55 research outputs found
Effects of Polyacrylonitrile/MoS<sub>2</sub> Composite Nanofibers on the Growth Behavior of Bone Marrow Mesenchymal Stem Cells
In recent years, molybdenum disulfide
(MoS<sub>2</sub>) as a typical class of two-dimensional (2D) materials
has attracted wide attention because of its various fascinating properties.
In this study, we fabricated MoS<sub>2</sub> composite nanofibers
by electrospinning technology combined with a doping method. The as-prepared
MoS<sub>2</sub> composite nanofibers exhibited excellent biocompatibility.
In addition, the detailed investigation about the response of MoS<sub>2</sub> composite nanofibers on bone marrow mesenchymal stem cells
(BMSCs) indicated that the obtained MoS<sub>2</sub> composite nanofibers
could promote BMSC growth behavior, improve BMSC contact with each
other, maintain cellular activity, and also provide positive promotion
to regulate cellular proliferation. Moreover, the alkaline phosphatase
expression significantly increased with increasing MoS<sub>2</sub> concentration. Compared with the excellent biocompatibility and
natural extracellular-matrix-like structure, we believe that the MoS<sub>2</sub> composite nanofibers could provide new insight for the preparation
of well-defined MoS<sub>2</sub> nanostructure materials and will have
promising potential in biomedical applications, such as tissue engineering,
photothermal therapy, etc
Fabrication, Characterization, and Biocompatibility of Polymer Cored Reduced Graphene Oxide Nanofibers
Graphene nanofibers have shown a
promising potential across a wide spectrum of areas, including biology,
energy, and the environment. However, fabrication of graphene nanofibers
remains a challenging issue due to the broad size distribution and
extremely poor solubility of graphene. Herein, we report a facile
yet efficient approach for fabricating a novel class of polymer core-reduced
graphene oxide shell nanofiber mat (RGO–CSNFM) by direct heat-driven
self-assembly of graphene oxide sheets onto the surface of electrospun
polymeric nanofibers without any requirement of surface treatment.
Thus-prepared RGO–CSNFM demonstrated excellent mechanical,
electrical, and biocompatible properties. RGO–CSNFM also promoted
a higher cell anchorage and proliferation of human bone marrow mesenchymal
stem cells (hMSCs) compared to the free-standing RGO film without
the nanoscale fibrous structure. Further, cell viability of hMSCs
was comparable to that on the tissue culture plates (TCPs) with a
distinctive healthy morphology, indicating that the nanoscale fibrous
architecture plays a critically constructive role in supporting cellular
activities. In addition, the RGO–CSNFM exhibited excellent
electrical conductivity, making them an ideal candidate for conductive
cell culture, biosensing, and tissue engineering applications. These
findings could provide a new benchmark for preparing well-defined
graphene-based nanomaterial configurations and interfaces for biomedical
applications
Effect of MDS-MSC on T cell apoptosis.
<p>T cells were incubated for 3 days alone or with MDS-MSC or normal-MSC in the presence of the mitogen PHA.The test was conducted by Annexin-V and PI double staining and analyzed by flow cytometry. Data are expressed as mean±SD of triplicates of 5 separate experiments. Annexin V+ means the cells were PI negative and Annexin V positive. *P≤0.05.</p
Biocompatible, Free-Standing Film Composed of Bacterial Cellulose Nanofibers–Graphene Composite
In recent years, graphene films have
been used in a series of wide
applications in the biomedical area, because of several advantageous
characteristics. Currently, these films are derived from graphene
oxide (GO) via chemical or physical reduction methods, which results
in a significant decrease in surface hydrophilicity, although the
electrical property could be greatly improved, because of the reduction
process. Hence, the comprehensive performance of the graphene films
showed practical limitations in the biomedical field, because of incompatibility
of highly hydrophobic surfaces to support cell adhesion and growth.
In this work, we present a novel fabrication of bacterial cellulose
nanofibers/reduced graphene oxide (BC-RGO) film, using a bacterial
reduction method. Thus-prepared BC-RGO films maintained excellent
hydrophilicity, while electrical properties were improved by bacterial
reduction of GO films in culture. Human marrow mesenchymal stem cells
(hMSCs) cultured on these surfaces showed improved cellular response
with higher cell proliferation on the BC-RGO film, compared to free-standing
reduced graphene oxide film without the nanoscale fibrous structure.
Furthermore, the cellular adhesion and proliferation were even comparable
to that on the tissue culture plate, indicating that the bacterial
cellulose nanofibers play a critically contructive role in supporting
cellular activities. The novel fabrication method greatly enhanced
the biochemical activity of the cells on the surface, which could
aid in realizing several potential applications of graphene film in
biomedical area, such as tissue engineering, bacterial devices, etc
DataSheet1_Associations of serum cystatin C concentrations with total mortality and mortality of 12 site-specific cancers.docx
Purpose:Cystatin C (CysC), beyond its biomarker role of renal function, has been implicated in various physical and pathological activities. However, the impact of serum CysC on cancer mortality in a general population remains unknown. We aimed to examine the associations of serum CysC concentrations with total mortality and mortality of 12 site-specific cancers.Methods:We included 241,008 participants of the UK Biobank cohort with CysC measurements who had normal creatinine-based estimated glomerular filtration rates and were free of cancer and renal diseases at baseline (2006–2010). Death information was obtained from the National Health Service death records through 28 February 2021. Multivariable Cox proportional hazards models were used to compute hazard ratios (HR) per one standard deviation increase in log-transformed CysC concentrations and 95% confidence intervals (95% CI) for mortality.Results:Over a median follow-up of 12.1 (interquartile range, 11.3–12.8) years, 5,744 cancer deaths occurred. We observed a positive association between serum CysC concentrations and total cancer mortality (HR = 1.16, 95% CI: 1.12–1.20). Specifically, participants with higher serum CysC concentrations had increased mortality due to lung cancer (HR = 1.12, 95% CI: 1.05–1.20), blood cancer (HR = 1.29, 95% CI: 1.16–1.44), brain cancer (HR = 1.19, 95% CI: 1.04–1.36), esophageal cancer (HR = 1.20, 95% CI: 1.05–1.37), breast cancer (HR = 1.18, 95% CI: 1.03–1.36), and liver cancer (HR = 1.49, 95% CI: 1.31–1.69).Conclusion:Our findings indicate that higher CysC concentrations are associated with increased mortality due to lung, blood, brain, esophageal, breast, and liver cancers. Future studies are necessary to clarify underlying mechanisms.</p
Rectangle versus Square Oxalate-Connective Tetralanthanide Cluster Anchored in Lacunary Lindqvist Isopolytungstates: Syntheses, Structures, and Properties
Two types of unique oxalate-connective
lanthanide-substituted isopolyoxotungstates,
Na<sub>10</sub>[Ln<sub>2</sub>(C<sub>2</sub>O<sub>4</sub>)Â(H<sub>2</sub>O)<sub>4</sub>(OH)ÂW<sub>4</sub>O<sub>16</sub>]<sub>2</sub>·30H<sub>2</sub>O (<b>1</b>) and K<sub>4</sub>Na<sub>16</sub>[LnÂ(C<sub>2</sub>O<sub>4</sub>)ÂW<sub>5</sub>O<sub>18</sub>]<sub>4</sub>·60H<sub>2</sub>O (<b>2</b>) (Ln = Eu<sup>III</sup>, Ho<sup>III</sup>, Er<sup>III</sup>, or Tb<sup>III</sup>), have been synthesized under
conventional aqueous solution conditions and structurally characterized
by elemental analyses, IR spectra, single-crystal X-ray diffraction,
and thermogravimetric analyses. It should be pointed out that the
utilization of different alkaline cations leads to the formation of
two structural types. When only Na<sup>+</sup> ions are present in
the system, type <b>1</b> was obtained, while when Na<sup>+</sup> and K<sup>+</sup> ions are used, type <b>2</b> was found.
Complex <b>1</b> is a double-oxalate-bridging di-Ln substituted
Lindqvist dimer with a rectangle tetra-Ln cluster, whereas <b>2</b> is a single-oxalate-connective mono-Ln<sup>III</sup> Lindqvist tetramer
with square tetra-Ln cluster. As far as we know, such di-Ln substituted
Lindqvist fragment in <b>1</b> is observed for the first time.
Moreover, <b>2</b> represents the first organic–inorganic
hybrid square Ln-substituted isopolyoxotungstate. The solid-state
luminescent properties of <b>1-Eu</b>, <b>1-Tb</b>, <b>2-Eu</b>, and <b>2-Tb</b> have been measured. <b>1-Eu</b> and <b>2-Eu</b> display intense, sharp, and narrow emission
bands in the orange visible region that originate from the characteristic <sup>5</sup>D<sub>0</sub> → <sup>7</sup>F<sub><i>J</i></sub> transitions, and their fluorescence lifetimes are 1.18 and
1.20 ms, respectively. <b>1-Tb</b> and <b>2-Tb</b> exhibit
green photoluminescence mainly derived from <sup>5</sup>D<sub>4</sub> → <sup>7</sup>F<sub>5</sub> transitions. The decay behavior
of <b>1-Tb</b> can be fitted to a biexponential function with
lifetimes of Ď„<sub>1</sub> = 0.43 ms and Ď„<sub>2</sub> = 1.25 ms, whereas the decay behavior of <b>2-Tb</b> can be
fitted to single exponential function with the lifetime of 1.03 ms.
Magnetic susceptibilities of <b>1</b> and <b>2</b> have
been measured, and the decline of χ<sub>M</sub><i>T</i> upon cooling for <b>1</b> and <b>2</b> is mostly related
to the progressive thermal depopulation of the excited state of Ln
cations
MDS-MSC induce CD4+CD25+Foxp3+Tregs.
<p>(A) CD4+CD25-T cells were cultured with MDS-MSC or normal-MSC for 5 days, and CD4+ T cells were collected. The expression of CD25 and Foxp3 on CD4+ T cells was analyzed by FACS. Results are expressed as mean±SD of triplicates of 4 separate experiments. *P≤0.05. (B) CD4+T cells were cocultured with MDS-MSC generated CD4+CD25+Foxp3+Tregs or normal-MSC generated CD4+CD25+Foxp3+Tregs in the presence of PHA, and the T-lymphocyte proliferation was measured on day 5 by [3H]-thymidine incorporation. Results are expressed as mean±SD of triplicates of 4 separate experiments. *P≤0.05. (C) MDS-MSC generated CD4+CD25+Foxp3+Tregs or normal-MSC generated CD4+CD25+Foxp3+Tregs inhibited the response of allogeneic T-lymphocyte in a dose-dependent manner. Responder CD2+ T-lymphocyte were stimulated with PHA for 5 days with or without graded dosed of MDS-MSC generated CD4+CD25+Foxp3+Tregs or normal-MSC generated CD4+CD25+Foxp3+Tregs. Results are expressed as mean±SD of triplicates of 4 separate experiments. *p≤0.05. (D) CD4+CD25-T cells were cultured with high-risk MDS-MSC or low-risk MDS-MSC for 5 days, and CD4+ T cells were collected. The expression of CD25 and Foxp3 on CD4+ T cells was analyzed by FACS. Results are expressed as mean±SD of triplicates of 4 separate experiments. *P≤0.05.</p
MDS-MSC inhibit T-lymphocyte proliferation.
<p>Irradiated (15 Gy) MDS-MSC or normal-MSC were cultured for 5 days with CD2+ T-lymphocyte in the presence of PHA, then assessed by [3H]-thymidine incorporation. Data are expressed as mean±SD of triplicates of 5 separate experiments. *P≤0.05.</p
Induction of CD4+CD25+Foxp3+Tregs by MDS-MSC is dependent on TGFβ1.
<p>Western blot confirmed efficient knockdown of TGF-β1. (B) CD4+CD25-T cells were cultured with TGF-β1 knockdown MDS-MSC or normal-MSC for 5 days, and CD4+ T cells were collected. The expression of CD25 and Foxp3 on CD4+ T cells was analyzed by FACS. Results are expressed as mean±SD of triplicates of 5 separate experiments. *P≤0.05. (C) CD4+CD25-T cells were cultured with mutant siRNA transfected MDS-MSC or normal-MSC for 5 days, and CD4+ T cells were collected. The expression of CD25 and Foxp3 on CD4+ T cells was analyzed by FACS. Results are expressed as mean±SD of triplicates of 6 separate experiments. *P≤0.05. (D) anti-rhTGF-β1 mAb was added at the beginning of coculture of CD4+CD25-T cells and untransfected MDS-MSC or normal-MSC for 5 days, and CD4+ T cells were collected. The expression of CD25 and Foxp3 on CD4+ T cells was analyzed by FACS. Results are expressed as mean±SD of triplicates of 6 separate experiments. *P≤0.05.</p
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