their Z$_2$ topological order can be realized at room temperatures without magnetic fields and they can be turned into magnets, exotic superconductors or Kondo insulators leading to worldwide interest and activity in the topic. We review the basic concepts defining such topological matter and the experimental discovery via the key experimental probe that revealed the Z$_2$ topological order in the bulk of these spin-orbit interaction dominated insulators for the first time. This review focuses on the key results that demonstrated the fundamental Z$_2$ topological properties such as spin-momentum locking, non-trivial Berry's phases, mirror Chern number, absence of backscattering, bulk-boundary correspondence (topology), protection by time-reversal and other discrete (mirror) symmetries and their remarkable persistence up to the room temperature elaborating on results first briefly discussed in an early review by M.Z. Hasan and C.L. Kane [Rev. of Mod. Phys., 82, 3045 (2010)]. Additionally, key results on broken symmetry phases such as quantum magnetism and superconductivity induced in topological materials are briefly discussed. Topological insulators beyond the Z$_2$ classification such as Topological Crystalline Insulators (TCI) are discussed based on their spin properties (mirror Chern invariants). The experimental methodologies detailed here have been used in most of the subsequent studies of Z$_2$ topological physics in almost all bulk topological insulator materials to this date., Comment: 18 Figures, 23 pages; Invited Review, Accepted for publication, Related papers at http://arxiv.org/abs/1105.0396 and http://scholar.google.com/citations?user=G1Qpy6MAAAAJ&hl=en

Published
2014

18. PR-Set7 is Degraded in a Conditional Cul4A Transgenic Mouse Model of Lung Cancer.

Author

Wang, Yang, Xu, Zhidong, Mao, Jian-Hua, Hsieh, David, Au, Alfred, Jablons, David M, Li, Hui, and You, Liang

Subjects
Lung, Animals, Mice, Transgenic, Humans, Mice, Lung Neoplasms, Disease Models, Animal, Tubulin, Cullin Proteins, Histone-Lysine N-Methyltransferase, Histones, Cell Cycle, Down-Regulation, Proteolysis, Transgenic, Disease Models, Animal, Oncology & Carcinogenesis
Abstract

BackgroundMaintenance of genomic integrity is essential to ensure normal organismal development and to prevent diseases such as cancer. PR-Set7 (also known as Set8) is a cell cycle regulated enzyme that catalyses monomethylation of histone 4 at Lys20 (H4K20me1) to promote chromosome condensation and prevent DNA damage. Recent studies show that CRL4CDT2-mediated ubiquitylation of PR-Set7 leads to its degradation during S phase and after DNA damage. This might occur to ensure appropriate changes in chromosome structure during the cell cycle or to preserve genome integrity after DNA damage.MethodsWe developed a new model of lung tumor development in mice harboring a conditionally expressed allele of Cul4A. We have therefore used a mouse model to demonstrate for the first time that Cul4A is oncogenic in vivo. With this model, staining of PR-Set7 in the preneoplastic and tumor lesions in AdenoCre-induced mouse lungs was performed. Meanwhile we identified higher protein level changes of γ-tubulin and pericentrin by IHC.ResultsThe level of PR-Set7 down-regulated in the preneoplastic and adenocarcinomous lesions following over-expression of Cul4A. We also identified higher levels of the proteins pericentrin and γ-tubulin in Cul4A mouse lungs induced by AdenoCre.ConclusionsPR-Set7 is a direct target of Cul4A for degradation and involved in the formation of lung tumors in the conditional Cul4A transgenic mouse model.

Published
2015

19. CK2α, over-expressed in human malignant pleural mesothelioma, regulates the Hedgehog signaling pathway in mesothelioma cells

Author

Zhang, Shulin, Yang, Yi-Lin, Wang, Yucheng, You, Bin, Dai, Yuyuan, Chan, Geraldine, Hsieh, David, Kim, Il-Jin, Fang, Li Tai, Au, Alfred, Stoppler, Hubert J, Xu, Zhidong, Jablons, David M, and You, Liang

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Lung, Cancer, Lung Cancer, Biotechnology, Rare Diseases, Genetics, 2.1 Biological and endogenous factors, Underpinning research, Aetiology, 1.1 Normal biological development and functioning, Casein Kinase II, Cell Line, Tumor, Dose-Response Relationship, Drug, Gene Expression Regulation, Enzymologic, Gene Expression Regulation, Neoplastic, Hedgehog Proteins, Humans, Lung Neoplasms, Mesothelioma, Mesothelioma, Malignant, Pleural Neoplasms, Protein Kinase Inhibitors, RNA Interference, Signal Transduction, Transcription Factors, Transcription, Genetic, Transfection, Zinc Finger Protein GLI1, CK2 alpha, Hedgehog, Gli1, IHC, Oncology and carcinogenesis
Abstract

BackgroundThe Hedgehog (Hh) signaling pathway has been implicated in stem cell maintenance and its activation is aberrant in several types of cancer including mesothelioma. Protein kinase CK2 affects several cell signaling pathways through the mechanism of phosphorylation.MethodsProtein and mRNA levels of CK2α and Gli1 were tested by quantitative RT-PCR and immunohistochemistry staining in mesothelioma samples and cell lines. Down-regulated Gli1 expression and transcriptional activity were demonstrated by RT-PCR, Western blot and luciferase reporter assay.ResultsIn this study, we show that CK2α is over-expressed and a positive regulator of Hegdehog/Gli1 signaling in human malignant pleural mesothelioma. First of all, we found that the mRNA levels of CK2α and Gli1 were broadly elevated and correlated (n = 52, r = 0.401, P

Published
2014

20. Nonequilibrium Quasiparticle Relaxation Dynamics in Single Crystals of Hole and Electron doped BaFe$_2$As$_2$

Author

Torchinsky, Darius H, McIver, James W., Hsieh, David, Chen, G. F., Luo, J. L., Wang, N. L., and Gedik, Nuh

Subjects
Condensed Matter - Superconductivity
Abstract

We report on the nonequilibrium quasiparticle dynamics in BaFe$_2$As$_2$ on both the hole doped (Ba$_{1-x}$K$_x$Fe$_2$As$_2$) and electron doped (BaFe$_{2-y}$Co$_y$As$_2$) sides of the phase diagram using ultrafast pump-probe spectroscopy. Below $T_c$, measurements conducted at low photoinjected quasiparticle densities in the optimally and overdoped Ba$_{1-x}$K$_x$Fe$_2$As$_2$ samples reveal two distinct relaxation processes: a fast component whose decay rate increases linearly with excitation density and a slow component with an excitation density independent decay rate. We argue that these two processes reflect the recombination of quasiparticles in the two hole bands through intraband and interband processes. We also find that the thermal recombination rate of quasiparticles increases quadratically with temperature in these samples. The temperature and excitation density dependence of the decays indicates fully gapped hole bands and nodal or very anisotropic electron bands. At higher excitation densities and lower hole dopings, the dependence of the dynamics on quasiparticle density disappears as the data are more readily understood in terms of a model which accounts for the quasiequilibrium temperature attained by the sample. In the BaFe$_{2-y}$Co$_y$As$_2$ samples, dependence of the recombination rate on quasiparticle density at low dopings (i.e., $y=0.12$) is suppressed upon submergence of the inner hole band and quasiparticle relaxation occurs in a slow, density independent manner., Comment: Accepted to Phys. Rev. B

Published
2011
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21. Electron dynamics in topological insulator based semiconductor-metal interfaces (topological p-n interface based on Bi2Se3 class)

Author

Wray, L. Andrew, Xu, Suyang, Neupane, Madhab, Xia, Yuqi, Hsieh, David, Qian, Dong, Fedorov, Alexei V., Lin, Hsin, Basak, Susmita, Hor, Yew San, Cava, Robert J., Bansil, Arun, and Hasan, M. Zahid

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

Single-Dirac-cone topological insulators (TI) are the first experimentally discovered class of three dimensional topologically ordered electronic systems, and feature robust, massless spin-helical conducting surface states that appear at any interface between a topological insulator and normal matter that lacks the topological insulator ordering. This topologically defined surface environment has been theoretically identified as a promising platform for observing a wide range of new physical phenomena, and possesses ideal properties for advanced electronics such as spin-polarized conductivity and suppressed scattering. A key missing step in enabling these applications is to understand how topologically ordered electrons respond to the interfaces and surface structures that constitute a device. Here we explore this question by using the surface deposition of cathode (Cu/In/Fe) and anode materials (NO$_2$) and control of bulk doping in Bi$_2$Se$_3$ from P-type to N-type charge transport regimes to generate a range of topological insulator interface scenarios that are fundamental to device development. The interplay of conventional semiconductor junction physics and three dimensional topological electronic order is observed to generate novel junction behaviors that go beyond the doped-insulator paradigm of conventional semiconductor devices and greatly alter the known spin-orbit interface phenomenon of Rashba splitting. Our measurements for the first time reveal new classes of diode-like configurations that can create a gap in the interface electron density near a topological Dirac point and systematically modify the topological surface state Dirac velocity, allowing far reaching control of spin-textured helical Dirac electrons inside the interface and creating advantages for TI superconductors as a Majorana fermion platform over spin-orbit semiconductors., Comment: 14 pages, 4 Figures

Published
2011

22. A new experimental approach for the exploration of topological quantum phenomena : Topological Insulators and Superconductors

Author

Hasan, M. Zahid, Hsieh, David, Xia, Yuqi, Wray, L. Andrew, Xu, Su-Yang, and Kane, Charles L.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

The three-dimensional topological insulator (originally called "topological insulators") is the first example in nature of a topologically ordered electronic phase existing in three dimensions that cannot be reduced to multiple copies of quantum-Hall-like states. Their topological order can be realized at room temperatures without magnetic fields and they can be turned into magnets and exotic superconductors leading to world-wide interest and activity in topological insulators. One of the major challenges in going from quantum Hall-like 2D states to 3D topological insulators is to develop new experimental approaches/methods to precisely probe this novel form of topological-order since the standard tools and settings that work for IQH-state also work for QSH states. The method to probe 2D topological-order is exclusively with charge transport, which either measures quantized transverse conductance plateaus in IQH systems or longitudinal conductance in quantum spin Hall (QSH) systems. In a 3D topological insulator, the boundary itself supports a two dimensional electron gas (2DEG) and transport is not (Z$_2$) topologically quantized. In this paper, we review the birth of momentum- and spin-resolved spectroscopy as a new experimental approach and as a directly boundary sensitive method to study and prove topological-order in three-dimensions via the direct measurements of the topological invariants {$\nu_o$} that are associated with the Z$_2$ topology of the spin-orbit band structure and opposite parity band inversions, which led to the experimental discovery of the first 3D topological insulators. We also discuss how spectroscopic methods are leading to the identification of spin-orbit superconductors that may work as Majorana platforms and can be used to identify topological superconductors - yet another class of new state of matter., Comment: 31 pages, 26 figures, Review article, Comments welcome

Published
2011

23. A topological insulator surface under strong Coulomb, magnetic and disorder perturbations

Author

Wray, L. Andrew, Xu, Su-Yang, Xia, Yuqi, Hsieh, David, Fedorov, Alexei V., Lin, Hsin, Bansil, Arun, Hor, Yew San, Cava, Robert J., and Hasan, M. Zahid

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

Three dimensional topological insulators embody a newly discovered state of matter characterized by conducting spin-momentum locked surface states that span the bulk band gap as demonstrated via spin-resolved ARPES measurements . This highly unusual surface environment provides a rich ground for the discovery of novel physical phenomena. Here we present the first controlled study of the topological insulator surfaces under strong Coulomb, magnetic and disorder perturbations. We have used interaction of iron, with a large Coulomb state and significant magnetic moment as a probe to \textit{systematically test the robustness} of the topological surface states of the model topological insulator Bi$_2$Se$_3$. We observe that strong perturbation leads to the creation of odd multiples of Dirac fermions and that magnetic interactions break time reversal symmetry in the presence of band hybridization. We also present a theoretical model to account for the altered surface of Bi$_2$Se$_3$. Taken collectively, these results are a critical guide in manipulating topological surfaces for probing fundamental physics or developing device applications., Comment: 14 pages, 4 Figures. arXiv admin note: substantial text overlap with arXiv:1009.6216

Published
2011
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24. Lung tumourigenesis in a conditional Cul4A transgenic mouse model

Author

Yang, Yi‐Lin, Hung, Ming‐Szu, Wang, Yang, Ni, Jian, Mao, Jian‐Hua, Hsieh, David, Au, Alfred, Kumar, Atul, Quigley, David, Fang, Li Tai, Yeh, Che‐Chung, Xu, Zhidong, Jablons, David M, and You, Liang

Subjects
Genetics, Biotechnology, Lung, Lung Cancer, Cancer, Rare Diseases, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Aetiology, 2.1 Biological and endogenous factors, Adenocarcinoma, Adenocarcinoma of Lung, Animals, Antineoplastic Agents, Cell Cycle Proteins, Cell Line, Tumor, Cell Survival, Cell Transformation, Neoplastic, Cisplatin, Cullin Proteins, Cyclin-Dependent Kinase Inhibitor p16, Cyclin-Dependent Kinase Inhibitor p19, Cyclin-Dependent Kinase Inhibitor p21, Cyclin-Dependent Kinase Inhibitor p27, DNA-Binding Proteins, Disease Models, Animal, Dose-Response Relationship, Drug, Drug Resistance, Neoplasm, Gene Expression Regulation, Neoplastic, Genomic Instability, Humans, Lung Neoplasms, Mice, Mice, Transgenic, Neoplasm Grading, Proliferating Cell Nuclear Antigen, RNA Interference, Time Factors, Transfection, Up-Regulation, non-small cell lung cancer, Cul4A, Ad-Cre, transgenic mouse models, cell cycle, Clinical Sciences, Pathology
Abstract

Cullin4A (Cul4A) is a scaffold protein that assembles cullin-RING ubiquitin ligase (E3) complexes and regulates many cellular events, including cell survival, development, growth and cell cycle control. Our previous study suggested that Cul4A is oncogenic in vitro, but its oncogenic role in vivo has not been studied. Here, we used a Cul4A transgenic mouse model to study the potential oncogenic role of Cul4A in lung tumour development. After Cul4A over-expression was induced in the lungs for 32 weeks, atypical epithelial cells were observed. After 40 weeks, lung tumours were visible and were characterized as grade I or II adenocarcinomas. Immunohistochemistry (IHC) revealed decreased levels of Cul4A-associated proteins p21(CIP1) and tumour suppressor p19(ARF) in the lung tumours, suggesting that Cul4A regulated their expression in these tumours. Increased levels of p27(KIP1) and p16(INK4a) were also detected in these tumours. Moreover, the protein level of DNA replication licensing factor CDT1 was decreased. Genomic instability in the lung tumours was further analysed by the results from pericentrin protein expression and array comparative genomic hybridization analysis. Furthermore, knocking down Cul4A expression in lung cancer H2170 cells increased their sensitivity to the chemotherapy drug cisplatin in vitro, suggesting that Cul4A over-expression is associated with cisplatin resistance in the cancer cells. Our findings indicate that Cul4A is oncogenic in vivo, and this Cul4A mouse model is a tool in understanding the mechanisms of Cul4A in human cancers and for testing experimental therapies targeting Cul4A.

Published
2014

25. 1338 Crystallography-guided characterization of novel cytosolic DNase 3’ repair exonuclease 1 (TREX1) inhibitors

Author

Chen, Valerie, primary, Hsieh, David, additional, Freund, Dave, additional, Holtz, Anja, additional, Lopez, Jesus Garcia, additional, Mullenix, Alyssa, additional, Cope, Jamie, additional, Prasit, Peppi, additional, Moon, Anne, additional, Standifer, Nathan, additional, Dubensky, Thomas, additional, Johnson, Henry, additional, and Burdette, Dara, additional

Published
2023
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26. Coumestrol from the national cancer Institute’s natural product library is a novel inhibitor of protein kinase CK2

Author

Liu, Shu, Hsieh, David, Yang, Yi-Lin, Xu, Zhidong, Peto, Csaba, Jablons, David M, and You, Liang

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Cancer, Biotechnology, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Apoptosis, Biological Products, Casein Kinase II, Cell Line, Tumor, Cell Survival, Coumestrol, Humans, Molecular Docking Simulation, National Cancer Institute (U.S.), Protein Kinase Inhibitors, Small Molecule Libraries, United States, CK2 inhibitor, Natural product, ATP-competitive, Other Chemical Sciences, Pharmacology and Pharmaceutical Sciences, Pharmacology and pharmaceutical sciences
Abstract

BackgroundCasein kinase 2 (CK2) is involved in various cellular events such as proliferation, apoptosis, and the cell cycle. CK2 overexpression is associated with multiple human cancers and may therefore be a promising target for cancer therapy. To identity novel classes of inhibitors for CK2, we screened a natural product library obtained from National Cancer Institute.MethodsThe quantitative luminescent kinase assay ADP-Glo™ was used to screen CK2 inhibitors from the natural product library. The same assay was used to determine cell-free dose-dependent response of CK2 inhibitors and conduct a kinetic study. Docking was performed to predict the binding patterns of selected CK2 inhibitors. Western blot analysis was used to evaluate Akt phosphorylation specific to CK2 and apoptosis effect. The cell viability assay CellTiter-Glo(®) was used to evaluate the inhibition effects of CK2 inhibitors on cancer cells.ResultsWe identified coumestrol as a novel reversible ATP competitive CK2 inhibitor with an IC(50) value of 228 nM. Coumestrol is a plant-derived compound that belongs to the class of phytoestrogens, natural compounds that mimic the biological activity of estrogens. In our study, coumestrol showed high selectivity among 13 kinases. The hydrogen bonds formed between coumestrol and the amino acids in the ATP binding site were first reviewed by a molecular docking study that suggested a possible interaction of coumestrol with the hinge region of ATP site of CK2. In addition, coumestrol inhibited cancer cell growth partially through down-regulation of CK2-specific Akt phosphorylation. Finally, coumestrol exerted strong inhibition effects on the growth of three cancer cell lines.ConclusionOur study shows that coumestrol, a novel ATP competitive and cell permeable CK2 inhibitor with submicromolar IC(50), had inhibition effects on the growth of three cancer cell lines and may represent a promising class of CK2 inhibitors.

Published
2013

28. Inhibition of CK2α down-regulates Notch1 signalling in lung cancer cells.

Author

Zhang, Shulin, Long, Hao, Yang, Yi-Lin, Wang, Yucheng, Hsieh, David, Li, Weiming, Au, Alfred, Stoppler, Hubert, Xu, Zhidong, You, Liang, and Jablons, David

Subjects
CD44 + /CD24−, CK2α, Notch1, cancer stem cell, lung cancer, CD24 Antigen, Casein Kinase II, Cell Line, Tumor, DNA, Dose-Response Relationship, Drug, Down-Regulation, Flow Cytometry, Gene Expression Regulation, Neoplastic, Humans, Hyaluronan Receptors, Immunohistochemistry, Lung Neoplasms, Naphthyridines, Neoplastic Stem Cells, Phenazines, Phenotype, RNA, Small Interfering, Receptor, Notch1, Signal Transduction, Transcription, Genetic
Abstract

Protein kinase CK2 is frequently elevated in a variety of human cancers. The Notch1 signalling pathway has been implicated in stem cell maintenance and its aberrant activation has been shown in several types of cancer including lung cancer. Here, we show, for the first time, that CK2α is a positive regulator of Notch1 signalling in lung cancer cell lines A549 and H1299. We found that Notch1 protein level was reduced after CK2α silencing. Down-regulation of Notch1 transcriptional activity was demonstrated after the silencing of CK2α in lung cancer cells. Furthermore, small-molecule CK2α inhibitor CX-4945 led to a dose-dependent inhibition of Notch1 transcriptional activity. Conversely, forced overexpression of CK2α resulted in an increase in Notch1 transcriptional activity. Finally, the inhibition of CK2α led to a reduced proportion of stem-like CD44 + /CD24- cell population. Thus, we report that the inhibition of CK2α down-regulates Notch1 signalling and subsequently reduces a cancer stem-like cell population in human lung cancer cells. Our data suggest that CK2α inhibitors may be beneficial to the lung cancer patients with activated Notch1 signalling.

Published
2013

29. Inhibition of CK2α down-regulates Hedgehog/Gli signaling leading to a reduction of a stem-like side population in human lung cancer cells.

Author

Hsieh, David, Kim, Il-Jin, Hu, Li-Min, Xu, Zhidong, Long, Hao, Zhang, Shulin, Wang, Yucheng, You, Liang, Jablons, David, and Mao, Jian-Hua

Subjects
ATP Binding Cassette Transporter, Subfamily G, Member 2, ATP-Binding Cassette Transporters, Carcinoma, Non-Small-Cell Lung, Casein Kinase II, Cell Count, Cell Line, Tumor, Down-Regulation, Gene Expression Regulation, Neoplastic, Gene Knockdown Techniques, Gene Silencing, Humans, Lung Neoplasms, Neoplasm Proteins, Neoplastic Stem Cells, Protein Kinase Inhibitors, Proteolysis, Side-Population Cells, Signal Transduction, Small Molecule Libraries, Transcription Factors, Transcription, Genetic, Transcriptional Activation, Up-Regulation, Zinc Finger Protein GLI1
Abstract

Protein kinase CK2 is frequently elevated in a variety of human cancers. The Hedgehog (Hh) signaling pathway has been implicated in stem cell maintenance, and its aberrant activation has been indicated in several types of cancer, including lung cancer. In this study, we show that CK2 is positively involved in Hh/Gli signaling in lung cancer cell lines A549 and H1299. First, we found a correlation between CK2α and Gli1 mRNA levels in 100 primary lung cancer tissues. Down-regulation of Gli1 expression and transcriptional activity were demonstrated after the silencing of CK2α in lung cancer cells. In addition, CK2α siRNA down-regulated the expression of Hh target genes. Furthermore, two small-molecule CK2α inhibitors led to a dose-dependent inhibition of Gli1 expression and transcriptional activity in lung cancer cells. Reversely, forced over-expression of CK2α resulted in an increase both in Gli1 expression and transcriptional activity in A549 cells. Finally, the inhibition of Hh/Gli by CK2α siRNA led to a reduction of a cancer stem cell-like side population that shows higher ABCG2 expression level. Thus, we report that the inhibition of CK2α down-regulates Hh/Gli signaling and subsequently reduces stem-like side population in human lung cancer cells.

Published
2012

30. Electron dynamics in topological insulator based semiconductor-metal interfaces (topological p-n interface based on Bi2Se3 class)

Author

Wray, L Andrew, Xu, Suyang, Neupane, Madhab, Xia, Yuqi, Hsieh, David, Qian, Dong, Fedorov, Alexei V, Lin, Hsin, Basak, Susmita, Hor, Yew San, Cava, Robert J, Bansil, Arun, and Hasan, M Zahid

Subjects
cond-mat.mes-hall, cond-mat.str-el, cond-mat.supr-con
Abstract

Single-Dirac-cone topological insulators (TI) are the first experimentallydiscovered class of three dimensional topologically ordered electronic systems,and feature robust, massless spin-helical conducting surface states that appearat any interface between a topological insulator and normal matter that lacksthe topological insulator ordering. This topologically defined surfaceenvironment has been theoretically identified as a promising platform forobserving a wide range of new physical phenomena, and possesses idealproperties for advanced electronics such as spin-polarized conductivity andsuppressed scattering. A key missing step in enabling these applications is tounderstand how topologically ordered electrons respond to the interfaces andsurface structures that constitute a device. Here we explore this question byusing the surface deposition of cathode (Cu/In/Fe) and anode materials (NO$_2$)and control of bulk doping in Bi$_2$Se$_3$ from P-type to N-type chargetransport regimes to generate a range of topological insulator interfacescenarios that are fundamental to device development. The interplay ofconventional semiconductor junction physics and three dimensional topologicalelectronic order is observed to generate novel junction behaviors that gobeyond the doped-insulator paradigm of conventional semiconductor devices andgreatly alter the known spin-orbit interface phenomenon of Rashba splitting.Our measurements for the first time reveal new classes of diode-likeconfigurations that can create a gap in the interface electron density near atopological Dirac point and systematically modify the topological surface stateDirac velocity, allowing far reaching control of spin-textured helical Diracelectrons inside the interface and creating advantages for TI superconductorsas a Majorana fermion platform over spin-orbit semiconductors.

Published
2011

35. A coherent phonon-induced hidden quadrupolar ordered state in Ca2RuO4.

Author

Ning, Honglie, Mehio, Omar, Li, Xinwei, Buchhold, Michael, Driesse, Mathias, Zhao, Hengdi, Cao, Gang, and Hsieh, David

Subjects
CHARGE density waves, THERMAL equilibrium, PHASES of matter, METASTABLE states, ULTRASHORT laser pulses, QUANTUM states, SPIN-orbit coupling constants, SPIN-orbit interactions
Abstract

Ultrafast laser excitation provides a means to transiently realize long-range ordered electronic states of matter that are hidden in thermal equilibrium. Recently, this approach has unveiled a variety of thermally inaccessible ordered states in strongly correlated materials, including charge density wave, ferroelectric, magnetic, and intertwined charge-orbital ordered states. However, more exotic hidden states exhibiting higher multipolar ordering remain elusive owing to the challenge of directly manipulating and detecting them with light. Here we demonstrate a method to induce a dynamical transition from a thermally allowed to a thermally forbidden spin-orbit entangled quadrupolar ordered state in Ca2RuO4 by coherently exciting a phonon that is strongly coupled to the order parameter. Combining probe photon energy-resolved coherent phonon spectroscopy measurements with model Hamiltonian calculations, we show that the dynamical transition is manifested through anomalies in the temperature, pump excitation fluence, and probe photon energy dependence of the strongly coupled phonon. With this procedure, we introduce a general pathway to uncover hidden multipolar ordered states and to control their re-orientation on ultrashort timescales. Ultrafast laser excitation can generate metastable states in quantum materials, with no counterpart in equilibrium. Here the authors demonstrate a transient quadrupolar ordered state in Ca2RuO4 single crystals via excitation of a phonon mode coupled to the order parameter. [ABSTRACT FROM AUTHOR]

Published
2023
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