Paper-based sensor based on lead-free manganese halide for the determination of water content in organic solvents.

A highly stable and luminescent lead-free manganese(II) halide hybrid MnBr4(TMN)2 (C34H42Br4MnN4) was designed and synthesized by introducing a large cationic organic spacer. The MnBr4(TMN)2 displays high luminescence with quantum yields up to 77% and possesses turn-off fluorescence behavior (Ex/Em=365/546 nm) for water. These properties make the MnBr4(TMN)2 a promising candidate as an alternative indicator for the detection of water with potential applications for the fabrication of LEDs. Herein, a paper-based sensor based on MnBr4(TMN)2 is described for the determination of water content in organic solvents. The mechanism of water sensing can be tentatively explained by fluorescence quenching originating from the destruction of water due to the Mn-Br bonds of MnBr4(TMN)2. The MnBr4(TMN)2-based paper sensor exhibits an excellent discrimination ability of water content in the range 0-25.0% with a detection limit of 0.27%. Satisfactory recoveries (94.91±4.09% to 103.23±2.38%) are obtained in spiked ethanol solvent samples, which demonstrate that the MnBr4(TMN)2-based paper sensor is capable of detecting water content in real ethanol solvent samples.

Fucoidan-proanthocyanidins nanoparticles protect against cisplatin-induced acute kidney injury by activating mitophagy and inhibiting mtDNA-cGAS/STING signaling pathway.

Fucoidan (FU) is a natural polymer from marine organisms, which has been widely studied and applied in drug delivery. In this study, FU nanoparticles loaded with proanthocyanidins (PCs) (FU/PCs NPs) were prepared and their effect and mechanism in protecting cisplatin-induced acute kidney injury (AKI) were studied. The in vitro studies confirmed that FU/PCs NPs increased the antioxidant activity of free PCs and protected the death of human kidney proximal tubule (HK-2) cells induced by cisplatin. Further mechanism studies showed that FU/PCs NPs protected the mitochondrial damage induced by cisplatin, activated mitophagy, inhibited the release of mitochondrial DNA (mtDNA), and inhibited the cGAS/STING signal pathway. The in vivo results also indicated that FU/PCs NPs protected cisplatin-induced AKI, including inhibiting the increase of blood urea nitrogen (BUN) and serum creatinine (SCr) levels induced by cisplatin. The mechanism studies confirmed that cisplatin induced an increase in the expression of mitophagy-related protein Pink/Pakrin, mitochondrial mtDNA release and cGAS/STING expression in mice kidney tissues. Pre-administration of FU/PCs NPs further activated mitophagy, as well as inhibiting mtDNA release and cGAS/STING expression. In conclusion, our research proved the role of mitophagy-mtDNA-cGAS/STING signal was involved in cisplatin-induced AKI.

Silk fibroin peptide self-assembled nanofibers delivered naringenin to alleviate cisplatin-induced acute kidney injury by inhibiting mtDNA-cGAS-STING pathway.

Silk fibroin (SF) has excellent biocompatibility and biodegradability as a biomaterial. The purity and molecular weight distribution of silk fibroin peptide (SFP) make it more suitable for medical application. In this study, SFP nanofibers (molecular weight ∼30kD) were prepared through CaCl2/H2O/C2H5OH solution decomposition and dialysis, and adsorbed naringenin (NGN) to obtain SFP/NGN NFs. In vitro results showed that SFP/NGN NFs increased the antioxidant activity of NGN and protected HK-2 cells from cisplatin-induced damage. In vivo results also showed that SFP/NGN NFs protected mice from cisplatin-induced acute kidney injury (AKI). The mechanism results showed that cisplatin induced mitochondrial damage, as well as increased mitophagy and mtDNA release, which activated the cGAS-STING pathway and induced the expression of inflammatory factors such as IL-6 and TNF-α. Interestingly, SFP/NGN NFs further activated mitophagy and inhibited mtDNA release and cGAS-STING pathway. Demonstrated that mitophagy-mtDNA-cGAS-STING signal axis was involved in the kidney protection mechanism of SFP/NGN NFs. In conclusion, our study confirmed that SFP/NGN NFs are candidates for protection of cisplatin-induced AKI, which is worthy of further study.

Enhanced biocompatibility of silk sericin/caffeic acid nanoparticles by red blood cell membranes cloaking.

Caffeic acid (CA) is an antioxidant phenolic compound that enriched in coffee beans, however, its administration often restrains by the instability and low solubility. Nanoparticle encapsulation is an effective approach to improve the therapeutic activity of CA. For example, silk sericin (SS), a natural biomaterial finds applications in food, cosmetics and biomedical fields, is proved here to be an appropriate encapsulation agent for CA, and a SS/CA composite nanoparticle has been fabricated. To further improve the biocompatibility of SS/CA, a red blood cell membranes (RM) cloaking strategy is adopted. The as-formed SS/CA/RM preserves the antioxidant activity of CA, and shows satisfactory biocompatibility especially under high concentration. Hope this can provide a potential appropriative strategy to adjust the chemical stability of insoluble drugs and to improve their biocompatibility.

[Effects of Oxygen Carriers on Submerged Fermentation of Poria cocos].

OBJECTIVE: To explore the regulation effects of oxygen carriers on Poria cocos submerged fermentation system which usually can be seriously inhibited by dissolved oxygen limitation. METHODS: One-factor-at-a-time design was employed to determine the oxygen carrier addition strategy through analyzing the effects of different oxygen carries, concentration and adding time of oxygen carrier on Poria cocos submerged fermentation. Then the oxygen carrier addition strategy was established and the metabolic processes of Poria cocos submerged fermentation were investigated comprehensively. RESULTS: The optimal oxygen carrier addition strategy was adding 1% (V/V) Tween-80 at 48 h after inoculation. Under this optimized condition, dry cell weight of Poria cocos reached 13.43 g/L in a 10 L bioreactor, while yields of exopolysaccharides and pachymic acid were 8.58 g/L and 989.52 µg/L, respectively, which exhibited obvious promoting effects compared with no addition oxygen carrier fermentation process. CONCLUSION: Tween-80 can remarkably increase the levels of cell growth, exopolysaccharides biosynthesis and pachymic acid in Poria cocos submerged fermentation system, which may provide new reference for further exploring dissolved oxygen limitation in high density fermentation of medical fungi efficiently.