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1.
Chemistry ; 24(71): 18890-18896, 2018 Dec 17.
Artigo em Inglês | MEDLINE | ID: mdl-30338582

RESUMO

Luminescent materials are of great interest in many fields, such as fluorescent sensing and medical imaging. Here, the construction of lanthanide-based luminescent ultralong microfibers through supramolecular self-assembly (SSA) is reported. Nucleosides (thymidine in particular), the building blocks of nucleic acids, were used as new ligands to mediate the formation of luminescent microfibers in water. The length of microfibers from thymidine-lanthanide ion (Eu and Tb) SSA was on the centimeter scale. Notably, the microfibers exhibited strong luminescence because the lanthanide ions had been chelated, sensitized and effectively protected by thymidine molecules in water. Only when the stoichiometric ratio of lanthanide ion to thymidine was 1:3 and the pH of the solution was 7, are luminescent microfibers formed. Other nucleosides, such as adenosine, cytidine, and guanosine, could not form microfibers with the lanthanide ions. This work opens a new avenue for constructing nucleoside-lanthanide SSA architectures, which hold great potential in biological and optical related applications.


Assuntos
Európio/química , Substâncias Luminescentes/química , Térbio/química , Timidina/química , Íons/química , Luminescência , Modelos Moleculares , Água/química
2.
Adv Sci (Weinh) ; 11(5): e2305063, 2024 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-38044274

RESUMO

Bacterial infection-induced inflammatory response could cause irreversible death of pulp tissue in the absence of timely and effective therapy. Given that, the narrow structure of root canal limits the therapeutic effects of passive diffusion-drugs, considerable attention has been drawn to the development of nanomotors, which have high tissue penetration abilities but generally face the problem of insufficient fuel concentration. To address this drawback, dual-fuel propelled nanomotors (DPNMs) by encapsulating L-arginine (L-Arg), calcium peroxide (CaO2 ) in metal-organic framework is developed. Under pathological environment, L-Arg could release nitric oxide (NO) by reacting with reactive oxygen species (ROS) to provide the driving force for movement. Remarkably, the depleted ROS could be supplemented through the reaction between CaO2 with acids abundant in the inflammatory microenvironment. Owing to high diffusivity, NO achieves further tissue penetration based on the first-stage propulsion of nanomotors, thereby removing deep-seated bacterial infection. Results indicate that the nanomotors effectively eliminate bacterial infection based on antibacterial activity of NO, thereby blocking inflammatory response and oxidative damage, forming reparative dentine layer to avoid further exposure and infection. Thus, this work provides a propagable strategy to overcome fuel shortage and facilitates the therapy of deep lesions.


Assuntos
Infecções Bacterianas , Pulpite , Humanos , Espécies Reativas de Oxigênio , Óxido Nítrico , Arginina/uso terapêutico
3.
Fitoterapia ; 169: 105567, 2023 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-37315715

RESUMO

Eupatorium lindleyanum DC. has been used as a functional food in China for a long time. However, the antifibrotic activity of total sesquiterpenoids from Eupatorium lindleyanum DC. (TS-EL) is still unknown. In this study, we discovered that TS-EL reduced the increase in α-smooth muscle actin (α-SMA), type I collagen and fibronectin content, the formation of cell filaments and collagen gel contraction in transforming growth factor-ß1-stimulated human lung fibroblasts. Intriguingly, TS-EL did not change the phosphorylation of Smad2/3 and Erk1/2. TS-EL decreased the levels of serum response factor (SRF), a critical transcription factor of α-SMA, and SRF knockdown alleviated the transition of lung myofibroblasts. Furthermore, TS-EL significantly attenuated bleomycin (BLM)-induced lung pathology and collagen deposition and reduced the levels of two profibrotic markers, total lung hydroxyproline and α-SMA. TS-EL also decreased the levels of SRF protein expression in BLM-induced mice. These results suggested that TS-EL attenuates pulmonary fibrosis by inhibiting myofibroblast transition via the downregulation of SRF.


Assuntos
Eupatorium , Fibrose Pulmonar , Camundongos , Humanos , Animais , Fibrose Pulmonar/induzido quimicamente , Fibrose Pulmonar/tratamento farmacológico , Fibrose Pulmonar/metabolismo , Bleomicina/efeitos adversos , Bleomicina/metabolismo , Miofibroblastos/metabolismo , Miofibroblastos/patologia , Estrutura Molecular , Pulmão , Fator de Crescimento Transformador beta1/efeitos adversos , Fator de Crescimento Transformador beta1/metabolismo , Fibroblastos , Colágeno/metabolismo , Diferenciação Celular , Camundongos Endogâmicos C57BL
4.
Adv Mater ; 34(49): e2206779, 2022 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-36189876

RESUMO

In severe traumatic brain injury (sTBI), acute oxidative stress and inflammatory cascades rapidly spread to cause irreversible brain damage and low survival rate within minutes. Therefore, developing a feasible solution for the quick-treatment of life-threatening emergency is urgently demanded to earn time for hospital treatment. Herein, Janus catalysis-driven nanomotors (JCNs) are carefully constructed via plasma-induced alloying technology and sputtering-caused half-coating strategy. The theoretical calculation and experiment results indicate that the heteroatom-doping alloyed engine endows JCNs with much higher catalytic activity for removing reactive oxygen species and reactive nitrogen species than common Pt-based engines. When JCNs are dropped to the surface of the ruptured skull, they can effectively catalyze endogenous hydrogen peroxide, which induces movement as fuels to promote JCNs to deep brain lesions for further nanocatalyst-mediated cascade-blocking therapy. The results demonstrate that the JCNs successfully block the inflammatory cascades, thereby reversing multiple behavioral defects and dramatically declining the mortality of sTBI mice. This work provides a revolutionary nanomotor-based strategy to sense brain injury and scavenge oxidative stress. Meanwhile, the JCNs provide a feasible strategy to adapt various first-aid scenarios due to their self-propelled movement combined with highly multienzyme-like catalytic activity, exhibiting tremendous therapeutic potential to help people for emergency pretreatment.


Assuntos
Ligas , Lesões Encefálicas Traumáticas , Animais , Camundongos , Lesões Encefálicas Traumáticas/terapia
5.
ACS Appl Mater Interfaces ; 11(50): 47404-47412, 2019 Dec 18.
Artigo em Inglês | MEDLINE | ID: mdl-31763814

RESUMO

Supramolecular luminescent hydrogels based on natural molecules have shown high potential for a variety of applications because of unique optical properties and biocompatibility, particularly serving as advanced biomaterials for bioimaging, biosensing, cell engineering, and so forth. A lanthanide complex-based system provides a promising way to prepare supramolecular luminescent hydrogels. Herein, we realize the creation of a luminescent hydrogel assembled from lanthanides and nucleosides. Nucleosides, the essential components of nucleic acids, functioning as the ligands, successfully chelate with lanthanides and form complexes in water. The complexes subsequently serve as building-blocks to form supramolecular hydrogels, which exhibit characteristic luminescent emission of lanthanides. The coordination modes and forming mechanism are studied by electrospray ionization time-of-flight mass spectrometry, matrix-assisted laser desorption/ionization time of flight mass spectrometry, 1H NMR spectroscopy, and Fourier transform infrared spectroscopy; the corresponding molecular simulations are presented, and macro-/micro-morphologies, mechanical properties, and luminescent performances of hydrogels are systemically studied. Remarkably, these luminescent hydrogels show fluorochromic properties in response to external stimuli, including pH, temperature, anions, and cations, which are thus adopted to design smart luminescent switches and detect specific species such as Cu2+. Our work provides a feasible strategy to prepare stimuli-responsive luminescent hydrogels, reveals the diverse potential of nucleoside-based hydrogels, and exhibits a novel pathway for the preparation of smart optical materials.

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