Coadministration of 6-Shogaol and Levodopa Alleviates Parkinson's Disease-Related Pathology in Mice.

Parkinson's disease (PD) is a neurodegenerative disease caused by the death of dopaminergic neurons in the nigrostriatal pathway, leading to motor and non-motor dysfunctions, such as depression, olfactory dysfunction, and memory impairment. Although levodopa (L-dopa) has been the gold standard PD treatment for decades, it only relieves motor symptoms and has no effect on non-motor symptoms or disease progression. Prior studies have reported that 6-shogaol, the active ingredient in ginger, exerts a protective effect on dopaminergic neurons by suppressing neuroinflammation in PD mice. This study investigated whether cotreatment with 6-shogaol and L-dopa could attenuate both motor and non-motor symptoms and dopaminergic neuronal damage. Both 6-shogaol (20 mg/kg) and L-dopa (80 mg/kg) were orally administered to 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine/probenecid- induced PD model mice for 26 days. The experimental results showed that L-dopa alleviated motor symptoms, but had no significant effect on non-motor symptoms, loss of dopaminergic neuron, or neuroinflammation. However, when mice were treated with 6-shogaol alone or in combination L-dopa, an amelioration in both motor and non-motor symptoms such as depression-like behavior, olfactory dysfunction and memory impairment was observed. Moreover, 6-shogaol-only or co-treatment with 6-shogaol and L-dopa protected dopaminergic neurons in the striatum and reduced neuroinflammation in the striatum and substantia nigra. Overall, these results suggest that 6-shogaol can effectively complement L-dopa by improving non-motor dysfunction and restoring dopaminergic neurons via suppressing neuroinflammation.

Pepper U-Box E3 ubiquitin ligase 24, CaPUB24, negatively regulates drought stress response.

Under stress conditions, plants modulate their internal states and initiate various defence mechanisms to survive. The ubiquitin-proteasome system is one of the critical modules in these mechanisms, and Plant U-Box proteins play an important role in this process as E3 ubiquitin ligases. Here, we isolated the Plant U-box 24 gene CaPUB24 (Capsicum annuum Plant U-Box 24) from pepper and characterized its functions in response to drought stress. We found that, compared to the other CaPUBs in the same group, the expression of CaPUB24 was significantly induced by drought stress. We also found that CaPUB24 was localized to the nucleus and cytoplasm and had E3 ubiquitin ligase activity. To investigate the biological role of CaPUB24 in response to drought stress further, we generated CaPUB24-silenced pepper plants and CaPUB24-overexpressing Arabidopsis transgenic plants. CaPUB24-silenced pepper plants exhibited enhanced drought tolerance compared to the control plants due to reduced transpirational water loss and increased abscisic acid (ABA) sensitivity. In contrast, CaPUB24-overexpressing Arabidopsis transgenic plants exhibited reduced drought tolerance and ABA-insensitive phenotypes. Our findings suggest that CaPUB24 negatively modulates drought stress response in an ABA-dependent manner.

A prospective clinical study evaluating the efficacy and safety of a Laminin-5 fragment contained soothing cream in post-laser treatment care.

BACKGROUND: Photothermolysis effect, resulting from laser procedures, can cause redness/erythema, skin irritation and burning sensation, these symptoms may persist more than several days after the procedure and leading to discomfort for patients. Proper management is necessary for the better outcome, especially in early period after the laser procedure. Laminin-5 fragment contained soothing cream (CEBELIA Extreme Care®), is believed to have the calming/soothing effect on overheated/irritated skin after undergoing the laser treatment. It is assumed that cream can help alleviate the redness, erythema and burning sensation commonly experienced after laser treatments. This study aimed to assess the effectiveness and safety of Laminin-5 fragment contained soothing cream (CEBELIA Extreme Care®) during the early post-laser care period. MATERIALS AND METHODS: This prospective split-face study involved 28 patients who underwent CO2 laser procedures and met inclusion criteria. The laser treatment was performed on both sides of the midface, and subsequently, the Laminin-5 fragment contained soothing cream (CEBELIA Extreme Care®) was applied to one side of the midface. The efficacy of the cream was evaluated through objective measures, including photographic evaluation by two independent evaluators and assessment using an automatic skin analysis device. Subjective evaluations were also conducted. RESULTS: The objective evaluation, based on the erythema score, revealed a statistical significant difference (p < 0.05) between the side treated with Laminin-5 fragment contained soothing cream (CEBELIA Extreme Care®) and the control side. The erythema score was 1.34 ± 2.469 after the laser treatment with subsequent application of the cream for 10 min and 0.7 ± 2.28 on the second day after the procedure. The subjective evaluation showed a statistically significant high of patient satisfaction. No complications were observed during the follow-up period. CONCLUSION: The application of Laminin-5 fragment contained soothing cream (CEBELIA Extreme Care®) after the CO2 laser treatment was found to be effective, particularly when applied for 10 min after the laser treatment and on the second day after the procedure. Both objective and subjective evaluations yielded significantly different results. Patients reported a high satisfaction rate with the characteristics of the cream during the follow-up period.

Visible-Light-Mediated TiO2-Catalyzed Aerobic Dehydrogenation of N-Heterocycles in Batch and Flow.

We report a simple and environmentally friendly method for synthesizing N-containing heterocycles via a visible-light-mediated aerobic dehydrogenation reaction. Using a nontoxic, stable, and inexpensive titanium dioxide catalyst, a variety of substituted quinoline, indole, quinoxaline, and 3,4-dihydroisoquinoline derivatives could be synthesized using the green oxidant molecular oxygen. Improved reactivity and scalability of this reaction were demonstrated by adapting the photochemical multiphasic reaction to a continuous flow system. To gain insight into the mechanism, we also conducted several mechanistic studies, including absorption analysis, light on-off testing, and NMR analysis. Especially, oxygen is reduced to hydrogen peroxide, and dimethyl sulfoxide is a critical scavenger of the oxidant byproduct for ensuring high yields.

Electrical Transport and Thermoelectric Properties of SnSe-SnTe Solid Solution.

SnSe is considered as a promising thermoelectric (TE) material since the discovery of the record figure of merit (ZT) of 2.6 at 926 K in single crystal SnSe. It is, however, difficult to use single crystal SnSe for practical applications due to the poor mechanical properties and the difficulty and cost of fabricating a single crystal. It is highly desirable to improve the properties of polycrystalline SnSe whose TE properties are still not near to that of single crystal SnSe. In this study, in order to control the TE properties of polycrystalline SnSe, polycrystalline SnSe-SnTe solid solutions were fabricated, and the effect of the solid solution on the electrical transport and TE properties was investigated. The SnSe1-xTex samples were fabricated using mechanical alloying and spark plasma sintering. X-ray diffraction (XRD) analyses revealed that the solubility limit of Te in SnSe1-xTex is somewhere between x = 0.3 and 0.5. With increasing Te content, the electrical conductivity was increased due to the increase of carrier concentration, while the lattice thermal conductivity was suppressed by the increased amount of phonon scattering. The change of carrier concentration and electrical conductivity is explained using the measured band gap energy and the calculated band structure. The change of thermal conductivity is explained using the change of lattice thermal conductivity from the increased amount of phonon scattering at the point defect sites. A ZT of ~0.78 was obtained at 823 K from SnSe0.7Te0.3, which is an ~11% improvement compared to that of SnSe.

Thermoelectric Properties of Cu2SnSe3-SnS Composite.

Heavily doped degenerate semiconductors such as Cu2SnSe3 (CTSe) attracted attention in thermoelectric (TE) and optoelectronic fields, due to their high electrical conductivity and small band gap. The small Seebeck coefficient of undoped CTSe, however, is the major issue in achieving high TE performance (figure of merit, ZT). Here, we report that the Seebeck coefficient of CTSe can be controlled by adding SnS within a CTSe matrix. CTSe-SnS composite has not only high Seebeck coefficient in the range of 300-500 µVolt/K but thermal conductivity which is lower than that of pristine CTSe due to the scattering at the interface between the matrix and the SnS particles. A reasonable ZT of 0.18 is achieved at 570 K by adding a small amount (3 wt.%) of SnS to the CTSe matrix.

Phellinstatin, a new inhibitor of enoyl-ACP reductase produced by the medicinal fungus Phellinus linteus.

A new trimeric hispidin derivative, phellinstatin, was isolated from a culture broth of the medicinal fungus Phellinus linteus and its structure was established by various spectral analysis. Phellinstatin strongly inhibited Staphylococcus aureus enoyl-ACP reductase with an IC(50) of 6 µM and also showed antibacterial activity against S. aureus and MRSA.