Real-time PCR and chromatin immunoprecipitation analysis were then used to explore alterations in gene expression and modifications
LGK-974 of chromatin structure associated with the plastic outcome caused by fluoxetine in the visual system. Local infusion of 5-HT into visual cortex restored susceptibility to monocular deprivation in adulthood whereas infusion of WAY-100635, trkB-IgG or U0126 prevented the process of plasticity reactivation in fluoxetine-treated animals. Long-term fluoxetine treatment promoted a transient increase of Bdnf expression in the visual cortex, which was paralleled by an increased histone acetylation status at Bdnf promoter regions and by decreased expression of Hdac5. Accordingly, enhancing histone acetylation levels by systemic treatment with Trichostatin-A reactivated plasticity in the adult while
WAY-100635-infusion prevented epigenetic modifications in Bdnf promoter areas. The data suggest a key role for 5-HT1A receptor and BDNF-trkB signalling in driving a transitory epigenetic remodelling of chromatin structure that underlies the reactivation of plasticity in the visual system. “
“Gamma-band activity (30–90 Hz) and the synchronization of neural activity in the gamma-frequency range have been observed in different cortical and subcortical Ibrutinib nmr structures and have been associated with different cognitive functions. However, it is still unknown whether gamma-band synchronization subserves a single universal function or a diversity of functions across the full spectrum of cognitive processes. Here, we address this question reviewing the mechanisms of gamma-band oscillation generation and the functions associated with gamma-band activity across several cortical and subcortical structures. Additionally, we raise a plausible explanation of why gamma rhythms are found so ubiquitously across brain structures. Gamma band activity originates from the interplay between inhibition and excitation. We stress that gamma oscillations, associated with this interplay, originate
from basic functional motifs that conferred advantages Glutathione peroxidase for low-level system processing and multiple cognitive functions throughout evolution. We illustrate the multifunctionality of gamma-band activity by considering its role in neural systems for perception, selective attention, memory, motivation and behavioral control. We conclude that gamma-band oscillations support multiple cognitive processes, rather than a single one, which, however, can be traced back to a limited set of circuit motifs which are found universally across species and brain structures. “
“To investigate the role(s) of protein-tyrosine sulfation in the retina, we examined retinal function and structure in mice lacking tyrosylprotein sulfotransferases (TPST) 1 and 2. Tpst double knockout (DKO; Tpst1−/−/Tpst2 −/−) retinas had drastically reduced electroretinographic responses, although their photoreceptors exhibited normal responses in single cell recordings.