Neurotoxicity Screening in a Multipotent Neural Stem Cell Line Established from the Mouse Brain

Neural stem cells (NSCs) have mainly been applied to neurodegeneration in some medically intractable neurologic diseases. In this study, we established a novel NSC line and investigated the cytotoxic responses of NSCs to exogenous neurotoxicants, glutamates and reactive oxygen species (ROS). A multipotent NSC line, B2A1 cells, was established from long-term primary cultures of oligodendrocyte-enriched cells from an adult BALB/c mouse brain. B2A1 cells could be differentiated into neuronal, astrocytic and oligodendroglial lineages. The cells also expressed genotypic mRNA messages for both neural progenitor cells and differentiated neuronoglial cells. B2A1 cells treated with hydrogen peroxide and L-buthionine-(S,R)-sulfoximine underwent 30-40% cell death, while B2A1 cells treated with glutamate and kainate showed 25-35% cell death. Cytopathologic changes consisting of swollen cell bodies, loss of cytoplasmic processes, and nuclear chromatin disintegration, developed after exposure to both ROS and excitotoxic chemicals. These results suggest that B2A1 cells may be useful in the study of NSC biology and may constitute an effective neurotoxicity screening system for ROS and excitotoxic chemicals.

The Ketogenic Diet Suppresses the Cathepsin E Expression Induced by Kainic Acid in the Rat Brain

PURPOSE: The ketogenic diet has long been used to treat epilepsy, but its mechanism is not yet clearly understood. To explore the potential mechanism, we analyzed the changes in gene expression induced by the ketogenic diet in the rat kainic acid (KA) epilepsy model. MATERIALS AND METHODS: KA-administered rats were fed the ketogenic diet or a normal diet for 4 weeks, and microarray analysis was performed with their brain tissues. The effects of the ketogenic diet on cathepsin E messenger ribonucleic acid (mRNA) expression were analyzed in KA-administered and normal saline-administered groups with semi-quantitative and real-time reverse transcription polymerase chain reaction (RT-PCR). Brain tissues were dissected into 8 regions to compare differential effects of the ketogenic diet on cathepsin E mRNA expression. Immunohistochemistry with an anti-cathepsin E antibody was performed on slides of hippocampus obtained from whole brain paraffin blocks. RESULTS: The microarray data and subsequent RT-PCR experiments showed that KA increased the mRNA expression of cathepsin E, known to be related to neuronal cell death, in most brain areas except the brain stem, and these increases of cathepsin E mRNA expression were suppressed by the ketogenic diet. The expression of cathepsin E mRNA in the control group, however, was not significantly affected by the ketogenic diet. The change in cathepsin E mRNA expression was greatest in the hippocampus. The protein level of cathepsin E in the hippocampus of KA-administered rat was elevated in immunohistochemistry and the ketogenic diet suppressed this increase. CONCLUSION: Our results showed that KA administration increased cathepsin E expression in the rat brain and its increase was suppressed by the ketogenic diet.

Protein tyrosine kinase inhibitors modify kainic acid-induced epileptiform activity and mossy fiber sprouting but do not protect against limbic cell death

Intrahippocampal administration of kainic acid (KA) induces synaptic release of neurotrophins, mainly brain-derived neurotrophic factor, which contributes to the acute neuronal excitation produced by the toxin. Two protein tyrosine kinase inhibitors, herbimycin A and K252a, were administered intracerebroventricularly, in a single dose, to attenuate neurotrophin signaling during the acute effects of KA, and their role in epileptogenesis was evaluated in adult, male Wistar rats weighing 250-300 g. The latency for the first Racine stage V seizure was 90 ± 8 min in saline controls (N = 4) which increased to 369 ± 71 and 322 ± 63 min in animals receiving herbimycin A (1.74 nmol, N = 4) and K252a (10 pmol, N = 4), respectively. Behavioral alterations were accompanied by diminished duration of EEG paroxysms in herbimycin A- and K252a-treated animals. Notwithstanding the reduction in seizure severity, cell death (60-90 percent of cell loss in KA-treated animals) in limbic regions was unchanged by herbimycin A and K252a. However, aberrant mossy fiber sprouting was significantly reduced in the ipsilateral dorsal hippocampus of K252a-treated animals. In this model of temporal lobe epilepsy, both protein kinase inhibitors diminished the acute epileptic activity triggered by KA and the ensuing morphological alterations in the dentate gyrus without diminishing cell loss. Our current data indicating that K252a, but not herbimycin, has an influence over KA-induced mossy fiber sprouting further suggest that protein tyrosine kinase receptors are not the only factors which control this plasticity. Further experiments are necessary to elucidate the exact signaling systems associated with this K252a effect.

Neuroprotective Effect of Citicoline on Retinal Cell Damage Induced by Kainic Acid in Rats

PURPOSE: To examine whether citicoline has a neuroprotective effect on kainic acid (KA) -induced retinal damage. METHODS: KA (6 nmol) was injected into the vitreous of rat eyes. Citicoline (500mg/kg, i.p.) was administered to the rats once before and twice a day after KA-injection for 3- and 7-day intervals. The neuroprotective effects of citicoline were estimated by measuring the thickness of the various retinal layers using hematoxylin-eosin (H and E) staining. In addition, immunohistochemistry was conducted to elucidate the expression of endothelial nitric oxide synthase (eNOS) and neuronal nitric oxide synthase (nNOS). RESULTS: Morphometric analysis of retinal damage in KA-injected eyes showed significant cell loss in the inner nuclear layer (INL) and inner plexiform layer (IPL) of the retinas at 3 and 7 days after KA injection, but not in the outer nuclear layer (ONL). At 3 days after citicoline treatment, no significant changes were detected in the retinal thickness and immunoreactivities of eNOS and nNOS. The immunoreactivities of eNOS and nNOS increased in the retina at 7 days after the KA injection. However, prolonged treatment for 7 days significantly attenuated the immunoreactivities and the reduction of thickness. CONCLUSIONS: The results indicate that citicoline has a neuroprotective effect on KA-induced neurotoxicity in the retina.

Upregulation of Glutamate Receptors in Rat Cerebral Cortex with Neuronal Migration Disorders

Neuronal migration disorders (NMDs) constitute the main pathologic substrate of medically intractable epilepsy in human. This study is designed to investigate the changes in expression of glutamate receptor subtypes on radiation-induced NMD in rats. The lesion was produced by intrauterine irradiation (240 cGy) on E17 rats, and then 10 weeks old rats were used for the study. The pathologic and immunohistochemical findings for glutamate receptor subunit proteins on NMD cortex were correlated with development of behavioral seizures and EEG abnormality. Spontaneous seizures uncommonly occurred in NMD rats (5%); however, clinical stages of seizures were significantly increased in NMD rats by an administration of kainic acid. Brains taken from irradiated rats revealed gross and histopathologic features of NMD. Focal cortical dysplasia was identified by histopathology and immunohistochemistry with neurofilament protein (NF-M/H). Significantly strong NR1 and NR2A/B immunoreactivities were demonstrated in cytomegalic and heterotopic neurons of NMD rats. The results of the present study indicate that epileptogenesis of NMD might be caused by upregulation of glutamate receptor expression in dysplastic neurons of the rat cerebral cortex with NMDs.

Activation of JNK and p38 in rat hippocampus after kainic acid induced seizure

Kainic acid, an analogue of glutamate, causes limbic seizures and induces cell death in the rat brain. We examined the activation of MAPK family kinases; ERKs, JNKs and p38 kinase in rat hippocampus after KA treatment. Activation of all three kinases were observed at 30 min after the treatment, but, in contrary to ERK phosphorylation, which lasted up to 3 h, the phosphorylation of JNK and p38 returned to the basal level by 2 h. The phosphorylation of' upstream kinases for the MAPK family was distinct. The phosphorylation of MEK1 clearly increased at 30 min but diminished rapidly thereafter. The phosphorylation of MKK6 was also increased but reached peak at 2 h after KA treatment. However, the phosphorylation of other upstream kinases, SEK1 and MKK3, gradually decreased to 3 h after KA treatment. These results indicate that the KA activates all of the three MAPK family kinases with different time patterns and suggest the possibility that MKK3 and MKK6, and SEK1 may not be the upstream kinases for p38 and JNK in rat hippocampus.

Inhibition of carbachol-induced inositol phosphate accumulation in the embryonic retina promoted by kainate and veratridine

In the present study, we report that low concentrations of the glutamate ionotropic agonist kainate decreased the turnover of [3H]-phosphoinositides ([3H]-InsPs) induced by muscarinic receptors in the chick embryonic retina. When 100 muM carbachol was used, the estimated IC50 value for kainate was 0.2 muM and the maximal inhibition of ~50 percent was obtained with 1 muM or higher concentrations of the glutamatergic agonist. Our data also show that veratridine, a neurotoxin that increases the permeability of voltage-sensitive sodium channels, had no effect on [3H]-InsPs levels of the embryonic retina. However, 50 muM veratridine, but not 50 mM KCl, inhibited ~65 percent of the retinal response to carbachol. While carbachol increased [3H]-InsPs levels from 241.2 + 38.0 to 2044.5 + 299.9 cpm/mg protein, retinal response decreased to 861.6 + 113.9 cpm/mg protein when tissues were incubated with carbachol plus veratridine. These results suggest that the accumulation of phosphoinositides induced by activation of muscarinic receptors can be inhibited by the influx of Na+ ions triggered by activation of kainate receptors or opening of voltage-sensitive sodium channels in the chick embryonic retina.

Domoic acid induces neurotoxicity and ip3 mobilization in cultured cells of embryonic chick retina

Domoic acid (DOM), 1 to 50 µM, a glutamate agonist responsible for several neurological effects such as loss of memory and confusion, induced the death of cultured neurons of chick embryonic retina, in a concentration- and Ca2+ -dependent manner. This effect was blocked by 100 µM CNQX, a competitive antagonist of the non-NMDA receptor, but not by 10 µM MK-801, a non-competitive antagonist of the NMDA receptor. DOM also induced inositol triphosphate (ip3) accumulation 4 to 7 times above basal levels. This effect was also dependent on external Ca2+ and was entirely blocked by 100 µM CNQX, but not by 10 µM MK-801. These results suggest that DOM interaction with non-NMDA glutamate receptors mediates signal transduction with ip3 accumulation and cell death

Regional distribution of Fos-like immunoreactivity in the rat brain after exposure to fear-inducing stimuli

Fos protein immunohistochemistry was used to identify the neural substrate of fear/anxiety. The structures activated by exposure of Long Evans male rats (280-300 g) to the elevated plus-maze, a widely used animal model of anxiety, were compared with those activated by chemical stimulation of two aversive areas of the brain, the dorsal periaqueductal gray matter and the medial hypothalamus. Three different patterns of activation were obtained: Pattern 1 resulted from microinjection of the excitatory amino acid kainate (60 pmol; N = 5) or of the GABA(A) receptor antagonist SR-95531 (16 pmol; N = 3) into the dorsal periaqueductal gray matter and consisted mainly of caudal structures; Pattern 2 was observed after kainate injection (60 pmol; N = 4) into the medial hypothalamus and had a predominantly prosencephalic distribution; Pattern 3 extended from rostral to caudal brain regions and was induced by microinjection of either SR-95531 (16 pmol; N = 1) or kainate (120 pmol; N = 3) into the medial hypothalamus, as well as by 15-min exposure to the plus-maze (N = 3). Control animals were either injected with saline into the MH (N = 3) or the PAG (N = 3) or were exposed for 15 s to the elevated plus maze (N = 3) and exhibited no significant labeling. These results further support the participation of periventricular structures in the regulation of fear and aversion.

Participation of the median raphe nucleus and central serotoninergic pathways in the control of water electrolyte excretion

1. The role of the median raphe nucleus (MRN) and of increased central serotonin (5HT) synthesis/release in the mediation of Na+ excretion (UNaV) and K+ excretion (UKV) and or urine output (UV) was evaluated for 120 min. 2. Male Wistar rats weighing 220-280g were used in each group of 12-13 animals. The rats implanted with a cannula in the MRN were injected with saline (0.5 µl) or with 5.0 and 15.0 ng/0.5 µl kainic acid (KA), an excitatory amino (EAA). Another group of rats was injected ip with 200 mg/Kg saline or tryptophan, the initial precursor of 5HT synthesis. 3. Injection of both kainic acid and tryptophan led to increased Na+ excretion, but the magnitude and time course were different for each treatment. Both KA doses were effective in increasing UNaV (0.061 ñ 0.08, mean ñ SEM, and 0.95 ñ 0.19 -Eq/min, respectively, vs 0.27 ñ 0.04 µEq/min for saline at 60 min). The effect on UKV was statistically significant with the 15.0 ng dose (0.44 ñ 0.05 µEq/min vs 0.25 ñ0.03 µEq/min for saline) at 20 min. 5. Tryptophan adminsitration caused an initial gradual increase in UNaV which became steady and significant after 60 min (1.02 ñ 0.15 µEq/min vs 0.36 ñ 0.06 µEq/min for saline), as well as an increase in UKV (0.58 ñ 0.06 µEq/min vs 0.26 ñ 0.04 µEq/min for saline) at 60 min and throught the remainder of the observation period. 6. KA-induced MRN stimulation and systemic tryptophan overload significantly increased UV at 60, 80 and 100 min (30 to 97% above control values). 7. These data show that kanic acid-mediated transmission at the MRN lellvel may play a modulatory role in hydromineral metabolism. The effects obtained after increased central availability of tryptophan suggest that the excretory response is associated with an increase in 5HT synthesis/release and with an increase in central transmission. 8. We conclude that the data obtained from CA-induced MRN stimulation and systemic tryptophan overload may possibly reflect an increased 5HT synaptic transmission at sites and efferent mechanisms that remain to be elucidated

A novel, fully automated rotometer for the study of turning behavior: comparison of results under different experimental conditions

Se describe un rotámetro totalmente automático destinado a la cuantificación del comportamiento rotatorio en ratas con lesión unilateral del sistema nigroestiado. Las partes fundamentales del rotámetro son: a) sensor compuesto a su vez por un disco perforado que reproduce la rotación del animal mediante giro homólogo y dos células infrarrojo, con emisor y receptor cada una de ellas; b) microprocesador que transforma los pulsos de las células fotoeléctricas en información computadorizada, memoriándola; c) impressora comercial conectada al microprocesador. La confiabilidad, utilidad y validez del rotámetro se ensayó en distintos grupos experimentales de ratas adultas. La destrucción unilateral de la zona compacta de la sustantia nigra con 6-hidroxidopamina o ácido Kaínico intracerebrales, produce rotación contralateral bajo administración de apomorfina (0.5 y 1 mg/Kg, s.c.). En cambio la apomorfina provoca rotación homólateral a la lesión en animales con destrucción electrolítica (1.5 mA, 15 s) de la nigra. Para obtener una actividad rotatoria significativa, la lesión electrolítica debe ubicarse en la región externa del núcleo (365+53.4 vueltas/60m en lesión externa (n=5); 97.3ñ19.5 en lesión interna (n=3); t=2.31, p<0,05. Apomorfina 0.5 mg/Kg, s.c.). En animales con lesión unilateral del caudado por ácido iboténico intracerebral, se observa rotación homolateral tanto a la apomorfina como a la bromocriptina tanto a la apomorfina como a la bromocriptina (10 y 30 mg/Kg, i.p.). Se comprueban dif

The renal effects of kainic acid

the respone of juvenile cultivated Piaractus mesopotamicus to handling stress, whthout anesthesia, was determined over 3-5 min (T1), 1 h (T2) and 6 h (T3) afeter capture. Plasma cortisol, glucose and total cholesterol were measured. Hyperglycemia present at T2 continued to rise until T3 while plasma cortisol levels increased but were similar at T2 and T3. Total plasma cholesterol was altered only at T3. Hyperglycemic changes were greater in fish without than stomach contents during the T2-T3 period. These differences in hyperglycemic changes may reflect the role of hormones other than cortisol in the regulation of glucose release in these fish

Defense reaction elicited by microinjection of Kainic acid in the medial hypothalamus of the rat

In order to localize groups of neurons commanding the defense reaction, a subtoxic dose (66 pmol) of kainic acid was microinjected into the medial hypothalamus of the rat. After drug treatment, the animals were placed inside a shuttle-box for 15 min and the number of midline crossings, rearings and forward leaps was recorded. Autonomic changes such as occurrence of micturition and defectation were also measured. Injection of kainic acid significantly increased locomotion, rearing and micturition, indicating that the medial hypothalamus of the rat contains perikarya/dendrites of neurons integrating the defense reaction

Excitatory and inhibitory behavioral responses to the pharmacological stimulation of serotonergic function in dorsalis raphe lesioned rats

La lesion de neuronas 5-HT median te neurotoxinas induce supersensibilidad de receptores 5-HT1 sin afectar el "binding" de receptores 5-HT2. Este modelo fue utilizado en el presente trabajo para analizar el papel de ambos subtipos de receptores 5-HT en el mecanismo de control de las respuestas comportamentales excitatorias e inhibitorias provocadas por la estimulación farmacológica del sistema 5-HT. Las lesiones del rafe dorsales (RD) fueron hechas mediante inyección estereotáxica de ác. kaínico. Treinta días después las ratas RD y sus controles mostraron una actividad basal similar en "testes" de "hole board". Tres días después las ratas RD y sus controles fueron inyectadas ip con fluoxetina (5 y 10 mg/Kg) y 30 m después con 50HTP (15 y 30 mg/Kg). Imediatamente antes y después de cada inyección ip la respuesta excitatoria (síndrome mioclónico) fue evaluada. Las ratas RD y sus controles mostraron similares valores de mioclonías en respuesta a fluoxetina-5-HTP. La respuesta inhibitoria fue investigada en sesiones de "holeboard" a los 30 m de la segunda inyección ip. La lesión del RD potenció el efecto depresor de fluoxetina-5-HTP sobre el comportamiento. En concordancia con la literatura, la lesión del RD produjo una caída del 74.9% de la 5-HT del cerebro anterior y un incremento del 75% en el "bilding" de 3H-5HT en membranas corticales. En conclusión, los componentes de la respuesta excitatoria, que no se modificó por la lesión del RD, estarían relacionados principalmente con receptores 5-HT2. El aumento de la respuesta inhibitoria a la estimulación 5-HT observado en las rata lesionadas en RD estaría vinculado a la supersensibilidad de receptores 5-HT1

Effects of intrahippocampal injection of kainic acid on estrous cycle in rats

Kainic acid (KA) is a powerful convulsant and neurotoxic agent. In the present paper the acute and long term effects of intrahippocampal KA administration on estrous cycle and on serum concentrations of progesterone were studied in adult female rats. Following KA injection, 3 distinct periods were observed: 1) acute period (24-48 h), 2) silent period (21-30 days), and 3) chronic period, characterized by the appearance of spontaneous of spontaneous recurrent seizures (30-45 days). KA administration did not affect progesterone levels during the acute period. In contrast, during the sislent period, KA treated animals exhibited irregular estrous cycling and decreased progesterone levels. These results are of interest in view of a possible link between epileptic phenomena and hormone secretion

Patrones EEG y clínicos de la epilepsia límbica inducida por ácido caínico en el gato / EEG and clinical patterns of limbic epilepsy induced by kainic acid in cats

Se describen los cambios EEG y conductuales en el gato tras la aplicación de ácido caínico en la amígdala. Estos cambios se manifiestan en tres fases consecutivas: a) fase inicial, b) fase convulsiva y c) fase de recuperación. En la fase inicial se observó una actividad EEG rápida en la amígdala inyectada y en el hipocampo ventral ipsolateral, la cual evolucionaba en descargas paroxísticas y dio inicio a la fase convulsiva. En esta fase los animales presentaron dos tipos de crisis límbicas: crisis locales o de tipo A y crisi propagadas o de tipo B. De manera concomitante a los cambios EEG, se presentaron diferentes manifestaciones clínicas; así, en las crisis de tipo A se presentaron mioclonías de la hemicara epsolateral al foc, movimientos masticatorios y salivación, mientras que las crisis de tipo B se acompañaron de una conducta de exploración