Human leukocyte antigen (HLA)-DR4/HLA-DRB1*04 has been reported to be a risk factor for Vogt-Koyanagi-Harada disease (VKH) with various strength of association. Its sub-alleles were also found to be associated with VKH. However the results were inconsistent. In this study, we systematically searched the related literature, pooled the odds ratios (ORs) and 95% confidence interval (CI) of association of HLA-DR4/HLA-DRB1*04 or its sub-alleles with VKH from individual studies, and explored the potential source of heterogeneity. A total of 1853 VKH patients and 4164 controls from 21 articles were included in this meta-analysis. The pooled OR of association of HLA-DR4/HLA-DRB1*04 and VKH was 8.42 (95% CI: 5.69–12.45). There were significant heterogeneity (I2 = 71%). Subgroup analysis indicated that ethnicity was the source of heterogeneity (all I2 = 0, ORs ranged from 2.09–13.69 in subgroups). The sub-alleles, HLA-DRB1*0404 (OR = 2.57), 0405 (OR = 10.31) and 0410 (OR = 6.52) increased the risk of VKH; 0401 (OR = 0.21) protected VKH; while other sub-alleles were not associated with VKH. Our meta-analysis confirmed the association between VKH and HLA-DR4/DRB1*04, found the strength of association is different in different ethnic groups, and identified HLA-DRB1*0404, 0405 and 0410 as risk sub-alleles while 0401 as protective sub-allele.
As an important chiral molecule for
the preparation of levofloxacin,
the optical purity of L-aminopropanol has a crucial effect on the
pharmacology and pharmacodynamics of levofloxacin. Therefore, it is
of great significance to discriminate D-aminopropanol and L-aminopropanol.
In this paper, an effective aminopropanol enantiomer recognition method
was established on the basis of the chiral fluorescent silicon nanoparticles
(SiNPs) probe. The chiral fluorescent SiNPs were fabricated via a
one-step aqueous solution synthesis strategy, which avoided multiple
steps, pressurizing operation, and time-consuming postmodified procedures.
Significantly, D-aminopropanol could significantly enhance the fluorescence
of the chiral SiNPs, while L-aminopropanol could not affect the fluorescence
of the chiral SiNPs. This could have occurred because of the stronger
interaction between the chiral SiNPs and D-aminopropanol than that
of L-aminopropanol. Thus, the rapid and selective recognition of the
aminopropanol enantiomer was ideally realized. The mechanism of the
chiral SiNPs recognizing aminopropanol was simulated by density functional
theory quantum mechanical calculations. Interestingly, this was also
proved by the separation of aminopropanol enantiomer using this chiral
SiNPs-modified silica column in normal phase liquid chromatography.
To the best of our knowledge, this is the first time that the chiral
fluorescent SiNPs were synthesized and used to detect the aminopropanol
enantiomer successfully. This work will inspire additional syntheses
of chiral silicon nanomaterials and other nanomaterials with excellent
properties and will enable application of chiral nanomaterials to
other fields.
Elevated expression of Copine 1 (CPNE1) has been observed in multiple cancers; however, the underlying mechanisms by which it affects cancer cells are unclear. We aimed to study the effect of CPNE1 on the tumorigenesis and radioresistance of triple‐negative breast cancer (TNBC). Quantitative real‐time polymerase chain reaction was used to detect the expression of CPNE1 in TNBC tissues and cell lines. Western blot, immunohistochemistry, and immunofluorescence were used to investigate the levels of CPNE1, p‐AKT, AKT, cleaved caspase‐3, cleaved PARP1, and γ‐H2AX. Cell viability and apoptosis were measured by CCK‐8 and flow cytometry, respectively. CPNE1 was overexpressed in TNBC tissues and cell lines and was associated with tumor size, distant metastases, and survival rates of patients with TNBC. Moreover, function study shows that CPNE1 promoted cell viability and inhibited cell apoptosis in vitro and inhibited the radiosensitivity of TNBC. Importantly, inactivation of AKT signaling inhibited the tumorigenesis and radioresistance mediated by CPNE1 in TNBC cells. In vivo xenograft study also shows that CPNE1 knockdown inhibited tumor growth and promoted cell apoptosis. Overall, our findings suggest that CPNE1 promotes tumorigenesis and radioresistance in TNBC by regulating AKT activation and targeted CPNE1 expression may be a strategy to sensitize TNBC cells toward radiation therapy.
a b s t r a c tThe mechanism of how the neutral block in polyelectrolyte (PE) affects the interaction between PE and surfactants is investigated through coarse-grained simulations. We show that the neutral block plays profound roles on the structural formation of the PE/surfactant complex by assessing the adsorption of surfactants on a diblock or triblock PE and the resultant structures. For the diblock PE/surfactant system, adding a hydrophilic neutral block exerts little effect on the structural formation of the complex, while the presence of a hydrophobic neutral block enhances the adsorption of surfactants and facilitates the formation of a tri-layer core-shell structure. In the triblock PE/surfactant systems, two charged blocks located symmetrically at both ends of PE display asymmetric adsorption abilities for the surfactants. In addition, the presence of a charged middle block drives the PE/surfactant complex to form a micelle with two tails due to the hydrophilic blocks at both ends, while the hydrophobic ones drive the formation of a tri-layer core-shell structure with the PE chain showing a looped structure. If one end is hydrophilic and the other is hydrophobic, the complex tends to form a 'tadpole'-like structure in which the head is the tri-layered core-shell sphere, and the tail is the hydrophilic block.
Herein, a novel chiral covalent organic framework, DA-TD COF, with good chemical/thermal stability was synthesized and used as chiral stationary phase for open-tubular capillary electrochromatography enantioseparation. The DA-TD COF coated...
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