Decreases in serotonergic activity in the central nucleus of the amygdala reduce responses to stressors, suggesting an important role for serotonin in this region of the amygdala in stress reactivity. However, it is not known whether exposure to stressors actually increases serotonin release in the central nucleus of the amygdala. The current experiment tested the hypothesis that restraint stress increases extracellular serotonin within the central nucleus of the amygdala and adjacent medial amygdala using in vivo microdialysis in awake male rats during the dark phase of the light-dark cycle. Serotonin release in the central nucleus increased immediately in response to restraint stress. In contrast, there was no change in serotonin release within the adjacent medial amygdala during or following restraint. Since corticotropin-releasing factor is an important mediator of both responses to stressors and serotonergic activity, subsequent experiments tested the hypothesis that central nucleus serotonergic response to restraint stress is mediated by central corticotropin-releasing factor receptors. Administration of the corticotropin-releasing factor type 1 and 2 receptor antagonist DPhe-CRF (icv, 10 μg/5 μl) prior to restraint stress suppressed restraint-induced serotonin release in the central nucleus. The results suggest that restraint stress rapidly and selectively increases serotonin release in the central nucleus of the amygdala by the activation of central corticotropin-releasing factor receptors. Furthermore, the results imply that corticotropin-releasing factor mediated serotonergic activity in central nucleus of the amygdala may be an important component of a stress response.
The effects of estradiol (E 2 ) on the expression of proteins in the pars lateralis of the ventromedial nucleus of the hypothalamus (VMNpl) in ovariectomized rats was studied using 2-dimensional gel electrophoresis followed by RPLC-nanoESI-MS/MS. E 2 treatment resulted in the up-regulation of 29 identified proteins. Many of these proteins are implicated in the promotion of neuronal plasticity and signaling.
The use of proteomics to study changes in the expression of CNS proteins, which may underlie the regulation of physiological and/or behavioral responses, represents an emerging application of this technology. In the current study, the Palkovits' microdissection method was evaluated as a means of obtaining proteomic data from discrete brain nuclei. The pars lateralis of the ventromedial nucleus of the hypothalamus (VMN) was chosen for the initial studies because of its established role in the expression of gonadal hormone dependent female sexual behavior. The VMN from ovariectomized rats was microdissected from 300 microm frozen brain sections using a 500 microm punch. Total proteins were separated using 2-DE. A group consensus of 432 protein spots, visualized by SYPRO Ruby stain, was obtained from gels from four independent VMN samples. A low mean CV and high gel-to-gel correlation coefficients indicate that reproducible 2-DE gels can be generated from microdissected tissue samples. Proteins from the mediobasal hypothalamus (MBH) were also separated on 2-DE gels. Evaluation of the 2-DE maps from the VMN and the MBH revealed different protein profiles, and indicates that microdissection improves the detection of low-abundance proteins, and reduces the relative occurrence of abundant proteins on 2-DE maps.
Investigations of physiological functions of seed lipoxygenase during germination and early seedling growth are complicated by the presence of multiple isoforms with different product specificity. The combination of isoelectric focusing, lipoxygenase in-gel activity staining and mass spectrometry showed that only two seed lipoxygenases, LOX-2 and LOX-3, were active at neutral pH in protein extracts from dry and germinating pea seeds (Pisum sativum L.), with LOX-3 more abundant than LOX-2. Each active seed LOX appeared at multiple pIs, probably resulting from post-translational modifications. The abundance of pea seed lipoxygenases was lower in embryonic shoots than in other parts of the axis. After radicle emergence, seed LOXs were degraded, as revealed by Western blotting using antibodies specific to pea seed LOXs. Two new vegetative isoforms, LOX-N3 and LOX-g, appeared in the shoot and gradually replaced the pea seed lipoxygenases as the principal contributors to LOX enzyme activity during early seedling growth. Activities of LOX-N3 and LOX-g were abundant in shoot tips, but not root tips, in pea seedlings. Thus, during germination, there is a shift of LOX activity from radicles to shoots that accompanies the transition from seed LOXs to vegetative LOXs. These results confirmed that identification of pea LOXs based solely on pI may be misleading; however, mass spectrometry enabled more accurate identification of these highly homologous proteins to be made.
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