An efficient direct competitive nano-ELISA for residual BSA determination in vaccines.

A simple, fast, and highly sensitive direct competitive enzyme-linked immunosorbent assay (ELISA) based on bovine serum albumin (BSA) antigen labeled amine-terminated silicon dioxide (SiO2-NH-BSA) nanoparticles was developed to determine residual BSA in vaccines. As nano-ELISA using nanomaterials with a very high surface-to-volume ratio has emerged as a promising strategy, SiO2-NH-BSA nanoparticles were prepared in this study by the coupling of BSA to SiO2 nanoparticles modified with amidogen, followed by the quantification of BSA via a direct competitive binding of BSA-antigen-labeled SiO2 nanoparticles to anti-BSA antibody conjugated with horseradish peroxidase. The validation study showed that the linear range of this method was from 1 to 90 ng/mL (r = 0.998) and the limit of detection was 0.67 ng/mL. The intra-assay and interassay coefficients of variation were less than 10% at three concentrations (10, 40, and 70 ng/mL), and the recovery was 92.4%, indicating good specificity. As a proof of principle, this new method was applied in the analysis of residual BSA in five different vaccines. Bland-Altman plots revealed that there was no significant difference in the accuracy and precision between our new method and the most commonly used sandwich ELISA. From the results taken together, the new method developed in this study is more sensitive and facile with lower cost and thus demonstrated potential to be applied in the quality control of biological products. Graphical Abstract Illustration of the procedures of the direct competitive enzyme immunoassay.

Construction of PLGA nanoparticles modified with RWrNM and DLPC and their application in acute rhinosinusitis.

In an effort to overcome the nasal mucus barrier and epithelial barrier, as well as reduce entry into the bloodstream, we designed RWrNM and DLPC-modified PLGA nanoparticles (PDR-NPs). These nanoparticles were further encapsulated with dexamethasone acetate (Dexac) to form Dexac/PDR-NPs. Transmission electron microscopy (TEM) analysis revealed their spherical shape with an outer lipid layer. Dynamic light scattering (DLS) determined their particle size to be 125.77 ± 2.01 nm, with a polydispersity index (PDI) of 0.139 ± 0.029. The experimental results demonstrate that DLPC-modified PLGA nanoparticles can effectively reduce interactions with mucin at different concentrations, decrease aggregation, and facilitate their crossing of the mucus barrier. Additionally, results from the cellular uptake assay revealed a significantly greater uptake of PDR-NPs by inflammatory RAW 264.7 cells (2.99-fold higher than that of free C6, p < 0.0001) and inflammatory HUVECs (7.20-fold higher than that of free C6, p < 0.0001). Furthermore, Dexac/PDR-NPs effectively reduced the levels of inflammatory factors nitric oxide (NO) (p < 0.001) and interleukin-6 (IL-6) (p < 0.05) in the supernatant of inflammatory RAW 264.7 cells. Intravital imaging of rats revealed that PDR-NPs had a longer residence time in inflamed nasal tissue compared to PD-NPs. Furthermore, in vivo pharmacodynamic experiments showed that Dexac/PDR-NPs effectively reduced the symptoms of nasal inflammation, lowered the pH of nasal secretions, decreased serum inflammatory factor levels (TNF-α and IL-6), and reduced nasal mucosal inflammatory factor levels (IL-1ß), while also reducing the degree of inflammation in the nasal mucosa. Both cytotoxicity assays and in vivo results indicate that PDR-NPs have a good safety profile. PDR-NPs not only overcome the nasal mucus barrier but also reduce the systemic toxicities associated with drug entry into the circulation by enhancing the targeting of inflammatory macrophages and inflammatory vascular endothelial cells. PDR-NPs allow for an "open sources and cut costs" treatment strategy to increase drug retention in the inflamed nasal tissues, reducing toxicity and increasing efficacy. In conclusion, PDR-NPs can be a promising drug delivery system for the local treatment of acute rhinosinusitis.

Overexpression of long non-coding RNA GASL1 induces apoptosis and G0/G1 cell cycle arrest in human oral cancer cells.

Oral cancer is one of the commonly reported malignancies of the human oral cavity and pharynx. It accounts for a significant level of cancer-based mortality across the globe. Long non-coding RNAs (lncRNAs) are emerging as important study targets in cancer therapy. The present study aimed to characterize the role of lncRNA GASL1 in regulating the growth, migration, and invasion of human oral cancer cells. The qRT-PCR showed significant (P<0.05) upregulation of GASL1 in oral cancer cells. Overexpression of GASL1 led to the loss of viability of HN6 oral cancer cells by inducing apoptosis which was associated with upregulation of Bax and downregulation of Bcl-2. The apoptotic cell percentage increased from 2. 81% in control to 25.89% upon GASL1 overexpression. Cell cycle analysis showed that overexpression of GASL1 increased the G1 cells from 35.19% in control to 84.52% upon GASL1 overexpression indicative of G0/G1 cell cycle arrest. Cell cycle arrest was also accompanied by inhibition of cyclin D1 and CDK4 protein expression. Wound healing and transwell assays showed that overexpression of GASL1 significantly (P<0.05) inhibited the migration and invasion of HN6 oral cancer cells. The invasion of the HN6 oral cancer cells was found to be decreased by more than 70%. Finally, the results of in vivo study revealed that GASL1 overexpression inhibits the xenografted tumor growth in vivo. Thus, the results are thus suggestive of the tumor-suppressive molecular role of GASL1 in oral cancer cells.

Investigation of the Active Compounds and Important Pathways of Huaiqihuang Granule for the Treatment of Immune Thrombocytopenia Using Network Pharmacology and Molecular Docking.

Materials and Methods: Compounds of HQHG were scanned by LC-MS/MS, and the target profiles of compounds were identified based on SwissTarget Prediction. ITP target proteins were collected from various databases. Then, KEGG pathway and GO enrichment analyses were performed to explore the signaling pathways related to HQHG for ITP. The PPI and drug-herbs-compounds-targets-pathways network were constructed using Cytoscape 3.7.2. Finally, Discovery studio software was used to confirm the key targets and active compounds from HQHG. Results: A total of 187 interacting targets of 19 potentially active compounds in HQHG and 3837 ITP-related targets were collected. Then, 187 intersection targets were obtained. A total of 20 key targets including EGFR, CASP3, TNF, STAT3, and ERBB2 were identified through PPI network analysis. These targets were mainly focused on the biological processes of positive regulation of protein phosphorylation, cellular response to organonitrogen compound, and cellular response to nitrogen compound. 20 possible pathways of HQHG in the treatment of ITP were identified through KEGG enrichment. EGFR, CASP3, TNF, and STAT3 are the four most important target proteins, while adenosine, caffeic acid, ferulic acid, quercetin-3ß-D-glucoside, rutin, scopoletin, and tianshic acid are the most important active compounds, which were validated by molecular docking simulation. Conclusion: This study demonstrated that HQHG produced relief effects against ITP by regulating multitargets and multipathways with multicompounds. And the combined data provide novel insight of drug developing for ITP.

[Mid-infrared and Raman spectral analysis of geometrically frustrated natural atacamite].

At room temperature, the mid-infrared spectra of geometrically frustrated natural atacamite (hydroxyl copper chloride, beta-Cu2(OH)3Cl) in the range of 4 000-400 cm(-1) were measured by FTIR spectrometers, and meanwhile its Raman spectrum in the range of 4 000-95 cm(-1) was obtained by Jobin Yvon LabRAM HR800 Raman spectrometer. According to its crystal structure parameters, the authors confirmed the characteristic peaks of sample 4 000-2 500-1 000 cm(-1) in the functional group region and 1 000-550-200-95 cm(-1) in the fingerprint region, and also explored its microscopic origin Five distinct regions were assigned: the hydroxyl stretching vibration v(O-H) determined by the overall environment around the hydroxyl group; the overtones generated by the sum or multiplication of fundamental frequencies of hydroxyl bending vibration; the hydroxyl bending vibration modes delta(O-H) of the combination of delta(Cu-O-H) and delta(O-H...HCl); the vibration modes of strongly bonded planar CuO4 units; the vibration modes of weakly bonded linear-triatomic chain Cl-Cu-O/Cl. The bands were assigned in accordance with its crystal structure parameters, which is more reasonable to establish the relationship between its molecular structure and its respective spectral properties.

Paclitaxel, Carboplatin, and Bevacizumab in Advanced Cervical Cancer: A Treatment Response and Safety Analysis.

BACKGROUND: Trials reported there are beneficial effects of the addition of bevacizumab to chemotherapy in advanced cervical cancer but might have adverse effects. The purposes of the study were to evaluate the treatment response and safety of the addition of bevacizumab to paclitaxel plus carboplatin in advanced cervical cancer women. METHODS: Data on treatment response, adverse effects, and overall survival of women who received paclitaxel plus carboplatin every 3 weeks (ACT cohort, n = 161) or paclitaxel, carboplatin, and bevacizumab every 3 weeks (PCB cohort, n = 127) until disease progression or severe adverse events were collected and analyzed. RESULTS: The treatment response of paclitaxel plus carboplatin increased on addition of bevacizumab (P = .037). Neutropenia (grade ≥3, P = .001), leukopenia (grade 4, P = .041), anemia (grade ≥3, P = .031), hypertension (grade ≥2, P = .002), and gastrointestinal fistula (grade ≥2, P = 0.006) are reported in the PCB cohort. Women of ACT and PCB cohorts reported an overall survival of 20.11 ± 3.15 months and 24.52 ± 4.05 months, respectively. CONCLUSIONS: Addition of bevacizumab increases the treatment response of paclitaxel and carboplatin chemotherapy and overall survival of women with advanced cervical cancers, but it is not well tolerated.