A multifunctional platform with single-NIR-laser-triggered photothermal and NO release for synergistic therapy against multidrug-resistant Gram-negative bacteria and their biofilms.

BACKGROUND: Infectious diseases caused by multidrug-resistant (MDR) bacteria, especially MDR Gram-negative strains, have become a global public health challenge. Multifunctional nanomaterials for controlling MDR bacterial infections via eradication of planktonic bacteria and their biofilms are of great interest. RESULTS: In this study, we developed a multifunctional platform (TG-NO-B) with single NIR laser-triggered PTT and NO release for synergistic therapy against MDR Gram-negative bacteria and their biofilms. When located at the infected sites, TG-NO-B was able to selectively bind to the surfaces of Gram-negative bacterial cells and their biofilm matrix through covalent coupling between the BA groups of TG-NO-B and the bacterial LPS units, which could greatly improve the antibacterial efficiency, and reduce side damages to ambient normal tissues. Upon single NIR laser irradiation, TG-NO-B could generate hyperthermia and simultaneously release NO, which would synergistically disrupt bacterial cell membrane, further cause leakage and damage of intracellular components, and finally induce bacteria death. On one hand, the combination of NO and PTT could largely improve the antibacterial efficiency. On the other hand, the bacterial cell membrane damage could improve the permeability and sensitivity to heat, decrease the photothermal temperature and avoid damages caused by high temperature. Moreover, TG-NO-B could be effectively utilized for synergistic therapy against the in vivo infections of MDR Gram-negative bacteria and their biofilms and accelerate wound healing as well as exhibit excellent biocompatibility both in vitro and in vivo. CONCLUSIONS: Our study demonstrates that TG-NO-B can be considered as a promising alternative for treating infections caused by MDR Gram-negative bacteria and their biofilms.

Dengzhan Shengmai capsules and their active component scutellarin prevent cognitive decline in APP/PS1 mice by accelerating Aß aggregation and reducing oligomers formation.

There is currently no effective treatment to prevent the progress of Alzheimer's disease (AD). The traditional Chinese herbs Dengzhan Shengmai (DZSM) capsules and their active component scutellarin possess multiple effects and are clinically used for the treatment of cerebrovascular diseases. Scutellarin has been reported to affect Aß aggregation. However, the effects of DZSM capsules on AD remain unknown. Through in vivo experiments, our study proved that the alleviating effects of DZSM capsules on cognitive deficits of AD mice were due to the role of scutellarin, which up-regulated low toxic amyloid plaques and down-regulated highly toxic soluble Aß42 and Aß40 levels in cortex. In vitro, we confirmed scutellarin's role in accelerating transforming Aß42 monomers into high-molecular-mass aggregates by biochemical assays, which supported the results observed in drug-treated APP/PS1 mice. In detail, the 1:10 ratio of scutellarin/Aß42 mixtures promoted production of large ß-sheet-rich fibrils whereas the 1:1 ratio promoted production of protofibrils. In addition, the binding between scutellarin and Aß monomers was quantified by microscale thermophoresis test and the apparent dissociation constant (Kd) was 1284.4 ±â€¯238.8 µM. What's more, binding regions between scutellarin and Aß fibrils were predicted by computational docking models and scutellarin might bind parallel to the long axis of Aß42 fibrils targeting hydrophobic grooves at residues 35-36 or 39. In conclusion, DZSM capsules protected against cognitive defects of AD through scutellarin-mediated acceleration of Aß aggregation into fibrils or protofibrils and reduction of soluble Aß oligomers, thus suggesting potential clinical applications of DZSM capsules and scutellarin in the treatment of AD.

Neuropeptide Y knockdown in the dorsomedial hypothalamus improved basal and obesity-induced decrease in bone mass density.

OBJECTIVE: Neuropeptide Y (NPY) has been shown to have a prominent role in the control of bone formation through the regulation of osteoblast activity. We aimed to investigate the role of hypothalamus-derived NPY in bone metabolism. METHODS: Accordingly, adeno-associated virus (AAV)-mediated RNA interference (RNAi) was utilized to downregulate NPY gene expression in rats fed regular chow (RC) or a high-fat diet (HF). The serum concentrations of glucose, insulin, corticosterone, osteocalcin, insulin-like growth factor (IGF-1), triglycerides (TC), and cholesterol (TG) and fat mass and bone mineral density (BMD) were measured to assess the effect of NPY knockdown on basal and obesity-induced BMD. Forkhead transcription factor (FoxO1) and activating transcription factor 4 (ATF4) were measured to explore the molecular mechanism of the effect of dorsomedial nucleus (DMH) NPY knockdown on bone formation. RESULTS: Our results showed that DMH NPY knockdown enhanced basal and the obesity-induced decrease in BMD and osteocalcin and promoted the phosphorylation of FoxO1 and reduced the expression of ATF4. CONCLUSION: Our data suggest that DMH NPY knockdown can alter bone metabolism.

Inhibition of growth and induction of apoptosis in human cancer cell lines by an ethyl acetate fraction from shiitake mushrooms.

OBJECTIVE: Shiitake (Lentinus edodes) mushrooms have been reported to have cancer-preventing properties. However, little research has been conducted verifying the antitumor activities of "mycochemicals" in shiitake mushrooms. In this study, potential roles of an ethyl acetate fraction from shiitake mushrooms were investigated by in vitro bioassays. DESIGN: The activities of an ethyl acetate fraction were evaluated by [3-(4,5-dimethylthiazol-yl)-2,5-diphenyltetrazolium bromide] (MTT), apoptosis bioassay, cell cycle analysis, and Western blot analysis using two human breast carcinoma cell lines (MDA-MB-453 and MCF-7), one human nonmalignant breast epithelial cell line (MCF-10F), and two myeloma cell lines (RPMI-8226 and IM-9). RESULTS: Concentration-dependent antiproliferative effects of the fraction were observed in all cell lines using the MTT assay. Approximately 50 mg/L concentration of the fraction induced apoptosis in 50% of the population of four human tumor cell lines and the fraction-induced apoptosis may have been mediated through the pro-apoptotic bax protein which was up-regulated. Cell cycle analysis revealed that the fraction induced cell cycle arrest by significant decrease of S phase, which was associated with the induction of cdk inhibitors p21 and the suppression of cdk4 and cyclin D1 activity. Compared to malignant tumor cells, nonmalignant cells were less sensitive to the fraction for the suppression of cell growth and regulation of bax, p21, cyclin D1, and cdk4 expression. A 51% antiproliferative effect occurred at the highest concentration of the fraction (800 mg/L). CONCLUSIONS: These data suggest that inhibition of growth in tumor cells by "mycochemicals" in shiitake mushrooms may result from induction of apoptosis.