Your search keyword '"Rhim SH"' showing total 19 results

1. Role of strong spin-orbit coupling in the superconductivity of the hexagonal pnictide SrPtAs

Author

Youn SJ, Fischer MH, Rhim SH, Sigrist M, and Agterberg DF

Subjects

Condensed Matter::Superconductivity, Condensed Matter::Strongly Correlated Electrons

Abstract

In clean inversion symmetric materials spin orbit coupling is not thought to have a pronounced effect on spin singlet superconductivity. Here we show that for the recently discovered pnictide superconductor SrPtAs this is not the case. In particular for spin singlet superconductivity in SrPtAs strong spin orbit coupling leads to a significant enhancement of both the spin susceptibility and the paramagnetic limiting field with respect to that usually expected for spin singlet superconductors. The underlying reason for this is that while SrPtAs has a center of inversion symmetry it contains weakly coupled As Pt layers that do not have inversion symmetry. This local inversion symmetry breaking allows for a form of spin orbit coupling that dramatically effects superconductivity. These results indicate that caution should be used when interpreting measurements of the spin susceptibility and the paramagnetic limiting field if superconductivity resides in regions of locally broken inversion symmetry.

Published

2012

2. Vocalization and behavior of Holstein cows and calves after partial and complete separation Vocalización y comportamiento de vacas y terneros Holstein luego de separación parcial y total Vocalização e comportamento de bezerros e vacas Holandesas após separação parcial e completa

Author

Rhim Shin-Jae

Subjects

bienestar animal, características vocales, comportamiento, ganado, tecnología de video, bem-estar animal, comportamento, gado de leite, tecnologia de vídeo, vocalização, animal welfare, behavior, cattle, video technology, vocal characteristics, Animal culture, SF1-1100

Abstract

Background: a potential negative impact on the welfare and growth of the calf occurs when it is separated from its mother. Objective: this study was conducted in order to understand how the vocal and behavioral characteristics of cows and calves differ between partial and complete separations. Methods: 30 cows and their calves (60 study participants in total) housed in different barns were observed for 10 consecutive hours using video technology on days 1, 6, and 11 after partial and complete separations. Results: vocalization frequency was higher (pAntecedentes: un posible impacto negativo sobre el bienestar y el crecimiento del ternero se produce cuando este se separa de su madre. Objetivo: este estudio tuvo como objetivo comprender como las características vocales y de comportamiento de vacas y terneros difieren luego de la separación parcial o completa entre ambos. Métodos: 30 vacas y sus terneros (60 animales en total) alojados en establos separados fueron observados durante 10 horas consecutivas utilizando tecnología de vídeo durante los días 1, 6, y 11 después de separacion parcial o completa. Resultados: la frecuencia de vocalización fue mayor (p Antecedentes: um possível impacto negativo no bem-estar e crescimento ocorre quando o bezerro é separado de sua mãe. Objetivo: descrever as características comportamentais e emissões vocais de bezerros e vacas Holandesas após separação parcial e completa. Métodos: 30 vacas e seus bezerros (para um total de 60 amostras no estudo) localizados em diferentes lugares foram observados consecutivamente usando a tecnologia do vídeo por 10 h nos dias 1, 6 e 11 em separações completas e parciais. Resultados: a frequência de emissões vocais foi maior tanto nas vacas quanto nos bezerros (p

Published

2013

3. Sign Reversal of Spin-Transfer Torques.

Author

Kim DY, Ain QU, Nam YS, Yu JS, Lee SH, Chang JY, Kim K, Shim WY, Kim DH, Je SG, Min BC, Rhim SH, and Choe SB

Abstract

Spin-transfer torque (STT) and spin-orbit torque (SOT) form the core of spintronics, allowing for the control of magnetization through electric currents. While the sign of SOT can be manipulated through material and structural engineering, it is conventionally understood that STT lacks a degree of freedom in its sign. However, this study presents the first demonstration of manipulating the STT sign by engineering heavy metals adjacent to magnetic materials in magnetic heterostructures. Spin torques are quantified through magnetic domain-wall speed measurements, and subsequently, both STT and SOT are systematically extracted from these measurements. The results unequivocally show that the sign of STT can be either positive or negative, depending on the materials adjacent to the magnetic layers. Specifically, Pd/Co/Pd films exhibit positive STT, while Pt/Co/Pt films manifest negative STT. First-principle calculations further confirm that the sign reversal of STT originates from the sign reversal of spin polarization of conduction electrons., (© 2024 The Author(s). Advanced Science published by Wiley‐VCH GmbH.)

Published

2024

4. P-incorporated CuO/Cu 2 S heteronanorods as efficient electrocatalysts for the glucose oxidation reaction toward highly sensitive and selective glucose sensing.

Author

Thi LLD, Ho TH, Vu TV, Nguyen DLT, Tran MX, Rhim SH, and Nguyen CD

Abstract

Currently, tremendous efforts have been made to explore efficient glucose oxidation electrocatalysts for enzymeless glucose sensors to meet the urgent demands for accurate and fast detection of glucose in the fields of health care and environmental monitoring. In this work, an advanced nanostructured material based on the well-aligned CuO/Cu 2 S heteronanorods incorporated with P atoms is successfully synthesized on a copper substrate. The as-synthesized material shows high catalytic behavior accompanied by outstanding electrical conductivity. This, combined with the unique morphology of unstacked nanorod arrays, which endow the entire material with a greater number of exposed active sites, make the proposed material act as a highly efficient electrocatalyst for the glucose oxidation reaction. Density functional theory calculations demonstrate that P doping endows P-doped CuO/Cu 2 S with excellent electrical conductivity and glucose adsorption capability, significantly improving its catalytic performance. As a result, a non-enzymatic glucose sensor fabricated based on our proposed material exhibits a broad linear detection range (0.02-8.2 mM) and a low detection limit (0.95 μM) with a high sensitivity of 2.68 mA mM -1 cm -2 and excellent selectivity.

Published

2023

5. Application of 3D scanner to measure physical size and improvement of hip brace manufacturing technology in severe cerebral palsy patients.

Author

Kim JM, Lim J, Choi SY, Rhim SH, Beom J, and Ryu JS

Subjects

Child, Humans, Quality of Life, Prospective Studies, Pilot Projects, Braces, Cerebral Palsy therapy, Joint Dislocations

Abstract

This prospective pilot study aimed to develop a personalized hip brace for treating hip subluxation in children with cerebral palsy. Nineteen children, aged 1-15, with severe cerebral palsy participated in the study. Customized hip braces were created based on 3D scanner measurements and worn for 7 days. The primary outcome, Hip Migration Index (MI), and secondary outcomes, including range of motion (ROM) in the hip and knee joints, pain intensity, satisfaction, discomfort scores, CPCHILD, and wearability test, were assessed. The MI and ROM were assessed at screening and at Visit 1 (when the new hip brace was first worn), while other indicators were evaluated at screening, Visit 1, and Visit 2 (7 days after wearing the new hip brace). The study demonstrated significant improvements in the MI for the right hip, left hip, and both sides. However, there were no statistically significant differences in hip and knee joint ROM. Other indicators showed significant changes between screening, Visit 1, and Visit 2. The study suggests that customized hip braces effectively achieved immediate correction, positively impacting the quality of life and satisfaction in children with cerebral palsy. Furthermore, the hip braces have the potential to enhance compliance and prevent hip subluxation.Clinical Trial Registration number: NCT05388422., (© 2023. The Author(s).)

Published

2023

6. Bulk Rashba-Type Spin Splitting in Non-Centrosymmetric Artificial Superlattices.

Author

Ham WS, Ho TH, Shiota Y, Iino T, Ando F, Ikebuchi T, Kotani Y, Nakamura T, Kan D, Shimakawa Y, Moriyma T, Im E, Lee NJ, Kim KW, Hong SC, Rhim SH, Ono T, and Kim S

Abstract

Spin current, converted from charge current via spin Hall or Rashba effects, can transfer its angular momentum to local moments in a ferromagnetic layer. In this regard, the high charge-to-spin conversion efficiency is required for magnetization manipulation for developing future memory or logic devices including magnetic random-access memory. Here, the bulk Rashba-type charge-to-spin conversion is demonstrated in an artificial superlattice without centrosymmetry. The charge-to-spin conversion in [Pt/Co/W] superlattice with sub-nm scale thickness shows strong W thickness dependence. When the W thickness becomes 0.6 nm, the observed field-like torque efficiency is about 0.6, which is an order larger than other metallic heterostructures. First-principles calculation suggests that such large field-like torque arises from bulk-type Rashba effect due to the vertically broken inversion symmetry inherent from W layers. The result implies that the spin splitting in a band of such an ABC-type artificial SL can be an additional degree of freedom for the large charge-to-spin conversion., (© 2023 The Authors. Advanced Science published by Wiley-VCH GmbH.)

Published

2023

7. Giant Orbital Anisotropy with Strong Spin-Orbit Coupling Established at the Pseudomorphic Interface of the Co/Pd Superlattice.

Author

Kim S, Pathak S, Rhim SH, Cha J, Jekal S, Hong SC, Lee HH, Park SH, Lee HK, Park JH, Lee S, Steinrück HG, Mehta A, Wang SX, and Hong J

Abstract

Orbital anisotropy at interfaces in magnetic heterostructures has been key to pioneering spin-orbit-related phenomena. However, modulating the interface's electronic structure to make it abnormally asymmetric has been challenging because of lack of appropriate methods. Here, the authors report that low-energy proton irradiation achieves a strong level of inversion asymmetry and unusual strain at interfaces in [Co/Pd] superlattices through nondestructive, selective removal of oxygen from Co 3 O 4 /Pd superlattices during irradiation. Structural investigations corroborate that progressive reduction of Co 3 O 4 into Co establishes pseudomorphic growth with sharp interfaces and atypically large tensile stress. The normal component of orbital to spin magnetic moment at the interface is the largest among those observed in layered Co systems, which is associated with giant orbital anisotropy theoretically confirmed, and resulting very large interfacial magnetic anisotropy is observed. All results attribute not only to giant orbital anisotropy but to enhanced interfacial spin-orbit coupling owing to the pseudomorphic nature at the interface. They are strongly supported by the observation of reversal of polarity of temperature-dependent Anomalous Hall signal, a signature of Berry phase. This work suggests that establishing both giant orbital anisotropy and strong spin-orbit coupling at the interface is key to exploring spintronic devices with new functionalities., (© 2022 The Authors. Advanced Science published by Wiley-VCH GmbH.)

Published

2022

8. Inducing and manipulating magnetization in 2D zinc-oxide by strain and external voltage.

Author

Taivansaikhan P, Tsevelmaa T, Rhim SH, Hong SC, and Odkhuu D

Abstract

Two-dimensional (2D) structures that exhibit intriguing magnetic phenomena such as perpendicular magnetic anisotropy and its switchable feature are of great interests in spintronics research. Herein, the density functional theory studies reveal the critical impacts of strain and external gating on vacancy-induced magnetism and its spin direction in a graphene-like single layer of zinc oxide (ZnO). In contrast to the pristine and defective ZnO with an O-vacancy, the presence of a Zn-vacancy induces significant magnetic moments to its first neighboring O and Zn atoms due to the charge deficit. We further predict that the direction of magnetization easy axis reverses from an in-plane to perpendicular orientation under a practically achievable biaxial compressive strain of only ~1-2% or applying an electric field by means of the charge density modulation. This magnetization reversal is mainly driven by the strain- and electric-field-induced changes in the spin-orbit coupled d states of the first-neighbor Zn atom to a Zn-vacancy. These findings open interesting prospects for exploiting strain and electric field engineering to manipulate magnetism and magnetization orientation of 2D materials.

Published

2018

9. Growth and Simultaneous Valleys Manipulation of Two-Dimensional MoSe 2 -WSe 2 Lateral Heterostructure.

Author

Ullah F, Sim Y, Le CT, Seong MJ, Jang JI, Rhim SH, Tran Khac BC, Chung KH, Park K, Lee Y, Kim K, Jeong HY, and Kim YS

Abstract

The covalently bonded in-plane heterostructure (HS) of monolayer transition-metal dichalcogenides (TMDCs) possesses huge potential for high-speed electronic devices in terms of valleytronics. In this study, high-quality monolayer MoSe 2 -WSe 2 lateral HSs are grown by pulsed-laser-deposition-assisted selenization method. The sharp interface of the lateral HS is verified by morphological and optical characterizations. Intriguingly, photoluminescence spectra acquired from the interface show rather clear signatures of pristine MoSe 2 and WSe 2 with no intermediate energy peak related to intralayer excitonic matter or formation of Mo x W (1-x) Se 2 alloys, thereby confirming the sharp interface. Furthermore, the discrete nature of laterally attached TMDC monolayers, each with doubly degenerated but nonequivalent energy valleys marked by (K M , K' M ) for MoSe 2 and (K W , K' W ) for WSe 2 in k space, allows simultaneous control of the four valleys within the excitation area without any crosstalk effect over the interface. As an example, K M and K W valleys or K' M and K' W valleys are simultaneously polarized by controlling the helicity of circularly polarized optical pumping, where the maximum degree of polarization is achieved at their respective band edges. The current work provides the growth mechanism of laterally sharp HSs and highlights their potential use in valleytronics.

Published

2017

10. Coherent Lattice Vibrations in Mono- and Few-Layer WSe2.

Author

Jeong TY, Jin BM, Rhim SH, Debbichi L, Park J, Jang YD, Lee HR, Chae DH, Lee D, Kim YH, Jung S, and Yee KJ

Abstract

We report the observation of coherent lattice vibrations in mono- and few-layer WSe2 in the time domain, which were obtained by performing time-resolved transmission measurements. Upon the excitation of ultrashort pulses with the energy resonant to that of A excitons, coherent oscillations of the A1g optical phonon and longitudinal acoustic phonon at the M point of the Brillouin zone (LA(M)) were impulsively generated in monolayer WSe2. In multilayer WSe2 flakes, the interlayer breathing mode (B1) is found to be sensitive to the number of layers, demonstrating its usefulness in characterizing layered transition metal dichalcogenide materials. On the basis of temperature-dependent measurements, we find that the A1g optical phonon mode decays into two acoustic phonons through the anharmonic decay process.

Published

2016

11. Hybrid germanium iodide perovskite semiconductors: active lone pairs, structural distortions, direct and indirect energy gaps, and strong nonlinear optical properties.

Author

Stoumpos CC, Frazer L, Clark DJ, Kim YS, Rhim SH, Freeman AJ, Ketterson JB, Jang JI, and Kanatzidis MG

Abstract

The synthesis and properties of the hybrid organic/inorganic germanium perovskite compounds, AGeI3, are reported (A = Cs, organic cation). The systematic study of this reaction system led to the isolation of 6 new hybrid semiconductors. Using CsGeI3 (1) as the prototype compound, we have prepared methylammonium, CH3NH3GeI3 (2), formamidinium, HC(NH2)2GeI3 (3), acetamidinium, CH3C(NH2)2GeI3 (4), guanidinium, C(NH2)3GeI3 (5), trimethylammonium, (CH3)3NHGeI3 (6), and isopropylammonium, (CH3)2C(H)NH3GeI3 (7) analogues. The crystal structures of the compounds are classified based on their dimensionality with 1–4 forming 3D perovskite frameworks and 5–7 1D infinite chains. Compounds 1–7, with the exception of compounds 5 (centrosymmetric) and 7 (nonpolar acentric), crystallize in polar space groups. The 3D compounds have direct band gaps of 1.6 eV (1), 1.9 eV (2), 2.2 eV (3), and 2.5 eV (4), while the 1D compounds have indirect band gaps of 2.7 eV (5), 2.5 eV (6), and 2.8 eV (7). Herein, we report on the second harmonic generation (SHG) properties of the compounds, which display remarkably strong, type I phase-matchable SHG response with high laser-induced damage thresholds (up to ∼3 GW/cm(2)). The second-order nonlinear susceptibility, χS(2), was determined to be 125.3 ± 10.5 pm/V (1), (161.0 ± 14.5) pm/V (2), 143.0 ± 13.5 pm/V (3), and 57.2 ± 5.5 pm/V (4). First-principles density functional theory electronic structure calculations indicate that the large SHG response is attributed to the high density of states in the valence band due to sp-hybridization of the Ge and I orbitals, a consequence of the lone pair activation.

Published

2015

12. Enrichment of cancer cells from whole blood using a microfabricated porous filter.

Author

Kim EH, Lee JK, Kim BC, Rhim SH, Kim JW, Kim KH, Jung SM, Park PS, Park HC, Lee J, and Jeon BH

Subjects

Cell Line, Tumor, Cell Separation methods, Cell Size, Filtration methods, Humans, Cell Separation instrumentation, Filtration instrumentation, Microtechnology methods, Neoplastic Cells, Circulating

Abstract

Enrichment of circulating tumor cells (CTCs) from whole blood is very challenging due to its rarity. We have developed a new CTC enrichment method using a microfabricated filter. The filter was designed to fractionate tumor cells by cell size and optimized to have high porosity and proper pore distribution. When cancer cells were spiked in whole blood, the average recovery rate was 82.0 to 86.7% and the limit of detection by filtration process was approximately 2 cancer cells in a testing volume of blood. The results indicate that the microfabricated filter-based enrichment would be useful to retrieve and analyze CTCs in practice., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

13. Structural, electronic, and linear optical properties of organic photovoltaic PBTTT-C14 crystal.

Author

Li LH, Kontsevoi OY, Rhim SH, and Freeman AJ

Subjects

Electrons, Molecular Structure, Optical Phenomena, Quantum Theory, Electric Power Supplies, Polymers chemistry, Thiophenes chemistry

Abstract

Poly(2,5-bis(3-tetradecylthiophen-2yl)thieno(3,2-b)thiophene) (PBTTT-C14) is an important electro-optical polymer, whose three-dimensional crystal structure is somewhat ambiguous and the fundamental electronic and linear optical properties are not well known. We carried out first-principles calculations to model the crystal structure and to study the effect of side-chains on the physical structure and electronic properties. Our calculations suggest that the patterns of side-chain has little direct effect on the valence band maximum and conduction band minimum but they do have impact on the bandgap through changing the π-π stacking distance. By examining the band structure and wave functions, we conclude that the fundamental bandgap of the PBTTT-C14 crystal is determined by the conduction band energy at the Q point. The calculations indicate that the bandgap of PBTTT-C14 crystal may be tunable by introducing different side-chains. The significant peak in the imaginary part of the dielectric function arises from transitions along the polymer backbone axis, as determined by the critical-point analysis and the large optical transition matrix elements in the direction of the backbone.

Published

2013

14. Topological oxide insulator in cubic perovskite structure.

Author

Jin H, Rhim SH, Im J, and Freeman AJ

Subjects

Computer Simulation, Electric Conductivity, Molecular Conformation, Calcium Compounds chemistry, Models, Chemical, Models, Molecular, Nanoparticles chemistry, Nanoparticles ultrastructure, Oxides chemistry, Titanium chemistry

Abstract

The emergence of topologically protected conducting states with the chiral spin texture is the most prominent feature at the surface of topological insulators. On the application side, large band gap and high resistivity to distinguish surface from bulk degrees of freedom should be guaranteed for the full usage of the surface states. Here, we suggest that the oxide cubic perovskite YBiO3, more than just an oxide, defines itself as a new three-dimensional topological insulator exhibiting both a large bulk band gap and a high resistivity. Based on first-principles calculations varying the spin-orbit coupling strength, the non-trivial band topology of YBiO3 is investigated, where the spin-orbit coupling of the Bi 6p orbital plays a crucial role. Taking the exquisite synthesis techniques in oxide electronics into account, YBiO3 can also be used to provide various interface configurations hosting exotic topological phenomena combined with other quantum phases.

Published

2013

15. Strong perpendicular magnetocrystalline anisotropy of bulk and the (001) surface of DO22Mn3Ga: a density functional study.

Author

Yun WS, Cha GB, Kim IG, Rhim SH, and Hong SC

Abstract

Strong perpendicular magnetocrystalline anisotropy (MCA) and low saturation magnetization are found in DO22Mn(3)Ga using the full-potential linearized augmented plane wave (FLAPW) method. The ferrimagnetism in the bulk is well preserved in the surfaces of Mn(3)Ga for two possible terminations, where the perpendicular MCA in the (001) direction is greatly enhanced over the bulk, consistent with experiments. Furthermore, the robustness of MCA with respect to lattice strain and a good lattice match with popular substrates suggest that Mn(3)Ga can be a good candidate for strain-resistance spintronics applications.

Published

2012

16. Epitaxial graphene on SiC(0001): more than just honeycombs.

Author

Qi Y, Rhim SH, Sun GF, Weinert M, and Li L

Abstract

Using scanning tunneling microscopy with Fe-coated W tips and first-principles calculations, we show that the interface of epitaxial graphene/SiC(0001) is a warped graphene layer with hexagon-pentagon-heptagon (H(5,6,7)) defects that break the honeycomb symmetry, thereby inducing a gap and states below E(F near the K point. Although the next graphene layer assumes the perfect honeycomb lattice, its interaction with the warped layer modifies )the dispersion about the Dirac point. These results explain recent angle-resolved photoemission and carbon core-level shift data and solve the long-standing problem of the interfacial structure of epitaxial graphene on SiC(0001).

Published

2010

17. Injecting saline through the epidural needle decreases the iv epidural catheter placement rate during combined spinal-epidural labour analgesia.

Author

Gadalla F, Lee SH, Choi KC, Fong J, Gomillion MC, and Leighton BL

Subjects

Adult, Analgesics, Opioid therapeutic use, Epidural Space, Female, Fentanyl therapeutic use, Humans, Injections, Epidural, Pregnancy, Prospective Studies, Sodium Chloride administration & dosage, Sufentanil therapeutic use, Analgesia, Epidural instrumentation, Analgesia, Obstetrical instrumentation, Catheterization, Labor, Obstetric physiology, Sodium Chloride therapeutic use

Abstract

Purpose: To determine if injecting 10 mL saline before epidural catheter threading (pre-cannulation epidural fluid injection) can decrease the incidence of iv epidural catheter placement during combined spinal-epidural (CSE) labour analgesia., Methods: One hundred healthy women requesting CSE labour analgesia with either fentanyl 20 microg or sufentanil 10 microg were prospectively randomized to receive either no epidural injection (dry group, n = 50) or epidural 10 mL saline injection (saline group, n = 50) before epidural catheter placement. A nylon multiport catheter was then threaded 3-5 cm into the epidural space and the needle was removed. We diagnosed iv catheter placement if blood was freely aspirated, if the mother became tachycardic after injection of epinephrine 15 microg, or if intracardiac air was heard (using ultrasound) after injection of air 1.5 mL., Results: Intravenous epidural catheter placement occurred in one saline and ten dry group patients (P < 0.01). No complications of excessive cephalad intrathecal opioid spread (i.e., difficulty swallowing, hypoxemia, or respiratory arrest) occurred., Conclusions: Injecting 10 mL or saline through the epidural needle after intrathecal opioid injection and before threading the catheter significantly decreased accidental venous catheter placement without any apparent increase in complications from excessive cephalad intrathecal opioid spread.

Published

2003

18. Autoimmune disease of the ovary induced by a ZP3 peptide from the mouse zona pellucida.

Author

Rhim SH, Millar SE, Robey F, Luo AM, Lou YH, Yule T, Allen P, Dean J, and Tung KS

Subjects

Amino Acid Sequence, Animals, Antigens immunology, CD4-Positive T-Lymphocytes immunology, CD4-Positive T-Lymphocytes transplantation, Disease Models, Animal, Epitopes immunology, Female, Mice, Mice, Inbred Strains, Molecular Sequence Data, Oophoritis chemically induced, Oophoritis immunology, Ovarian Follicle pathology, Zona Pellucida chemistry, Zona Pellucida Glycoproteins, Autoimmune Diseases immunology, Egg Proteins, Glycoproteins immunology, Membrane Glycoproteins, Ovarian Diseases immunology, Receptors, Cell Surface, Zona Pellucida immunology

Abstract

We describe a novel experimental system in mice for the study of ovarian autoimmune disease, a condition encountered in women with premature ovarian failure. The ovarian autoimmune disease is induced in B6AF1 mice by a 15-amino acid peptide (Cys-Ser-Asn-Ser-Ser-Ser-Ser-Gln-Phe-Gln-Ile-His-Gly-Pro-Arg) from mouse ZP3, the sperm-binding component of the zona pellucida that surrounds growing and mature oocytes. Whereas the peptide induces both T cell and antibody responses, adoptive transfer of CD4+ T cell lines derived from affected animals causes oophoritis without observable antibodies to the zona pellucida peptide. The primacy of the T cell response in the pathogenesis of disease is further substantiated by defining oophoritogenic peptides as small as eight amino acids (Asn-Ser-Ser-Ser-Ser-Gln-Phe-Gln) that do not elicit an antibody response to the full-length ZP3 peptide. The identification of a well characterized peptide as a causative agent of autoimmune oophoritis should facilitate understanding of the pathogenesis of this T cell-mediated autoimmune disease. Because the proteins of the zona pellucida are conserved among mammals (the mouse and human ZP3 proteins are 67% identical), this murine model may lead to better understanding of the pathogenesis of human autoimmune oophoritis.

Published

1992

19. A murine model for B-cell lymphomagenesis in immunocompromised hosts: natural killer cells are an important component of host resistance to premalignant B-cell lines.

Author

Felsher DW, Rhim SH, and Braun J

Subjects

Animals, B-Lymphocytes cytology, B-Lymphocytes pathology, Disease Models, Animal, Female, Immunity, Cellular physiology, Interferon Type I pharmacology, Killer Cells, Natural immunology, Lymphoma, B-Cell genetics, Male, Mice, Mice, Inbred BALB C, T-Lymphocytes immunology, Immunocompetence immunology, Lymphoma, B-Cell etiology

Abstract

The accompanying paper (D. W. Felsher et al., Cancer Res., 50:7042-7049, 1990) describes a new panel of cloned murine B-cell lines with a premalignant phenotype and in vivo-derived malignant variants. This paper assesses the contribution of immune mediated antitumor mechanisms which might account for host resistance to the tumorigenicity of these cell lines. Conventional T-cell-dependent responses did not appear to be critical to host resistance. In vivo elimination of T-helper cells with anti-L3T4 monoclonal antibody did not reduce host resistance to the tumorigenicity of these cell lines, nor did these cell lines elicit cytotoxic T-cell activity. However, a strong correlation was found between tumorigenicity and host natural killer (NK) activity. In vitro studies demonstrated that the cell lines were as NK sensitive as the prototypical NK target, YAC-1, whereas the malignant variants fully tumorigenic in normal hosts were greater than 20-fold less NK sensitive than were the parent cell lines. In vivo depletion of NK cells with anti-asialo-GM1 in BALB/c strongly diminished host resistance to cell line tumorigenicity, whereas polydeoxyinosinic-deoxycytidilic acid induction of NK cells enhanced host resistance. These findings indicate that NK function is a critical component to host resistance in this system and suggest that endogenous cellular mechanisms which overcome NK sensitivity could be a target for secondary transforming events in B-cell lymphomagenesis. They also raise the unexpected possibility that a non-antigen-dependent (versus immune cytotoxic T-lymphocytes) effector mechanism may be the key deficit promoting B-cell neoplasia in the setting of immunocompromised states.

Published

1990