Gilda Fazzari

Distinct Amygdalar AMPAergic/GABAergic Mechanisms Promote Anxiolitic-Like Effects in an Unpredictable Stress Model of the Hamster

Studies have pointed to both α-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid receptor (AMPAR) antagonists and GABAA receptor (GABAAR) agonists as potent antistress agents. In this work, separate subchronic injections of the AMPAR antagonist, 6-ciano-7-nitroquinoxaline-2,3-dione (CNQX), and α1 GABAAR subunit agonist (Zol) within the central amygdala nucleus modified the elevated plus maze performances of hamsters exposed randomly to one of the following stressful conditions: food/water deprivation, forced swimming test, and permanence in cold room. Indeed, stressed hamsters treated with CNQX or Zol displayed a very great (p < 0.001) increase of entrance plus a moderate (p < 0.05) time spent into open arms, respectively. At the cellular level, Zol-treated animals supplied a moderately evident argyrophilic reaction (indicative of neurodegeneration) in the hippocampus while it was absent in the hypothalamus. Interestingly, this reaction was significantly reduced by CNQX supporting its preferential protective role. Furthermore, both agents were responsible for a mixed expression pattern of GluR1 and GluR2 mRNA levels in which Zol overall upregulated GluR1 mRNAs, while they were downregulated by CNQX in the hippocampal oriens-pyramidalis layer and in layer III of the cerebral cortex. These findings support the amygdalar AMPAergic protective response against anxiety states in chronically stressed hamsters, which may constitute useful therapeutic strategies for panic-related mood disorders.

Catestatin and orexin-A neuronal signals alter feeding habits in relation to hibernating states.

Hibernation is a physiological state that by putting vital biological processes at rest enables mammals to protect all organs, especially the brain against ischemic insults and reperfusion injuries. Earlier studies have highlighted the role of hypothalamic (HTH) sites like the periventricular nucleus (Pe) toward sleep-wake and cardiovascular activities of hibernators. In the present work, infusions of Pe with the orexigenic neuropeptide orexin-A (ORX-A) or the novel anti-obesity sympathoinhibitory neuroactive peptide catestatin (CST) have been correlated to differing feeding and motor behaviors in the facultative hibernating hamster Mesocricetus auratus. Behavioral observations showed that treatment with CST provided an anti-obesity activity via the reduction of food intake and body weight for all hibernating states, while ORX-A promoted orexigenic events during mainly the entrance phase. Moreover, hamsters treated with this neuropeptide during the entrance and the arousal hypertensive phases also featured elevated ORX 2 receptor (ORX2R) levels in the third layer of the parietal cortex and lateral HTH (LH), areas involved with feeding, motor plus sleep-wake rhythms. Conversely, ORX-A down-regulated ORX2Rs in the ventromedial (VMH) and supraoptic (SO) HTH nuclei that are associated with anorexigenic effects. Even CST induced mixed ORX2R expression patterns in mostly HTH areas like the evident down-regulation in LH along with the up-regulation in VMH and SO. Overall treatments, especially ORX-A+CST led to reduced neurodegenerative phenomena in HTH supporting their importance together with ORX2Rs in preserving hemodynamic activities, feeding and sleep-wake rhythms of this diencephalic station, which may supply useful therapeutic indications for treating cardiovascular disturbances linked with brain dysfunctions.

Exposure to sub-chronic unpredictable stress accounts for antidepressant-like effects in hamsters treated with BDNF and CNQX.

Recent evidences indicate that cerebral neurotrophic factors like vascular endothelial growth factor plus signaling pathways of the glutamatergic neuroreceptor system (L-Glu) are determinant modulators of depression-like states. In the present study, the type of interaction(s) exerted by the AMPAergic antagonist, 6-cyano-7-nitroquinoxalin-2,3-dione (CNQX) and the brain derived neurotrophic factor (BDNF) on depression-like behaviors in hamsters (Mesocricetus auratus) were investigated. Sub-chronic administration of BDNF in the hippocampal dentate gyrus (DG) of stressed hamsters was responsible for very evident (p<0.001) sucrose consumption along with notably elevated swimming bouts and reduced immobility states in the forced swim test (FST). Meanwhile, CNQX displayed evident anxiolytic actions in the elevated plus maze (EPM) as shown by marked (p<0.01) increases of movements to and from both arms. Interestingly cerebral neurodegeneration events, which are viewed during depression states, were reduced following treatment with both compounds. Contextually, marked mRNA expression levels of the BDNF receptor (tropomyosin-related kinase B; TrkB) were detected in DG and the oriens-pyramidalis of HIP (Or-Py) while a moderate (p<0.05) up-regulation was registered in the amygdalar central nucleus (CeA) and the hypothalamic ventromedial nucleus (VMH) of hamsters treated with BDNF. Similarly, this treatment caused moderate increases of the major stress protein (Hsp70) in DG and Or-Py. Conversely, while CNQX induced similar TrkB expression levels, it instead accounted for a moderate reduction of Hsp70 mRNAs in the same brain areas. Overall these results support crucial roles played by BDNF and AMPAergic neurosignaling mechanisms during distinct adaptive responses of depression- and anxiety-like states in hamsters.

Reduced learning and memory performances in high-fat treated hamsters related to brain neurotensin receptor1 expression variations

HighlightsHigh fat diet modifies NOR (recognition) and CPP (reward) performances.Feeding behaviors and body weight alterations in hyperlipidemic hamsters.Elevated lipid and glucose blood levels were caused by high fat diet.Neurotensin receptor expression variations in limbic areas due to high fat diet. ABSTRACT Recent indications are suggesting that high fat and sugar‐enriched foods do not only evoke harmful physiological conditions, but they also endure evident structural alterations in cerebral regions controlling cognitive and feeding behaviors. Food consumption plus neuronal energy regulatory mechanisms seem to constitute a complex system assuring that food calories do not exceed body requirements. At the same time obesogenic‐related properties of limbic feeding stations like the hypothalamus (HTH), hippocampus (HIP) and amygdala (AMY) tend to control eating habits through the interaction of distinct neuropeptides. For this purpose, it was our intention to correlate expression differences of a key anti‐obesogenic neuropeptide receptor i.e. neurotensin1 (NTR1) on mnemonic performances in the hibernating hamster (Mesocricetus auratus) exposed to a high fat diet (HFD). Interestingly, these hamsters exhibited a notable enhanced (p < 0.01) body weight from the fifth on to the twelfth week of treatment, which was accompanied by elevated blood lipid cholesterolo and triglycerides and glucose levels. At the same time these hamsters provided diminished locomotor activities such as exploratory bouts, rearing and grooming behaviors. Of greater relevance was their very extreme (p < 0.001) inability of identifying new objects during novel object recognition (NOR) tests along with not having correctly chosen the chamber of the conditioned place preference (CPP) apparatus, which contained the gratifying reward. Surprisingly the altered behavioral plus mnemonic tasks of HFD hamsters were tightly related to elevated NTR1 expression changes in the above limbic sites thus proposing this neuronal system as a highly probable alternative for treating obesity‐dependent mnemonic dysfunctions.

Role of Brain Neuroinflammatory Factors on Hypertension in the Spontaneously Hypertensive Rat

It is already widely known that the different brain areas involved in blood pressure control, are highly vulnerable to the deleterious effects of this condition. Of particular concern are hypertensive and neuroinflammatory-dependent injuries that by modifying blood flow account for artery structural and functional alterations. It was thus our intention to establish if expression changes of some key brain neuroinflammatory factors like caspase-1,3, NF-kB, IL-1β and NLRP3, which are known to control blood pressure, are actively involved with inflammation regulatory events in a highly valuable spontaneously hypertensive rat (SHR) model. Indeed, notably increased (p < 0.001) caspase-1, NLRP3 and IL-1β mRNA levels were detected in amygdalar plus hypothalamic areas of SHR. Contextually, similar up-regulated levels of these factors were also reported in brainstem nuclei with respect to the few hippocampal areas. This trend was supported by moderate increases (p < 0.05) of NLRP3 in amygdalar and brainstem sites, while notably greater expression differences of NF-kB protein were observed in hippocampal and hypothalamic areas of SHR. At the same time, moderately increased levels of iNOS were typical of all of the above brain areas with the exception of the consistently (p < 0.01) increased levels featured in the brainstem. Moreover, even immunohistochemical evaluations supplied notably and moderately increased cleaved caspase-3 cell levels in hippocampus and hypothalamus areas, respectively. Overall, evident hypertensive bouts correlated to neuroinflammatory events, especially in brain areas controlling blood pressure, tend to underlie the value of novel therapeutic approaches designed to improve brain blood flow and subsequently reduce hypertensive-dependent cerebral complications.

Role of Leptin and Orexin-A Within the Suprachiasmatic Nucleus on Anxiety-Like Behaviors in Hamsters

It is well established that the maintenance of energy expenditure is linked to active hypothalamic neural mechanisms controlling adaptive stimuli such as food intake. Variations of glucose levels and hormonal (leptin plus orexin-A) parameters, which are involved with energy homeostasis during different behavioral states, have not yet been fully defined. In this first study, behavioral analyses of an unpredictable stress model dealing with the actions of a sub-chronic administration of orexin-A (ORX-A) and the anti-hunger neuropeptide, i.e., leptin (LEP) within the hypothalamic suprachiasmatic (SCH) nucleus, were conducted on the valuable hibernating rodent (hamster; Mesocricetus auratus) model noted for its distinct depression and anxiety states. Treatment with LEP accounted for a notable reduction (p < 0.01) of body weight in stressed hamsters that not only executed very evident (p < 0.001) movements to and from elevated plus maze (EPM) but also spent less time in the dark area of the light–dark box test (LDT). Conversely, ORX-A predominantly evoked anxiogenic effects that were inverted by LEP. Interestingly, the anti-hunger neuropeptide accounted for both down-regulated NPY1 transcripts in mostly lateral-posterior hypothalamic areas while up-regulated levels were detected in the parietal cerebral cortex, hippocampus, and amygdala, which largely behaved in an opposite manner to ORX-A-dependent effects. Overall, the present findings corroborate a predominating LEPergic effect of the SCH toward the reduction of hamster anxiety-like behaviors with respect to that of ORX-A signaling, which may constitute useful therapeutic targets for stress-related obesity states.

Catestatin and GABAAR related feeding habits rely on dopamine, ghrelin plus leptin neuroreceptor expression variations

Catestatin (CST), an endogenously small sympathoinhibitory peptide is capable of interfering with the major cerebral neuroreceptor-blocking site, i.e. γ-aminobutyric acidA receptor (GABAAR) system especially in limbic brain areas that are involved with feeding behaviors. The GABAARergic-related effects seem to derive from its interaction with other molecular neuroreceptors such as dopaminergic, ghrelin and leptinergic. In this context, the present study aimed to investigate probable feeding responses (eating and drinking) induced by treatment with CST and the GABAAR antagonist bicucullin (BIC) alone or simultaneously (CST+BIC) in the Syrian hibernating hamster (Mesocricetus auratus) model. Hamsters that received these compounds via intracerebroventricular infusions displayed notable variations of feeding and drinking bouts. In particular, an anorexigenic response was evident following treatment with CST while BIC evoked a significant increase of eating and drinking behaviors. Surprisingly when both agents were given simultaneously, a predominating anorexigenic response was detected as shown by evident CST-dependent reduction of feeding bouts. Contextually such behaviors, especially those following the combined treatment were tightly correlated with the significantly increased cerebral dopamine receptor 1 (D1) plus reduced ghrelin receptor (GhsR) and leptin receptor (LepR) transcript levels. Overall, the anorexigenic effect of CST deriving from its tight interaction with GABAARs activity plus D1 and GhsR transcripts tends to propose these neuronal elements as pivotal factors responsible for feeding disorders.

Probiotics modify body weight together with anxiety states via pro-inflammatory factors in HFD-treated Syrian golden hamster

&NA; Emerging studies are beginning to suggest that emotional states together with healthful measures constitute pertinent features of our lifestyle in which bad eating habits but more importantly what our gut has to host are causing great concern. It is well known that humans have established mutual relationships with a wide array of colonized microbes (collectively called gut microbiota) consisting of bacteria, fungi, eukaryotic parasites and viruses. The gut microbiota has exhibited a notable ability of communicating with the brain via a two‐way system that includes the vagus nerve, immune sites, and a number of neurotransmitters. Interestingly, stressful along with obesity, cognitive, and brain developmental states are strongly influenced by microbiota homeostatic conditions. It was our aim to investigate behavioral and obesity effects evoked by treatment with probiotics via neuroinflammatory factors and namely IL‐1&bgr;, NLRP3, Caspase‐1 and NF‐kB levels in the Syrian golden hamster. Following treatment with a high‐fat diet (HFD), in the presence or absence of a multi‐species probiotic formulation, hamsters were exposed to an unpredictable chronic mild stress (UCMS) test for 4 weeks. Independently of the diet, probiotics treatment markedly reduced stress‐like behaviors in the different mazes. Moreover, probiotics decreased hypothalamic expression levels of the pro‐neuroinflammatory factors like IL‐1&bgr;, NLRP3, Caspase‐1 and NF‐kB, whereas HFD increased them. Contextually, they decreased plasmatic levels of IL‐1&bgr;, NLRP3 and caspase‐1 but not NF‐kB. Our findings clearly support probiotics as a potentially valuable treatment strategy in obesity and anxiety, thereby proposing them for clinical treatments in patients with metabolic and mood disorders.