Bone Tumor Suppression in Rabbits by Hyperthermia below the Clinical Safety Limit Using Aligned Magnetic Bone Cement.

Demonstrating highly efficient alternating current (AC) magnetic field heating of nanoparticles in physiological environments under clinically safe field parameters has remained a great challenge, hindering clinical applications of magnetic hyperthermia. In this work, exceptionally high loss power of magnetic bone cement under the clinical safety limit of AC field parameters, incorporating direct current field-aligned soft magnetic Zn0.3 Fe2.7 O4 nanoparticles with low concentration, is reported. Under an AC field of 4 kA m-1 at 430 kHz, the aligned bone cement with 0.2 wt% nanoparticles achieves a temperature increase of 30 °C in 180 s. This amounts to a specific loss power value of 327 W gmetal-1 and an intrinsic loss power of 47 nHm2 kg-1 , which is enhanced by 50-fold compared to randomly oriented samples. The high-performance magnetic bone cement allows for the demonstration of effective hyperthermia suppression of tumor growth in the bone marrow cavity of New Zealand White Rabbits subjected to rapid cooling due to blood circulation, and significant enhancement of survival rate.

Coordination Polymer-Mediated Molecular Surgery for Precise Interconversion of Dicyclobutane Compounds.

A Cd(II)-based coordination polymer {[Cd2(5-F-1,3-bpeb)2(FBA)4]·H2O}n (CP1) was obtained from Cd(II) salt, 5-fluoro-1,3-bis[2-(4-pyridyl)ethenyl]benzene (5-F-1,3-bpeb), and p-fluorobenzoic acid (HFBA). Within the one-dimensional chain structure of CP1, a pair of 5-F-1,3-bpeb was arranged in a face-to-face style. Upon UV irradiation and heat treatment, multiple cyclobutane isomers, including specific monocyclobutanes (1 with an endo-cyclobutane ring in CP1-1 and 1' with an exo-cyclobutane ring in CP1-1') and dicyclobutanes (endo,endo-dicyclobutane 2α in CP1-2α, exo,endo-dicyclobutane 2ß in CP1-2ß, and exo,exo-dicyclobutane 2γ in CP1-2γ) were stereoselectively produced. These isomers could be interconverted inside the CP via cutting/coupling specific bonds, which may be regarded as a type of molecular surgery. The precision of cutting/coupling relied on the thermal stability of the cyclobutanes and the alignment of the reactive alkene centers. The conversion processes were tracked through nuclear magnetic resonance, in situ powder X-ray diffraction, and IR spectroscopy. This approach can be considered as skeletal editing to construct complex organic compounds directly from one precursor.

Non-IgE-mediated hypersensitivity induced by multivitamins containing Tween-80.

Multivitamins have been widely used for years. Adverse reactions, especially hypersensitivity, to multivitamins are becoming noteworthy. However, the classification of hypersensitivity is confusing, and the trigger is unknown. Multivitamins consist of two vials labelled vial 1 containing Tween-80 and vial 2. Multivitamins without Tween-80 were used as a contrast. Behaviouristics, histamine, IgE, and blood pressure of beagle dogs and guinea-pigs were investigated by observation, ELISA and sphygmomanometer, and degranulation and apoptotic of RBL-2H3 cells were assayed by spectrophotometry and flow cytometry. The results showed that dogs suffered from multiorgan anaphylactoid symptoms, and dramatically decreased blood pressure, and high plasma concentrations of histamine after the first administration of multivitamins and multivitamins vial 1, which contains Tween-80, compared to the control, multivitamins vial 2 or multivitamins without Tween-80. In anaphylaxis assay, guinea-pigs did not display any anaphylaxis symptoms and there were no changes in plasma histamine and IgE concentrations in the multivitamins and multivitamins vial 1 groups or in the multivitamins vial 2 and multivitamins without Tween-80 groups except ovalbumin. Compared to the control, the release of ß-hexosaminidase and histamine, and the apoptosis of non-antigen-sensitized RBL-2H3 cells significantly increased in the Tween-80 and multivitamins and multivitamins vial 1 groups in a concentration-dependent manner. However, there was no alteration in multivitamins vial 2 and multivitamins without Tween-80 groups. The results indicate that the hypersensitivity induced by multivitamins may be anaphylactoid reaction, but not anaphylaxis. Multivitamin-induced release of inflammatory factors is triggered by Tween-80 through a non-IgE-mediated pathway.

Label-Free Quantitative Proteomic Profiling of LAD2 Mast Cell Releasates Reveals the Mechanism of Tween-80-Induced Anaphylactoid Reaction.

PURPOSE: Tween-80 is one of the most important causes resulting in anaphylactoid reaction. However, its mechanism remains unclear. Proteomic characterizations of mast cells' excreta in response to Tween-80 are assayed to investigate the mechanism of anaphylactoid reaction. EXPERIMENTAL DESIGN: A label-free LCMS/MS-based proteomics is used to analyze Tween-80-stimulated Laboratory of Allergic Diseases 2 (LAD2) mast cells releasates. The results of proteomic are analyzed by bioinformatics analysis. Western blotting is used to verify the expression of proteins. RESULTS: Overall, endocytosis, nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB), and calcium signaling pathways play important roles in Tween-80-induced LAD2 cells activation by bioinformatics analysis. The expressions of relative proteins including actin-related protein 2/3 complexes, vacuolar protein sorting-associated protein, phosphorylation of transcription factor of P105 and P65, phosphorylation of inositol 1,4,5-trisphosphate receptor (IP3 R), phosphoinositide phospholipase Cγ (PLCγ), and protein kinase C (PKC), are significantly increased in Tween-80 group compared to control. Tween-80 might be internalized via endocytosis, which induces degranulation by PLCγ/PKC pathways mediated calcium influx, and promotes the generation of inflammatory mediators via NF-κB pathway resulting in anaphylactoid reaction.