34 research outputs found
Racemic synthesis of an intermediate for the formal synthesis of madindoline A and B
<p>On the basis of the application of the Darzens/ring-expansion process of cyclobutenedione developed previously by our group, a new strategy for the multisubstituted cyclopentene units of madindoline A and madindoline B has been reported in this paper. In light of the strategy, the synthesis of racemic Omura’s intermediate was finished in four steps and 34% overall yield, which furnished a new formal synthetic route to madindolines A and B.</p
Photothermal-Responsive Conjugated Polymer Nanoparticles for the Rapid and Effective Killing of Bacteria
The
emergence of drug-resistant bacterial strains makes antimicrobial
treatment a big challenge. Thus, more novel and effective antimicrobial
agents and treatments are urgently desired. Herein, we developed a
facile and rapid photothermal antimicrobial nanoplatform based on
near-infrared (NIR)-active and photothermal-responsive conjugated
polymer nanoparticles (CPNs) functionalized with cell-penetrating
peptide (CPNs-Tat). With a positively charged Tat peptide, CPNs-Tat
could enhance the interaction with bacteria cells with the formation
of CPNs-Tat/bacteria aggregation. Under NIR irradiation, CPNs-Tat
could convert the light into heat efficiently and produce local hyperthermia
to kill bacteria within a few minutes. This photothermal-responsive
strategy offers a rapid and effective modality for combating bacterial
infections
Fluorescence Ratiometric Assay Strategy for Chemical Transmitter of Living Cells Using H<sub>2</sub>O<sub>2</sub>‑Sensitive Conjugated Polymers
A new water-soluble
conjugated polyÂ(fluorene-<i>co</i>-phenylene) derivative
(PFP-FB) modified with boronate-protected
fluorescein (peroxyfluor-1) via PEG linker has been designed and synthesized.
In the presence of H<sub>2</sub>O<sub>2</sub>, the peroxyfluor-1 group
can transform into green fluorescent fluorescein by deprotecting the
boronate protecting groups. In this case, upon selective excitation
of PFP-FB backbone at 380 nm, efficient fluorescence resonance energy
transfer (FRET) from PFP-FB backbone to fluorescein occurs, and accordingly,
the fluorescence color of PFP-FB changes from blue to green. Furthermore,
the emission color of PFP-FB and the FRET ratio change in a concentration-dependent
manner. By taking advantage of PFP-FB, ratiometric detection of choline
and acetylcholine (ACh) through cascade enzymatic reactions and further
dynamic monitoring of the choline consumption process of cancer cells
have been successfully realized. Thus, this new polymer probe promotes
the development of enzymatic biosensors and provides a simpler and
more effective way for detecting the chemical transmitter of living
cells
Characteristics of Included Studies.
<p>Abbreviations: ED: Erectile dysfunction. IIEF 5 Questionnaire: International Index of Erectile Function (5 Items) Questionnaire.</p
Graphdiyne Materials as Nanotransducer for in Vivo Photoacoustic Imaging and Photothermal Therapy of Tumor
Two-dimensional
(2D) all-carbon materials hold great fascination
because of their superior properties and promising applications. Herein,
we presented the first demonstration for the use of graphdiyne (GDY)
as photothermo-acoustic wave nanotransducers for simultaneous effective
photoacoustic imaging (PAI) and photothermal therapy (PTT) in living
mice. With a large extinction coefficient in near-infrared (NIR) region,
upon irradiated by 808 nm laser, GDY not only exhibits a stable photothermal
performance with a high photothermal conversion efficiency of 42%,
but also provides an excellent photoacoustic response. Owing to its
good biocompatibility modified with PEGylation, GDY can be simultaneously
used as PAI probe and PTT agent and exhibits an efficient photothermal
ablation of cancer cells in living mice. This work opens a new way
into the development of 2D graphdiynes as novel theranostic platform
for cancer treatment
Light-Triggered Reversible Tuning of Second-Harmonic Generation in a Photoactive Plasmonic Molecular Nanocavity
The
ultrasmall mode volume and ultralarge local field enhancement
of compact plasmonic nanocavities have been widely explored to amplify
a variety of optical phenomena at the nanoscale. Other than passively
generating near-field enhancements, dynamic tuning of their intensity
and associated nonlinear optical processes such as second-harmonic
generation (SHG) play vital roles in the field of active nanophotonics.
Here we apply a host–guest molecular complex to construct a
photoswitchable molecule-sandwiched metallic particle-on-film nanocavity
(MPoFN) and demonstrate both light-controlled linear and nonlinear
optical tuning. Under alternating illumination of ultraviolet (UV)
and visible light, the photoactive plasmonic molecular nanocavity
shows reversible switching of both surface-enhanced Raman scattering
(SERS) and plasmon resonance. Surprisingly, we observe more significant
modulation of SHG from this photoactive MPoFN, which can be explained
qualitatively by the quantum conductivity theory (QCT). Our study
could pave the way for developing miniaturized integrated optical
circuits for ultrafast all-optical information processing and communication
Additional file 1 of MiR26a reverses enzalutamide resistance in a bone-tumor targeted system with an enhanced effect on bone metastatic CRPC
Supplementary Material
Table_1_COVID-19 pandemic-related depression and anxiety under lockdown: The chain mediating effect of self-efficacy and perceived stress.docx
ObjectiveIn early March 2022, the highly contagious Omicron variant rapidly emerged in Shanghai. This study aimed to explore the prevalence and associated factors of depression and anxiety in isolated or quarantined populations under lockdown.MethodsA cross-sectional study was conducted between May 12 and 25, 2022. The depressive and anxiety symptoms, perceived stress, self-efficacy and perceived social support in the 167 participants under isolated or quarantined were examined using the Patient Health Questionnaires-9 (PHQ-9), the Generalized Anxiety Disorder-7 (GAD-7), the Perceived Stress Scale-10 (PSS-10), the General Self-Efficacy Scale (GSES) and the Perceived Social Support Scale (PSSS). Data on demographic information were also collected.FindingsThe prevalence of depression and anxiety in isolated or quarantined populations was estimated to be 12 and 10.8%, respectively. Higher education level, being healthcare workers, being infected, longer duration of segregation and higher perceived stress level were identified as risk factors for depression and anxiety. Furthermore, the relationship between perceived social support and depression (anxiety) was mediated not only by perceived stress but also the chain of self-efficacy and perceived stress.ConclusionBeing infected, higher education level, longer duration of segregation and higher perceived stress were associated with higher levels of depression and anxiety among isolated or quarantined populations under lockdown. The formulation of psychological strategies that promote one’s perceived social support and self-efficacy as well as reduce perceived stress is supposed to be drawn.</p
ARQ 087 activity in tumor growth models.
<p>(A, C, D), Growth is inhibited in BaF3/FGFR2, SNU-16, and NCI-H716, xenograft models, but not inhibited in (B) BaF3/INSR. Results are represented as the mean of tumor volume in mm<sup>3</sup> ± SEM of each group (n = 8–10) in function of the treatment period. The tumor growth inhibition (TGI) is indicated on the plots.</p