Nanofiber Peptides for Bacterial Trapping: A Novel Approach to Antibiotic Alternatives in Wound Infections.

The pervasive employment of antibiotics has engendered the advent of drug-resistant bacteria, imperiling the well-being and health of both humans and animals. Infections precipitated by such multi-resistant bacteria, especially those induced by methicillin-resistant Staphylococcus aureus (MRSA), pervade hospital settings, constituting a grave menace to patient vitality. Antimicrobial peptides (AMPs) have garnered considerable attention as a potent countermeasure against multidrug resistant bacteria. In preceding research endeavors, an insect-derived antimicrobial peptide is identified that, while possessing antimicrobial attributes, manifested suboptimal efficacy against drug-resistant Gram-positive bacteria. To ameliorate this issue, this work enhances the antimicrobial capabilities of the initial ß-hairpin AMPs by substituting the structural sequence of the original AMPs with variant lengths of hydrophobic amino acid-hydrophilic amino acid repeat units. Throughout this endeavor, this work has identified a number of peptides that possess highly effective antibacterial characteristics against a wide range of bacteria. Additionally, some of these peptides have the ability to self-assemble into nanofibers, which then build networks in a distinctive manner to capture bacteria. Consequently, they represent prospective antibiotic alternatives for addressing wound infections engendered by drug-resistant bacteria.

Construction of TiO2/starch nanocomposite cryogel for ethylene removal and banana preservation.

Perishability caused by natural plant hormone ethylene has attracted great attention in the field of fruit and vegetable (F&V) preservation. Various physical and chemical methods have been applied to remove ethylene, but the eco-unfriendliness and toxicity of these methods limit their application. Herein, a novel starch-based ethylene scavenger was developed by introducing TiO2 nanoparticles into starch cryogel and applying ultrasonic treatment to further improve ethylene removal efficiency. As a porous carrier, the pore wall of cryogel provided dispersion space, which increased the area of TiO2 exposed to UV light, thereby endowing starch cryogel with ethylene removal capacity. The photocatalytic performance of scavenger reached the maximum ethylene degradation efficiency of 89.60 % when the TiO2 loading was 3 %. Ultrasonic treatment interrupted starch molecular chains and then promoted their rearrangement, increasing the material specific surface area from 54.6 m2/g to 225.15 m2/g and improving the ethylene degradation efficiency by 63.23 % compared with the non-sonicated cryogel. Furthermore, the scavenger exhibits good practicability for removing ethylene as a banana package. This work provides a new carbohydrate-based ethylene scavenger, utilizing as a non-food contact inner filler of F&V packaging in practical applications, which exhibits great potential in F&V preservation and broadens the application fields of starch.

High sensitivity detection of tumor cells in biological samples using a multivalent aptamer strand displacement strategy.

Monitoring the cell surface-expressed nucleolin facilitates early cancer diagnosis. Herein, we developed a multivalent aptamer displacement strand duplex strategy on cell membranes using a multi-receptor co-recognition design for improving the sensitivity and specificity of cancer cell recognition with an ultra-low background. The AS1411 aptamer labeled with the FAM fluorophore can be quenched using a partial complementary sequence modified with a BHQ1 tag which is partially hybridized with the AS1411 aptamer to create a receptor-activating aptamer. The multi-AS1411 activable probe based on the strand displacement strategy was constructed using multiple copies of the structure-switching AS1411 aptamer (bearing a short poly-A tail) linked together using the poly-T long chain (as a scaffold) which was synthesized by Terminal Deoxynucleotidyl Transferase (TDT)-mediated extension. We demonstrated the promising efficacy and sensitivity of our method in recognizing tumor cells in both cell mixtures and clinical cytology specimens. Due to its simple and fast operation with excellent cell recognition sensitivity and accuracy, it is expected to achieve the detection of low abundance target cells. Our approach will have broad application in clinical rapid detection and personalized medicine.

Serum Expression of ESM-1, HMWA, and AGEs and Its Relationship with Disease Severity in Patients with Gestational Hypertension.

OBJECTIVE: The research is to investigate the expression and the relationship between serum endothelial cell-specific molecular molecule-1 (ESM-1), high molecular weight adiponectin (HMWA), and late glycosylation terminal product (AGEs) in patients with gestational hypertension. METHODS: 75 patients with pregnant hypertension who were treated in our hospital from June 2019 to June 2020 were selected as the case group, and 70 healthy pregnant women with pregnancy examination at the same period in our hospital were selected as the control group to analyze the changes in serum ESM-1, HMWA, and AGEs levels and the correlation with the degree of illness and their predictive value. RESULTS: Serum ESM-1 and AGEs were significantly higher in the case group than in the control group. Serum HMWA was significantly lower than that in the control group (P < 0.05). The gestational hypertensive serum ESM-1 and AGEs was significantly lower than in patients with mild preeclampsia and severe preeclampsia. Serum HMWA was significantly higher than in patients with mild preeclampsia and severe preeclampsia. Serum ESM-1 and AGEs of mild preeclampsia were significantly lower than in patients with severe preeclampsia. Serum HMWA was significantly higher than in patients with severe preeclampsia (P < 0.05). The result of correlation analysis shows a positive correlation between serum ESM-1 and AGEs (P < 0.05). A negative correlation was observed between HMWA and the degree of illness (P < 0.05). CONCLUSION: Serum ESM-1, HMWA, and AGEs are abnormally expressed in gestational hypertension, are closely related to the degree of condition, and have important clinical significance for condition control.

Superior All-Solid-State Batteries Enabled by a Gas-Phase-Synthesized Sulfide Electrolyte with Ultrahigh Moisture Stability and Ionic Conductivity.

Sulfide solid electrolytes (SEs) are recognized as one of the most promising candidates for all-solid-state batteries (ASSBs), due to their superior ionic conductivity and remarkable ductility. However, poor air stability, complex synthesis process, low yield, and high production cost obstruct the large-scale application of sulfide SEs. Herein, a one-step gas-phase synthesis method for sulfide SEs with oxide raw materials in ambient air, completely getting rid of the glovebox and thus making large-scale production possible, is reported. By adjusting substituted elements and concentrations, the ionic conductivity of Li4- x Sn1- x Mx S4 can reach 2.45 mS cm-1 , which represents the highest value among all reported moist-air-stable and recoverable lithium-ion sulfide SEs reported. Furthermore, ASSBs with air/water-exposed and moderate-temperature-treated Li3.875 Sn0.875 As0.125 S4 even maintains superior performances with the highest reversible capacity (188.4 mAh g-1 ) and the longest cycle life (210 cycles), which also breaks the record. Therefore, it may become one of the most critical breakthroughs during the development of sulfide ASSBs toward its practical application and commercialization.

High-Sensitive Detection of Small-Cell Lung Cancer Cells Based on Terminal Deoxynucleotidyl Transferase-Mediated Extension Polymerization Aptamer Probe.

Small-cell lung cancer (SCLC) is characterized by early metastasis and high invasiveness, poor prognosis, and a low five-year survival rate. Therefore, the development of the effective detection of SCLC cells and imaging methods has potential significance for the prognosis and treatment of SCLC. We designed a terminal deoxynucleotidyl transferase (TdT)-mediated extension polymerization aptamer probe (denoted as TEPAP). Aptamer HCC03 was used as an element of recognizing SCLC, and it was extended as a long poly(T) tail at the 3'-hydroxyl terminus by TdT and then hybridized with short poly(A) labeled with 6-carboxyfluorescein (FAM) to construct TEPAP for the high-sensitivity detection of SCLC. The results showed that the probe could specifically recognize NCI-H446 cells. Compared with HCC03 labeled with FAM, TEPAP has demonstrated a higher fluorescence signal in recognizing NCI-H446 cells, and the fluorescence intensity of TEPAP recognizing the target cells was 10 times higher than that of nontarget cells. Flow cytometric analysis showed that the detection limit of this method was as low as 17 NCI-H446 cells in 200 µL of binding buffer. In the application of clinical cytology cell blocks, the sensitivity, specificity, and accuracy of TEPAP were 89.74, 94.44, and 91.23%, respectively. The high sensitivity and specificity of TEPAP in the application of clinical samples show that the proposed probe has great potential in the diagnosis of SCLC.

Phytoremediation potential of Youngia japonica (L.) DC: a newly discovered cadmium hyperaccumulator.

Cadmium (Cd) is one of the most toxic contaminants, causing a lot of harm to environment and the human health. An outdoor pot experiment for 60 days was conducted to study the Cd(II) effects on growth, biomass, physiological properties, Cd uptake, and accumulation in Youngia japonica plants but also to evaluate the effect of Y. japonica growth on enzyme activity of Cd-contamination soils. Generally, the application of Cd(II) less than 120 mg kg-1 stimulated the growth of the plants, whereas at 160 mg kg-1 or higher levels, a significant reduction was observed. For all treatments > 10 mg kg-1 Cd(II) in soil, values of Cd in roots and aboveground parts were more than the critical value of 100 mg kg-1 and reached highest values of 252.51 and 314.29 mg kg-1, respectively. The bioconcentration factors (BCF) and translation factors (TF) for all Cd treatments were more than 1.0, with the former ranging from 1.03 to 5.46 and the later from 1.04 to 1.33. The activities of peroxidase (POD) and superoxide dismutase (SOD), as well as the levels of glutathione (GSH) and proline in Y. japonica plants after exposure to 10-200 mg kg-1 Cd(II) were stimulated, implying that they were defensive guards to the oxidative stress produced by Cd. The urease, dehydrogenase, and alkaline phosphatase activities under low Cd concentrations can be enhanced by planting Y. japonica species but inhibited under high Cd concentrations. Our data provide comprehensive evidence that Y. japonica has the typical properties of a Cd hyperaccumulator and thus may be practically employed to alleviate Cd from contaminated soils.

Diversity and bioactivities of fungal endophytes from Distylium chinense, a rare waterlogging tolerant plant endemic to the Three Gorges Reservoir.

BACKGROUND: The present study involves diversity and biological activities of the endophytic fungal community from Distylium chinense, a rare waterlogging tolerant plant endemic to the Three Gorges Reservoir. This study has been conducted hypothesizing that the microbial communities in the TGR area would contribute to the host plant tolerating a range of abiotic stress such as summer flooding, infertility, drought, salinity and soil erosion etc., and they may produce new metabolites, which may possess plentiful bioactive property, especially antioxidant activity. Therefore in the current study, the antioxidant, antimicrobial and anticancer activities of 154 endophytes recovered from D. chinense have been investigated. Furthermore, the active metabolites of the most broad-spectrum bioactive strain have also been studied. RESULTS: A total of 154 fungal endophytes were isolated from roots and stems. They were categorized into 30 morphotypes based on cultural characteristics and were affiliated with 27 different taxa. Among these, the most abundant fungal orders included Diaporthales (34.4%) and Botryosphaeriales (30.5%), which were predominantly represented by the species Phomopsis sp. (24.7%) and Neofusicoccum parvum (23.4%). Fermentation extracts were evaluated, screening for antioxidant, antimicrobial and anticancer activities. Among the 154 isolates tested, 99 (64.3%) displayed significant antioxidant activity, 153 (99.4%) exhibited inclusive antimicrobial activity against at least one tested microorganism and 27 (17.5%) showed exclusive anticancer activity against one or more cancer cell lines. Specifically, the crude extract of Irpex lacteus DR10-1 exhibited note-worthy bioactivities. Further chemical investigation on DR10-1 strain resulted in the isolation and identification of two known bioactive metabolites, indole-3-carboxylic acid (1) and indole-3-carboxaldehyde (2), indicating their potential roles in plant growth promotion and human medicinal value. CONCLUSION: These results indicated that diverse endophytic fungal population inhabits D. chinense. One of the fungal isolate DR10-1 (Irpex lacteus) exhibited significant antioxidant, antimicrobial and anticancer potential. Further, its active secondary metabolites 1 and 2 also showed antioxidant, antimicrobial and anticancer potential.

Immunocytochemistry Based on a Cell-Type-Specific Aptamer for Rapid Immunostaining of Adenocarcinoma Cells in Clinical Serosal Fluids.

All too often, conventional immunocytochemistry (ICC) via an antibody on cytological samples is limited to a few smears due to scant cellularity. To circumvent these limitations, this study employed a cell-type-specific aptamer as the core tool in ICC protocols for a timely and highly specific ICC diagnosis. S6, an aptamer against A549 lung carcinoma cells, was adopted instead of antibodies in this study for differentiating cancer cells in serosal fluids. Here, we developed three different strategies for discriminating the adenocarcinoma cells in effusion cytology specimens using the S6 aptamer in ICC. These strategies included a biotin-labeled S6 aptamer, an FAM-labeled S6 aptamer, and an activatable S6 aptamer. A total of 112 serosal fluid specimens with known diagnoses were evaluated by all three modes of use of the S6 aptamer. ICC procedures based on biotin-labeled or FAM-labeled S6 aptamers required time-consuming washing to avoid interference from nonspecific adsorption. ICC procedures based on an activatable S6 aptamer probe showed a weak fluorescence signal in the absence of target cells, but the procedures showed a strong fluorescence signal due to alteration of the conformation without any complicated washing steps, in the presence of targets. The specificity and sensitivity are higher in all three different ICC protocols based on the S6 aptamer than those for antibody protocols for differentiating adenocarcinoma cells in clinical effusion cytology. ICC based on cell-type-specific aptamers, instead of on a panel of a set of antibodies, is promising as an auxiliary method for the diagnosis of cancer.