Resveratrol attenuates chronic social isolation stress-induced affective disorders: Involvement of NF-κB/NLRP3 axis

Social isolation stress (SIS) is associated with affective disorders (i.e., anxiety and depression) in adults. In a preclinical study, we aimed to investigate the effects of resveratrol (RV) on the mood swings of rats exposed to SIS. Animals were randomized into six different groups, including control: healthy animals received normal saline (NS) as a vehicle; SIS + NS: SIS animals received NS; SIS + FL: SIS animals received fluoxetine (10 mg/kg/i.p.); SIS + RV20, SIS + RV40, and SIS + RV80: SIS animals received RV (20, 40, and 80 mg/kg/i.p). SIS was induced for 4 weeks, then animals were treated with NS, FL, and RV for 4 weeks. Rats were evaluated by the behavioral tests, including the elevated plus-maze, tail suspension test, the open field test, and forced-swimming test, for mood alterations and nuclear factor kappa B (NF-κB) levels, along with NLRP3, apoptosis-associated speck-like (ASC), and proCaspase-1 were determined in the hippocampus. Behavioral tests confirmed that exposing the animals to SIS caused anxiety and depression. The highest concentrations of NLRP3, proCaspase-1, ASC, and NF-κB, were confirmed in the SIS + NS group. Compared to FL, RV showed antidepressant potential according to the behavioral tests. In particular, the administration of RV (20, 40, and 80 mg/kg) revered the NF-κB/NLRP3 axis cascade in rats exposed to chronic SIS. Our findings revealed that RV attenuated anxiety and depression of SIS-exposed rats via regulation of NF-κB/NLRP3 signaling pathways. RV can be used as a potential anxiolytic agent and antidepressant.     

Intrinsic fluorescence‐based at situ soft sensor for monitoring monoclonal antibody aggregation

Intrinsic fluorescence spectroscopy, in conjunction with partial least squares regression (PLSR), was investigated as a potential technique for online quality control and quantitative monitoring of Immunoglobulin G (IgG) aggregation that occurs following exposure to conditions that emulate those that can occur during protein downstream processing. Initially, the impact of three stress factors (temperature, pH, and protein concentration) on the degree of aggregation determined using size exclusion chromatography data, was investigated by performing a central composite designexperiment and applying a fitting response surface model. This investigation identified the influence of the factors as well as the operating regions with minimum propensity to induce protein aggregation. Spectral changes pertinent to the stressed samples were also investigated and found to corroborate the high sensitivity of the intrinsic fluorescence to conformational changes of the proteins under study. Ultimately, partial least squares regression was implemented to formulate two fluorescence‐based soft sensors for quality control—product classification—and quantitative monitoring—concentration of monomer. The resulting regression models exhibited accurate prediction ability and good potential for in situ monitoring of monoclonal antibody downstream purification processes. © 2015 American Institute of Chemical Engineers Biotechnol. Prog., 31:1423–1432, 2015     

The Neuroprotective Ability of Polyethylene Glycol is Affected by Temperature in Ex Vivo Spinal Cord Injury Model

Immediate membrane sealing after spinal cord injury (SCI) can prevent further degradation and result in ultimate functional recovery. It has been reported that polyethylene glycol (PEG) can repair membrane damage caused by mechanical insults to the spinal cord. Furthermore, membrane fluidity and its sealing process vary at different temperatures. Here, we have assessed the possible synergistic effects of PEG and temperature on the repair of neural membranes in an SCI model. The effects of PEGs (400, 1,000 and 2,000 Da) were studied at different temperatures (25, 37 and 40 °C) by means of compound action potential (CAP) recovery and a lactate dehydrogenase (LDH) assay. Isolated spinal cords were mounted in a double sucrose gap chamber, where the amplitude and area of CAPs were recorded after implementing injury, in the presence and absence of PEG. Moreover, the LDH assay was used to assess the effects of PEG on membrane resealing. Data showed that the least CAP recovery occurred at 25 °C, followed by 37 and 40 °C, in all treated groups. Moreover, maximum CAP amplitude recovery, 65.46 ± 5.04 %, was monitored in the presence of PEG400 at 40 °C, followed by 41.49 ± 2.41 % in PEG1000 and 37.36 ± 1.62 % in PEG2000. Furthermore, raising the temperature from 37 to 40 °C significantly increased CAP recovery in the PEG2000 group. Similar recovery patterns were obtained by CAP area measurements and LDH assay. The results suggest that application of low-molecular weight PEG (PEG400) in mild hyperthermia conditions (40 °C) provides the optimum condition for membrane sealing in SCI model.