Resonating with Cellular Pathways: Transcriptome Insights into Nonthermal Bioeffects of Middle Infrared Light Stimulation and Vibrational Strong Coupling on Cell Proliferation and Migration.

Middle infrared stimulation (MIRS) and vibrational strong coupling (VSC) have been separately applied to physically regulate biological systems but scarcely compared with each other, especially at identical vibrational frequencies, though they both involve resonant mechanism. Taking cell proliferation and migration as typical cell-level models, herein, we comparatively studied the nonthermal bioeffects of MIRS and VSC with selecting the identical frequency (53.5 THz) of the carbonyl vibration. We found that both MIRS and VSC can notably increase the proliferation rate and migration capacity of fibroblasts. Transcriptome sequencing results reflected the differential expression of genes related to the corresponding cellular pathways. This work not only sheds light on the synergistic nonthermal bioeffects from the molecular level to the cell level but also provides new evidence and insights for modifying bioreactions, further applying MIRS and VSC to the future medicine of frequencies.

Gemini surfactant-like peptide-based nanocages with ß-sheet-enhanced stability and encapsulation efficiency of hydrophobic anticancer drugs.

Peptide-based scaffolds have been widely applied to drug delivery because of their ease and high yields of synthesis, well-defined structure, biocompatibility, diversity, tunability of properties, and molecular recognition abilities. However, the stability of peptide-based nanostructures highly depends on the intermolecular assembling manner, e.g., α-helix based coiled coils, ß-sheet. Inspired by the robust protein fibril structures in amyloidosis, herein we constructed a ß-sheet-forming gemini surfactant-like peptide to self-assemble into nanocages with the help of molecular dynamics simulation. As expected, the experimental results showed that nanocages can be formed with the inner diameter of up to ∼400 nm, which were robust enough even under both transmission electron microscopy and atomic force microscopy, indicating the significant contribution of ß-sheet conformation. The ß-nanocages can load hydrophobic anticancer drugs, e.g., paclitaxel with a very high encapsulation efficiency, which holds great potential for clinic drug delivery due to the improved anticancer effect as compared with paclitaxel alone.

Vibrational coupling with O-H stretching increases catalytic efficiency of sucrase in Fabry-Pérot microcavity.

Vibrational strong coupling (VSC) has been reported as a polariton-based method for modulating the rate of biochemical reactions. Herein, we studied how VSC modulates the sucrose hydrolysis. By monitoring the refractive index-induced shift of Fabry-Pérot microcavity, in which the catalytic efficiency of sucrose hydrolysis can be increased at least two times, as VSC was tuned to resonate with the stretching vibration of O-H bonds. This research provides new evidence for applying VSC in life sciences, which holds great promise to improving enzymatic industries.

Product information diffusion model and reasoning process in consumer behavior.

Information diffusion on social media has become a major approach in people's daily communication, and the value contained therein holds great interest for both academic and industrial communities. However, the process of information diffusion is affected by many factors, and the complexity of that process has not been fully explored. Most previous studies have concentrated on the strategies and driving forces in social media operations, as well as the identification of influential seed nodes, yet analyses of consumer behavior choice in the process of information diffusion are rare. Thus, This study proposes a multipoint cross-diffusion model based on MapReduce, which improves the single-point model and can better describe the product information diffusion process. On that basis, a Bayesian network model of product information diffusion was constructed to analyze the associations between factors and consumer behaviors. Moreover, the posterior probability of consumer behavior choice affected by a series of factors in the information forwarding process was considered and analyzed. This study's findings can be used to estimate the posterior probability that users will purchase, forward, or stay silent, thereby predicting the effect of product diffusion and obtaining the quantitative relationships between factors and consumer behavior.

Cell density- and quorum sensing-dependent expression of type VI secretion system 2 in Vibrio parahaemolyticus.

BACKGROUND: Vibrio parahaemolyticus AphA and OpaR are the two master quorum sensing (QS) regulators that are abundantly expressed at low cell density (LCD) and high cell density (HCD), respectively, with a feature of reciprocally gradient production of them with transition between LCD and HCD. The type VI secretion system 2 (T6SS2) gene cluster can be assigned into three putative operons, namely VPA1027-1024, VPA1043-1028, and VPA1044-1046. T6SS2 contributes to adhesion of V. parahaemolyticus to host cells. METHODOLOGY/PRINCIPAL FINDINGS: OpaR box-like sequences were found within the upstream promoter regions of all the above three operons, while none of AphA box-like elements could be identified for them. The subsequent primer extension, LacZ fusion, electrophoretic mobility shift, and DNase I footprinting assays disclosed that OpaR bound to the promoter regions of these three operons to stimulate their transcription, while AphA negatively regulated their transcription most likely through acting on OpaR. This regulation led to a gradient increase of T6SS2 transcription with transition from LCD to HCD. CONCLUSIONS/SIGNIFICANCE: V. parahaemolyticus OpaR and AphA positively and negatively regulate T6SS2 expression, respectively, leading to a gradient elevation of T6SS2 expression with transition from LCD to HCD. T6SS2 genes are thus assigned as the QS regulon members in V. parahaemolyticus.

Osthole improves acute lung injury in mice by up-regulating Nrf-2/thioredoxin 1.

Inhibiting reactive oxygen species (ROS) has been viewed as a therapeutic target for the treatment of acute lung injury (ALI). Osthole, an active component in Chinese herbal medicine, has drawn increasing attention because of its various pharmacological functions, including anti-inflammatory and anti-oxidative activities. The aim of the present study was to examine the effects of osthole on ALI induced by lipopolysaccharide (LPS) through intratracheal instillation. The mRNA and protein expression levels of thioredoxin 1 (Trx1) and the nuclear factor erythroid-2 related factor 2 (Nrf2) were detected by real-time PCR, reverse transcription PCR (RT-PCR) and Western blot, respectively. ROS production was measured by flow cytometry. Our results showed that osthole treatment improved the mice survival rates in the middle and high dosage groups, compared with the untreated LPS group. Moreover, osthole treatment significantly improved LPS-induced lung pathological damage, and it decreased the lung injury scores, lung wet/dry ratios and the total protein level in Bronchoalveolar lavage fluid (BALF). Osthole treatment dramatically reduced the H2O2, MDA and OH levels in the lung homogenates. LDH and ROS were markedly reduced in the osthole+LPS group in vitro. Furthermore, osthole increased Nrf2 and Trx1 expression in terms of mRNA and protein in vivo and in vitro. Nrf2 siRNA (siNrf2) could suppress the beneficial effects of osthole on ALI. In conclusion, the current study demonstrates that osthole exerted protective effects on LPS-induced ALI by up-regulating the Nrf-2/Trx-1 pathway.