Inhibitory Effects of Adenine Nucleotides on Brain Mitochondrial Permeability TransitionSaito, Ângela; Castilho, Roger
doi: 10.1007/s11064-010-0228-xpmid: 20652632
The adenine nucleotides ADP and ATP are probably the most important endogenous inhibitors of the mitochondrial permeability transition (MPT). We studied the inhibitory effects of adenine nucleotides on brain MPT by measuring mitochondrial swelling and Ca2+ and cytochrome c release. We observed that in the presence of either ADP or ATP, at 250 μM, brain mitochondria accumulated more than 1 μmol Ca2+ × mg protein−1. ADP or ATP also prevented Ca2+-induced mitochondrial swelling and cytochrome c release. Interestingly, ATP lost most of its inhibitory effects on MPT when the experiments were carried out in the presence of ATP-regenerating systems. These results indicate that MPT inhibition observed in the presence of added ATP could be mainly due to hydrolysis of ATP to ADP. From mitochondrial swelling measurements, half-maximal inhibitory values (K
i) of 4.5 and 98 μM were obtained for ADP and ATP, respectively. In addition, a delayed mitochondrial swelling sensitive to higher ADP concentrations was observed. Mitochondrial anoxia/reoxygenation did not interfere with the inhibitory effect of ADP on Ca2+-induced MPT, but oxidative phosphorylation markedly decreased this effect. We conclude that ADP is a potent inhibitor of brain MPT whereas ATP is a weaker inhibitor of this phenomenon. Our results suggest that ADP can have an important protective role against MPT-mediated tissue damage under conditions of brain ischemia and hypoglycemia.
Augmentation of Aluminum-Induced Oxidative Stress in Rat Cerebrum by Presence of Pro-oxidant (Graded Doses of Ethanol) ExposureNayak, Prasunpriya; Sharma, Shiv; Chowdary, Nadella
doi: 10.1007/s11064-010-0230-3pmid: 20640917
Both aluminum and ethanol are pro-oxidants and neurotoxic. Considering the possibilities of co-exposure and sharing mechanisms of producing neurotoxicity, the present study was planned to identify the level of aluminum-induced oxidative stress in altered pro-oxidant (ethanol exposure) status of cerebrum. Male rats were coexposed to aluminum and ethanol for 4 weeks. After the exposure period, cerebral levels of protein, reduced glutathione (GSH), lipid peroxidation (TBARS) were measured. Activities of catalase, superoxide dismutase (SOD), glutathione reductase (GR) and glutathione perioxidase (GPx) of cerebrum were estimated. In most of the cases significant correlations were observed between the alterations and graded ethanol doses, suggesting a dose-dependency in pushing the oxidant equilibrium toward pro-oxidants. Aluminum is found to influence significantly all the studied parameters of oxidative stress. Likewise, ethanol also influenced these parameters significantly, except GR, while the interaction between ethanol and aluminum could significantly influence only the GSH content and GR activity of cerebrum. Present study demonstrate that coexposure of aluminum with pro-oxidant might favor development of aluminum-induced oxidative stress in cerebrum. This observation might be helpful in understanding of mechanism of neurodegenerative disorders and ameliorate them.
Effects of Chronic Restraint Stress and 17-β-Estradiol Replacement on Oxidative Stress in the Spinal Cord of Ovariectomized Female RatsCrema, Leonardo; Diehl, Luisa; Aguiar, Ana; Almeida, Lúcia; Fontella, Fernanda; Pettenuzzo, Letícia; Vendite, Deusa; Dalmaz, Carla
doi: 10.1007/s11064-010-0232-1pmid: 20632091
Previous studies have shown sex-specific oxidative changes in spinal cord of rats submitted to chronic stress, which may be due to gonadal hormones. Here, we assessed total radical-trapping potential (TRAP), superoxide dismutase (SOD) and glutathione peroxidase (GPx) activities and lipid peroxidation (evaluated by the TBARS test) in the spinal cord of ovariectomized (OVX) female rats. Female rats were subjected to OVX, and half of the animals received estradiol replacement. Animals were subdivided into controls and chronically stressed (for 40 days). Our findings demonstrate that chronic stress decreased TRAP, and increased SOD activity in spinal cord homogenates from ovariectomized female rats and had no effect on GPx activity. On the other hand, groups receiving 17β-estradiol replacement presented a decreased GPx activity, but no alteration in TRAP and in SOD activity. No differences in the TBARS test were found in any of the groups analyzed. In conclusion, our results support the idea that chronic stress induces an imbalance between SOD and GPx activities, additionally decreasing TRAP. Estradiol replacement did not reverse the effects of chronic stress, but induced a decrease in GPx activity. Therefore, estradiol replacement in ovariectomized chronically stressed rats could make the spinal cord more susceptible to oxidative injury.
Differential Patterns of Alcohol Consumption and Dopamine-2 Receptor Binding in Wistar-Kyoto and Wistar RatsMorganstern, Irene; Tejani-Butt, Shanaz
doi: 10.1007/s11064-010-0233-0pmid: 20680460
The Wistar-Kyoto (WKY) rat strain has been described as an animal model of depressive behavior that consumes significantly greater amounts of alcohol compared to the Wistar (WIS) rat strain. Since the mesolimbic dopamine (DA) type-2 (D2) receptors mediate reward-related behaviors, the present study measured the binding of [125I]-Iodosulpiride to D2 receptors in the brains of WKY versus WIS rats following 24 days of voluntary alcohol or water consumption. Alcohol consuming WKY rats showed a significant increase in D2 receptor binding in several regions of the mesolimbic and nigrostriatal systems. In contrast, alcohol consuming WIS rats showed a reduction in D2 receptor binding in DA cell body areas. The differential regulation of D2 receptors by voluntary alcohol consumption in the two rat strains suggests that D2 receptor mediated neurotransmission may be playing a role in the increased alcohol drinking behavior reported in WKY rats.
Galectin-1 Enhances Astrocytic BDNF Production and Improves Functional Outcome in Rats Following IschemiaQu, Wen-sheng; Wang, Yi-hui; Wang, Jian-ping; Tang, Ying-xin; Zhang, Qiang; Tian, Dai-shi; Yu, Zhi-yuan; Xie, Min-jie; Wang, Wei
doi: 10.1007/s11064-010-0234-zpmid: 20689988
Galectin-1, an endogenous mammalian lectin, has been implicated in a variety of CNS disorders. However, its role in cerebral ischemia is still elusive. In the present study, we investigated the effect of recombinant galectin-1 on production of astrocytic brain-derived neurotrophic factor (BDNF) and functional recovery following ischemia. Endogenous galectin-1 was found to be markedly upregulated, paralleled with increased astrocytic BDNF production under ischemic conditions both in vitro and in vivo. Administration of galectin-1significantly enhanced the expression and secretion of astrocytic BDNF in dose dependent manner. Moreover, rats subjected to photochemical cerebral ischemia showed reduced neuronal apoptosis in ischemic boundary zone and improved functional recovery after brain infusion of galectin-1 (1 μg/days, 7 days). These results suggest that induction of BDNF in astrocytes by galectin-1 may be a promising intervention to attenuate brain damage after stroke.
Oroxylin A, a Flavonoid, Stimulates Adult Neurogenesis in the Hippocampal Dentate Gyrus Region of MiceLee, Seungjoo; Kim, Dong; Lee, Dong; Jeon, Su; Lee, Chang; Son, Kun; Jung, Ji; Shin, Chan; Ryu, Jong
doi: 10.1007/s11064-010-0235-ypmid: 20680459
Previously, we reported the cognitive enhancing effects of oroxylin A in unimpaired mice and its memory ameliorating activity in various memory impaired mice. To elucidate the mechanism mediating the cognitive effects of oroxylin A, this study examined the consequences of oroxylin A administration on neurogenesis in the hippocampal dentate gyrus using immunostaining for 5-bromo-2-deoxyuridine (BrdU) incorporation. In addition, we determined whether the new cells adopted a neuronal or glial fate by examining the co-localization of BrdU staining with neuronal or glial markers. Administration of oroxylin A in a dose-dependent and time-dependent manner increased the number of BrdU-incorporating cells. Moreover, the percentage of BrdU-incorporating cells co-localized with neuronal markers, neuronal nuclei, was significantly increased by the oroxylin A administration. These results suggest that the increased neurogenesis induced by the administration of oroxylin A could be, at least in part, associated with its positive effects on cognitive processing.
Primary Cultures From Cerebral Cortex and Hippocampus Enriched in Glutamatergic and GABAergic NeuronsBjörklund, Ulrika; Persson, Mikael; Rönnbäck, Lars; Hansson, Elisabeth
doi: 10.1007/s11064-010-0236-xpmid: 20680458
The aim was to define a primary culture system enriched in neurons using a defined culture medium, and characterize the model system as to cellular morphology and neuronal phenotypes. We found that these primary neuron enriched cultures from either newborn rat cerebral cortex or hippocampus contain small GABAergic and large glutamatergic neurons as well as astrocytes and microglia. Astrocytes in these cultures are morphologically differentiated with long, slender processes and interact with soluble factors responsible for induction and expression of the glutamate transporter GLT-1. The cultures achieve the highest expression of the vesicular glutamate transporter 1 (VGLUT1) and GLT-1 after 20 days in vitro. Conditioned media from these neuron enriched cultures also induced GLT-1 expression in primary astrocytic cultures, which were free from neurons. The amount of glutamatergic neurons guides the morphological maturation of astrocytes and GLT-1 expression both in the neuron enriched cultures and in the conditioned media supplemented astrocytic cultures. Interestingly, these cultures were not influenced or activated by the inflammatory stimulus lipopolysaccharide. This suggests that soluble factors from neurons protect microglia and astrocytes to become inflammatory reactive. In conclusion we have developed a well characterized culture model system enriched in neurons, taken from newborn rats and cultured in defined media. The neurons express different neuronal phenotypes. Such a model system is valuable when studying interactions between neurons and glial cells.
Mitotic Figures in the Median Eminence of the HypothalamusLevine, Seymour; Saltzman, Arthur; Ginsberg, Stephen
doi: 10.1007/s11064-010-0237-9pmid: 20680457
The median eminence of the hypothalamus is part of the avenue by which neurosecreted hormones from the hypothalamic nuclei reach the pars nervosa (neural lobe) of the pituitary and eventually the bloodstream. Lithium treatment and osmotic stress increases the transport of neurosecretory hormones to the pituitary in the adult rat. Specialized astrocytes termed pituicytes in the pars nervosa of the pituitary participate in the secretory process and also develop considerable mitotic activity. The present work reveals similar mitotic figures in cells within the median eminence following 3 days of lithium treatment. The location and appearance of these mitoses add to the evidence that pituicytes are present in the median eminence. Moreover, mitoses occur within the ependymal (tanycyte) layer of the median eminence. Thus, the present results suggest that the tanycyte layer may contain pituicytes, indicating that the hypothalamus possesses specialized cells for modulating neurosecretion in response to osmotic challenges.