K Plucinska

Dimethyl fumarate attenuates intracerebroventricular streptozotocin-induced spatial memory impairment and hippocampal neurodegeneration in rats.

Intracerebroventricular (ICV) injection of streptozotocin (STZ) is a widely-accepted animal model of sporadic Alzheimers disease (sAD). The present study evaluated the ability of dimethyl fumarate (DMF), an agent with antioxidant and anti-inflammatory properties, to prevent spatial memory impairments and hippocampal neurodegeneration mediated by ICV injection of STZ in 4-month-old rats. Rodent chow containing DMF (0.4%) or standard rodent chow was made available on day 0. Rat body weight and food intake were measured daily for whole the experiment (21days). STZ or vehicle (SHAM) ICV injections were performed on days 2 and 4. Spatial reference and working memory were evaluated using the Morris water maze on days 14-21. Cells containing Fluoro-Jade B (neurodegeneration marker), IL-6, IL-10 were quantified in the hippocampus and choline acetyltransferase (ChAT) in the basal forebrain. The disruption of spatial memory and a high density of hippocampal CA1-3 cells labeled with Fluoro-Jade B or containing IL-6 or IL-10 were observed in the STZ group but not in the STZ+DMF group, as compared to the SHAM or SHAM+DMF groups. STZ vs. STZ+DMF differences were found: worse reference memory acquisition, fewer ChAT-positive neurons in the medial septum (Ch1), more Fluoro-Jade-positive CA1 hippocampal cells in STZ rats. DMF therapy in a rodent model of sAD prevented the disruption of spatial reference and working memory, loss of Ch1 cholinergic cells and hippocampal neurodegeneration as well as the induction of IL-6 and IL-10 in CA1. These beneficial cognitive and molecular effects validate the anti-inflammatory and neuroprotective properties of DMF in the hippocampus.

Lesion of the ventral tegmental area amplifies stimulation-induced Fos expression in the rat brain

Unilateral lesions of the ventral tegmental area (VTA), the key structure of the mesolimbic system, facilitate behavioral responses induced by electrical stimulation of the VTA in the contralateral hemisphere. In search of the neuronal mechanism behind this phenomenon, Fos expression was used to measure neuronal activation of the target mesolimbic structures in rats subjected to unilateral electrocoagulation and simultaneously to contralateral electrical stimulation of the VTA (L/S group). These were compared to the level of mesolimbic activation after unilateral electrocoagulation of the VTA (L group), unilateral electrical stimulation of the VTA (S group) and bilateral electrode implantation into the VTA in the sham (Sh) group. We found that unilateral stimulation of the VTA alone increased the density of Fos containing neurons in the ipsilateral mesolimbic target structures: nucleus accumbens, lateral septum and amygdala in comparison with the sham group. However, unilateral lesion of the VTA was devoid of effect in non-stimulated (L) rats and it significantly amplified the stimulation-induced Fos-immunoreactivity (L/S vs S group). Stimulation of the VTA performed after contralateral lesion (L/S) evoked strong bilateral induction of Fos expression in the mesolimbic structures involved in motivation and reward (nucleus accumbens and lateral septum) and the processing of the reinforcing properties of olfactory stimuli (anterior cortical amygdaloid nucleus) in parallel with facilitation of behavioral function measured as shortened latency of eating or exploration. Our data suggest that VTA lesion sensitizes mesolimbic system to stimuli by suppressing an inhibitory influence of brain areas afferenting the VTA.

Locomotor response to novelty correlates with the number of midbrain tyrosine hydroxylase positive cells in rats

The present study investigated whether the higher dopaminergic system activation in rats with high (HRs) rather than low (LRs) locomotor activity in response to novelty depend on the number of cells containing the enzyme tyrosine hydroxylase (TH(+)) and/or differences in the morphology of these cells. One week after the novelty test, brains from male Wistar rats (HRs and LRs) were collected and stained for TH expression (immunohistochemistry) and for morphological analysis (immunofluorescent staining). The morphology and total number of TH(+) cells was analyzed for each A9 (substantia nigra) and A10 (ventral tegmental area) group of the midbrain dopaminergic cells. We found that HRs had a higher total number of TH(+) cells in the whole midbrain dopaminergic region (A9-A10) and in the A9 group only than LRs. In particular midbrain dopaminergic groups of neurons, HR/LR differences were regionally specific: HRs had a higher total number of TH(+) cells in the A9, and in the anterior part of the A10. In contrast, the LRs had a higher number of TH(+) cells in the parabrachial pigmented nucleus (A10) and in the posterior part of the A9. There were no significant differences in the morphology of the midbrain dopamine neurons between HRs and LRs. Moreover, there was a positive correlation between the total number of TH(+) neurons and the locomotor activity score in response to novelty in the whole A9-A10 region and in the particular A9 group only. The results obtained indicate that the higher behavioral activation in resting conditions correlates with the higher number rather than changes in the morphology of the midbrain dopaminergic TH(+) cells. It supports findings on the higher level of dopaminergic system activation in high responders to novelty that depends on the number of midbrain dopaminergic TH(+) neurons.

Effects of chronic desipramine pretreatment on open field-induced suppression of blood natural killer cell activity and cytokine response depend on the rat's behavioral characteristics

Effects of 14 consecutive day exposure to desipramine (10mg/kg i.p.), by itself or following chronic open field (OF) exposure, on subsequent neuroimmunological effects of acute (30 min) OF stress and the involvement of individual differences in response to novelty or social position in the anti-depressive responsiveness were investigated. Chronic desipramine pretreatment did not protect against OF stress-induced suppression of blood anti-tumor natural killer cell activity but increased plasma interleukin-10 and decreased interferon-γ and corticosterone concentration. These effects were particularly dangerous for the animals with increased responsivity to stress (desipramine alone) or with low behavioral activity (desipramine after chronic stress).

Stress-induced differences in the limbic system Fos expression are more pronounced in rats differing in responsiveness to novelty than social position

We determined the interaction between such individual behavioural profiles as locomotor response to novelty or social position and the activation (Fos expression) of the brains limbic regions following chronic laboratory and social interaction stress. Male Wistar rats (n=45), housed separately and handled for 2 weeks, were divided into high (HR) and low (LR) responders to novelty. Seven days later, 12 HRs and 12 LRs were subjected to a chronic 23 consecutive day social interaction test (Nov/SocI group), 5 HRs and 5 LRs were subjected to chronic laboratory stress: carrying from the vivarium to the laboratory for 23 consecutive days (Nov/Carr group) while the remaining rats stayed in the vivarium in their home cages (Nov/Home group). The highest limbic system activation was found 7 days later in the Nov/SocI rats. In comparison with the LRs, the HRs showed a higher number of Fos(+) cells in most of the limbic prosencephalic structures (24 areas) in the Nov/SocI group, and in 12 areas, especially in the amygdala and the hypothalamus, in the Nov/Carr group. There were no HR/LR differences in the limbic systems activity in the Nov/Home group. Within dominance/submission differences, a higher Fos expression was found in 6 structures, especially in the limbic cortex, in the dominant rather than the subordinate HRs. We conclude that chronic social and laboratory stress persistently activates the limbic system, with the largest effects in the brains of rats responding maximally to novelty. Social position was less predictive of Fos expression than was activity to novelty.

Behavioral response elicited by stimulation of the mesolimbic system after procaine and bicuculline injection into the pedunculopontine tegmental nucleus in rats

The pedunculopontine tegmental nucleus (PPN) is anatomically connected with dopaminergic cells in the ventral tegmental area (VTA). In the present study, VTA-stimulation induced feeding or locomotor response was tested after temporary inactivation (procaine injection) or activation (bicuculline injection) of the PPN in the ipsi- or contralateral hemisphere. Motor and motivation aspects of appetitive behavior were analyzed on the basis of the latency/stimulation frequency curve shift paradigm, in male Wistar rats (n=48). Procaine injections into the PPN had more significant effects on both types of behavioral response during VTA stimulation than bicuculline. On the day of injection (day 0) procaine increased reaction threshold of the observed responses: a rise by 22% after contra- and 17% after ipsilateral injection in the case of feeding, and an inverse result side-wise for locomotor response, i.e. around 12% and 20% respectively. Bicuculline injected into the PPN did not cause significant effects on day 0 and the values of reaction threshold oscillated around ±10% for both behaviors, except in rats with locomotor reaction after contralateral injection. The observed reactions stabilized within on consecutive days (days 1-3) after procaine/bicuculline injection in both behavioral groups. The results indicate that the PPN and VTA belong to the same central circuitry involved in the regulation of psychomotor activation. However, the influence of PPN-VTA inter-hemispheric connections on reward and addiction function of the VTA is still unexplained.

Chronic antidepressant desipramine treatment increases open field-induced brain expression and spleen production of interleukin 10 in rats

In the present study, we established a role of individual differences in locomotor response to novelty or social position in modulatory effect of chronic (14 consecutive days) antidepressant drug desipramine pretreatment (10mg/kg i.p.) on acute (30 min), white and illuminated open field (OF)-induced changes in spleen anti-tumor activity of natural killer (NK) cells (chromium release assay) in parallel to the brain anti-inflammatory interleukin 10 (IL-10) and Fos expression (immunohistochemistry), splenocytic pro-inflammatory interferon γ (IFN-γ) and IL-10 production (ELISA), and plasma corticosterone concentration (RIA) in rats. The involvement of individual differences (high (HR) and low (LR) responders to novelty or dominants (D) and subordinates (S)) in the anti-depressive responsiveness, was investigated in the desipramine treated by itself (DES) or following 7 consecutive days of OF exposure (ChS-DES) group. In the desipramine pretreated groups, OF stress decreased spleen NKCC, behavioral activity, the Con A-stimulated splenocyte IFN-γ response and plasma corticosterone concentration whereas it increased the brain and splenocyte IL-10 response. The percentage of OF-induced IL-10/Fos(+) cells was increased in the CA1 and dentate gyrus of the hippocampus and amygdaloid nucleus, particularly in the LR-D (DES) and LR-S (ChS-DES) rats. Moreover, a decreased splenocytic ability to produce IFN-γ and IL-10, particularly in the HR-S (DES) and LR-S (ChS-DES) rats, was noted. There were no significant differences in the OF-induced NKCC suppression between the behavioral groups. These studies emphasize that chronic desipramine pretreatment had anti-inflammatory but not immunoprotective properties against OF stress-induced neuroimmunological effects which depend on the animals behavioral characteristics and treatment.

Locomotor response to novelty correlates with differences in number and morphology of hypothalamic tyrosine hydroxylase positive cells in rats

Individual differences in the intensity of locomotor response to a new environment (exploratory reaction) are generally used as a model to study individual vulnerability to stress and drug addiction. In the present work we studied the number, distribution and morphology of the hypothalamic cells expressing tyrosine hydroxylase (TH+ cells) (immunohistochemical and immunofluorescent staining) in male Wistar rats divided based on high (HR), midline (MR) or low (LR) locomotor activity in response to novelty. Morphology and total number of TH+ cells were analyzed for A11-A15 dopaminergic groups. We found correlation between the total number of hypothalamic TH+ cells in the whole A11-A15 area and the locomotor activity. The differences were most pronounced in some of the hypothalamic nuclei, i.e. in the rostro-caudal extension of the A11, A12 and A14 structures, where the HR rats had a significantly higher number of TH+ cells in comparison to the MR and LR rats. Morphology analysis of TH+ cells showed HR/MR/LR differences in single cell area and perimeter and, to a lesser extent, in the other morphometric parameters such as length of the major and minor axes, or circularity factor. The results suggest that the behavioral traits which characterize the HR animals and are correlated with increased susceptibility to stress and propensity to develop drug addictions can be determined by the number, distribution, activity and perhaps the morphology of the cells in the dopaminergic systems.

Blood natural killer cell cytotoxicity enhancement correlates with an increased activity in brain motor structures following chronic stimulation of the bed nucleus of the stria terminalis in rats

The present study indicates that a chronic 14 day electrical stimulation of the bed nucleus of the stria terminalis (BST) increased blood but not spleen natural killer cell (NK) cytotoxicity and a large granular lymphocyte (LGL) number. These immune changes positively correlated with the increased activity in brain cortical and subcortical motor structures that influence the BST stimulation-induced behavioral response. No significant changes in blood and spleen leukocyte population numbers and plasma corticosterone concentration after the stimulation were found. The obtained results suggest that this immunoenhancing effect on blood NK cell function and number is dependent on the behavioral outcome of the BST stimulation rather than endocrine response.